WO2021106832A1 - T細胞マスターセルバンク - Google Patents
T細胞マスターセルバンク Download PDFInfo
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- WO2021106832A1 WO2021106832A1 PCT/JP2020/043573 JP2020043573W WO2021106832A1 WO 2021106832 A1 WO2021106832 A1 WO 2021106832A1 JP 2020043573 W JP2020043573 W JP 2020043573W WO 2021106832 A1 WO2021106832 A1 WO 2021106832A1
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- C12N2501/00—Active agents used in cell culture processes, e.g. differentation
- C12N2501/998—Proteins not provided for elsewhere
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N2506/00—Differentiation of animal cells from one lineage to another; Differentiation of pluripotent cells
- C12N2506/45—Differentiation of animal cells from one lineage to another; Differentiation of pluripotent cells from artificially induced pluripotent stem cells
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
- C12N—MICROORGANISMS OR ENZYMES; COMPOSITIONS THEREOF; PROPAGATING, PRESERVING, OR MAINTAINING MICROORGANISMS; MUTATION OR GENETIC ENGINEERING; CULTURE MEDIA
- C12N2510/00—Genetically modified cells
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- C—CHEMISTRY; METALLURGY
- C12—BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
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- C12N2740/00—Reverse transcribing RNA viruses
- C12N2740/00011—Details
- C12N2740/10011—Retroviridae
- C12N2740/10041—Use of virus, viral particle or viral elements as a vector
- C12N2740/10043—Use of virus, viral particle or viral elements as a vector viral genome or elements thereof as genetic vector
Definitions
- the present invention relates to a T cell master cell bank, a T cell working cell bank, a system for providing a T cell product containing the bank, and the like.
- Immune cell therapy is a treatment method in which immune cells proliferated and activated outside the patient's body are administered to the patient, and the immune cells are made to attack cancer cells.
- Immune cell therapy has the advantage of having few side effects compared to the three major therapies of conventional surgical treatment, radiotherapy, and chemotherapy. There are various types of immune cell therapy, and among them, off-the-shelf allogeneic T cell products are expected.
- iPS cell banking technology for example, Patent Document 1
- CAR gene introduction technology into iPS cells for example, Patent Document 2
- a master cell bank of iPS cells having the CAR gene is constructed by stocking the cells, and iPS cells derived from the cell bank are used as T cells.
- a system using T cells obtained by differentiation as an allogeneic T cell product has been reported (for example, Non-Patent Document 1).
- the above system requires a process of introducing an exogenous gene such as a CAR gene into a pluripotent stem cell such as an iPS cell and differentiating the cell into a T cell. Therefore, while satisfying GMP (Good Manufacturing Practice) standards set by the authorities of each country, maintenance steps, differentiation steps, and culture steps of cells (for example, iPS cells, T cells, CAR-T cells) at each stage in the process are performed. Is required. For example, since iPS cell master cell banks are used, it is necessary to differentiate iPS cells into T cells in order to prepare T cell products, but since iPS cells have pluripotency, each lot High levels of process and quality control are required each time to induce uniform differentiated cells, and human, time and financial costs are extremely high.
- GMP Good Manufacturing Practice
- the present invention provides a system for providing a high-quality off-the-shelf allogenic T cell product that can reduce human, time and financial costs and has a small lot difference. Is the subject. It is also an object to provide a T cell master cell bank and a T cell working cell bank that can be used to provide the system, and a collection thereof.
- the present inventors have focused exclusively on the method of constructing a master cell bank of iPS cells in the conventional techniques described in Non-Patent Document 1 and the like. It was speculated that this is because iPS cells have better proliferative capacity than T cells. Therefore, I got the idea that if T cells can be sufficiently proliferated by expansion culture, T cells or the proliferated T cells can be used as a master cell bank. That is, the present inventors do not construct a master cell bank of iPS cells having an exogenous gene such as a CAR gene, but by constructing a master cell bank of T cells containing the exogenous gene, the cell bank. I got the idea that we could quickly provide high-quality T cell products. As far as the present inventors know, the idea of constructing a master cell bank of T cells was completely unknown and completely new. As a result of further research based on these findings, the present inventors have completed the present invention.
- a system for providing T cell products which comprises a T cell master cell bank and / or a T cell working cell bank.
- the T cell master cell bank and / or T cell working cell bank contains T cells derived from induced pluripotent stem cells.
- the T cell master cell bank and / or the T cell working cell bank contains T cells in which the expression of at least one HLA gene is suppressed.
- the T cell master cell bank and / or the T cell working cell bank contains T cells into which an exogenous gene has been introduced.
- a T cell master cell bank and / or a T cell working cell bank is collected to include a T cell master cell bank collection and / or a T cell working cell bank containing two or more types of T cell master cell banks and / or T cell working cell banks.
- [3d] The system according to any one of [1] to [3c], further comprising a step of selecting a T cell master cell bank and / or a T cell working cell bank.
- [4] The method according to any one of [1] to [3d], which comprises the step of introducing a nucleic acid containing an exogenous gene into T cells prepared from the T cell master cell bank and / or the T cell working cell bank. system.
- [5] The system according to [4], wherein the exogenous gene is a CAR gene or an exogenous TCR gene.
- [6] The system according to any one of [1] to [5], wherein the type of the T cell product is two or more.
- [6a] The system according to any one of [1] to [6], further comprising a step of selecting a T cell product.
- [7] The system according to any one of [1] to [6a], further comprising a step of expanding and culturing T cells prepared from the T cell master cell bank and / or the T cell working cell bank.
- the step of expanding and culturing the T cells includes a step of stimulating the cells with a CD30 agonist.
- the system according to [7] which comprises a step of culturing the T cells in the presence of a CD30 agonist in the step of expanding and culturing the T cells.
- the system according to any one of [7] to [8a] further comprising a step of producing a frozen T cell product containing the expanded T cells.
- [10] The system according to any one of [6] to [9], further comprising collecting T cell products and constructing a T cell product collection containing two or more types of T cell products.
- [10a] The system according to any one of [1] to [10], further comprising a step of acquiring subject information.
- [10b] The system according to [10a], further comprising selecting the appropriate T cell master cell bank and / or the appropriate T cell working cell bank based on the subject's information.
- [10c] The system according to [10a], further comprising the step of selecting an appropriate T cell product based on the subject's information.
- any one of [13] to [15a] which comprises a step of introducing a nucleic acid containing an exogenous gene into T cells prepared from the T cell master cell bank and / or the T cell working cell bank. How to make T cell products.
- [17] The method for producing a T cell product according to [16], wherein the exogenous gene is a CAR gene or an exogenous TCR gene.
- [18] The method for producing a T cell product according to any one of [13] to [17], further comprising a step of expanding and culturing T cells.
- [19] The method for producing a T cell product according to [18], which comprises a step of stimulating the T cells with a CD30 agonist in the step of expanding and culturing the T cells.
- [19a] The method for producing a T cell product according to [18], which comprises a step of culturing the T cells in the presence of a CD30 agonist in the step of expanding and culturing the T cells.
- T cell master cell bank and / or T cell working cell bank [21] The T cell master cell bank and / or T cell working cell bank according to [20], which comprises T cells derived from induced pluripotent stem cells.
- T cell master cell bank and / or T cell working cell bank according to [20] or [21], which comprises T cells in which the expression of at least one HLA gene is suppressed.
- T cell master cell bank and / or T cell working cell bank according to any one of [20] to [22], which comprises T cells into which an exogenous gene has been introduced.
- a T cell master cell bank collection and / or a T cell working cell bank comprising two or more types of T cell master cell banks and / or T cell working cell banks according to any one of [20] to [22a]. collection.
- a method for constructing a T cell master cell bank and / or a T cell working cell bank which comprises the following steps.
- a step of differentiating artificial pluripotent stem cells lacking a chimeric antigen receptor (CAR) gene into T cells for CAR-T therapy (II) A step of stocking the differentiated T cells and (III) a step of analyzing the characteristics of the differentiated T cells [25] A T cell master cell bank and / or a T cell working cell bank including the following steps. How to build. (I) A step of differentiating artificial pluripotent stem cells lacking an exogenous T cell receptor (TCR) gene into T cells for TCR-T therapy.
- TCR T cell receptor
- the induced pluripotent stem cell has an exogenous gene, [24] or The method according to [25].
- [26] The method according to [24] or [25a], wherein the induced pluripotent stem cell has an exogenous T cell receptor (TCR) gene.
- TCR T cell receptor
- the induced pluripotent stem cell suppresses the expression of at least one HLA gene.
- [28] The method according to any one of [24] to [27a], wherein the T cells express CD8 ⁇ .
- a method for producing a T cell product expressing CAR or exogenous TCR which comprises the following steps.
- (A) A step of preparing T cells from the T cell master cell bank and / or the T cell working cell bank according to [29].
- (B) A step of introducing a CAR gene or an extrinsic TCR gene into the prepared T cells, and (C) a step of expanding and culturing the T cells into which the CAR gene or the exogenous TCR gene has been introduced [30a]
- (D) The method according to [30], which comprises the step of freezing the expanded T cells.
- [31] The method according to [30] or [30a], wherein the CAR or exogenous TCR recognizes and binds to a tumor-specific antigen or a tumor-related antigen.
- the step (C) includes a step of stimulating T cells with a CD30 agonist.
- (X) A step of identifying a tumor-specific or tumor-related antigen expressed in a subject's tumor, and (y) a T cell product expressing CAR or exogenous TCR that recognizes and binds to the identified antigen.
- a method of providing a T cell product suitable for a subject which comprises the following steps of selecting from the T cell product collection according to [35].
- (P) A step of acquiring subject information, and (q) a step of selecting an appropriate T cell master cell bank and / or an appropriate T cell working cell bank based on the acquired subject information.
- a system and a method for providing a high-quality off-the-shelf allogeneic T cell product that can reduce human, time and financial costs and have a small lot difference.
- Such a system and delivery method are particularly excellent when providing a plurality of types of T cell products.
- ⁇ Induced pluripotent stem cells iPSC> ⁇ -iPSC: iPS cells into which the TCR- ⁇ chain gene (TRA gene) and TCR- ⁇ chain gene (TRB gene) have been introduced V ⁇ 9V ⁇ 2-iPSC: V ⁇ 9V ⁇ 2 TCR- ⁇ chain gene (TRG gene) encoding G115 and TCR- IPS cells into which the ⁇ -chain gene (TRD gene) has been introduced ⁇ Hematopoietic precursor cells (HPC)> V ⁇ 9V ⁇ 2-iHPC: HPC into which the TCR- ⁇ chain gene (TRG gene) and TCR- ⁇ chain gene (TRD gene) encoding V ⁇ 9V ⁇ 2 TCR G115 have been introduced.
- HPC Hematopoietic precursor cells
- i ⁇ TC T cells differentiated from iPS cells into which exogenous TCR has not been introduced
- i ⁇ TC T cells differentiated from ⁇ -iPSC
- V ⁇ 9V ⁇ 2-iTC T cells differentiated from V ⁇ 9V ⁇ 2-iPSC
- V ⁇ 9V ⁇ 2-iHTC From V ⁇ 9V ⁇ 2-iHPC
- Differentiated T cells ⁇ T cells into which CAR gene has been introduced> CD19i ⁇ CARTC: T cells prepared by introducing a gene encoding anti-CD19-CAR into i ⁇ TC BCMA i ⁇ CARTC: T cells prepared by introducing a gene encoding anti-BCMA-CAR into i ⁇ TC
- CD19-CD30-i ⁇ CARTC derived from CD30 in i ⁇ TC T cells prepared by introducing a gene encoding the anti-CD19-CAR containing the intracellular domain ⁇ T cells into which the CAR gene and IL-15R ⁇ / IL-15 gene have been introduced> CD19 / IL15i
- T cell product providing system including a T cell cell bank
- T cell cell bank An example of a system in which multiple T cell products are provided from the T cell cell bank collection is shown.
- “Armored” in FIG. 2 means that an exogenous gene associated with the secretion of cytokines and / or chemokines has been introduced.
- the expression of CD3, ⁇ TCR and ⁇ TCR on the cell membrane surface of i ⁇ TC is shown.
- the filled peaks show the results of the non-antibody staining group, and the blank peaks show the results of staining using each antigen-specific antibody.
- TCR-V ⁇ 1 chain and TCR-V2 ⁇ chain on the cell membrane surface of i ⁇ TC is shown.
- the horizontal axis and the vertical axis show the expression of TCR-V ⁇ 1 chain (Vdelta1) and TCR-V ⁇ 2 chain (Vdelta2), respectively.
- the expression of CD3 and ⁇ TCR molecules on the cell membrane surface of V ⁇ 9V ⁇ 2-iTC is shown.
- the horizontal and vertical axes in the left figure show the expression of CD3 and pan- ⁇ TCR, respectively.
- the horizontal and vertical axes in the figure on the right show the expression of the TCR-V ⁇ 2 chain and the TCR-V ⁇ 9 chain, respectively.
- the expression of CD3 and ⁇ TCR molecules on the cell membrane surface of V ⁇ 9V ⁇ 2-iHTC is shown.
- the horizontal and vertical axes in the left figure show the expression of CD3 and pan- ⁇ TCR, respectively.
- the horizontal and vertical axes in the figure on the right show the expression of CD3 and TCR-V ⁇ 9 chains, respectively. It is a figure which shows cell proliferation of i ⁇ TC. The vertical axis shows the number of cells, and the horizontal axis shows the number of days elapsed from the start of growth culture. The arrow indicates the date on which stimulation with the immobilized anti-CD3 agonist antibody / Retronectin® and anti-CD30 agonist antibody was started. It is a figure which shows cell proliferation of V ⁇ 9V ⁇ 2-iTC. The vertical axis shows the number of cells, and the horizontal axis shows the number of days elapsed from the start of growth culture.
- the arrow indicates the date on which stimulation with the immobilized anti-CD3 agonist antibody / Retronectin® was started. It is a figure which shows the growth curve of CD19-i ⁇ CARTC stimulated by a solid phase anti-CD3 agonist antibody / retronectin (registered trademark).
- the vertical axis shows the number of cells, and the horizontal axis shows the number of days elapsed from the day when the above stimulation was started.
- the arrow indicates the date on which stimulation with the immobilized anti-CD3 agonist antibody / Retronectin® was started.
- CD19-positive Raji cells A of CAR T cells (CD19 i ⁇ CARTC (A) and BCMA i ⁇ CARTC (B)) and i ⁇ TC produced by introducing a gene encoding anti-CD19-CAR or a gene encoding anti-BCMA-CAR into i ⁇ TC ) Or BCMA-positive H929 cells (B) showing antigen-specific cytotoxic activity. It is a figure which shows the cytotoxic activity of CD19-CD30-i ⁇ CARTC to CD19 positive Raji cancer cells.
- the vertical axis shows the ratio of the number of killed cells after 2 hours, and the horizontal axis shows the mixing ratio of effector cells (CD19i ⁇ CARTC) and target cells (CD19-positive Raji cancer cells). It is a figure which shows the antigen-specific cytotoxic activity of CD19 / IL15i ⁇ CARTC. Black and white circles indicate cytotoxic activity against CD19-positive Raji cancer cells and CD19-negative CCRF-CEM cancer cells, respectively.
- the vertical axis shows the ratio of the number of remaining cells after 2 hours, and the horizontal axis shows the mixing ratio of effector cells (CD19 / IL15i ⁇ CARTC) and target cells (CD19-positive Raji cancer cells or CD19-negative CCRF-CEM cancer cells).
- FIG. 1 It is a figure which shows cell proliferation of CD19 / IL15iV ⁇ 9V ⁇ 2CARTC.
- the vertical axis shows the number of cells, and the horizontal axis shows the number of days elapsed from the start of growth culture.
- the arrow indicates the date on which stimulation with the immobilized anti-CD3 agonist antibody / Retronectin® was started.
- An example of a T cell product providing system including a T cell cell bank is shown.
- T Cell Master Cell Bank provides a T cell master cell bank and / or a T cell working cell bank.
- T cell cell bank may be used to include the T cell master cell bank and the T cell working cell bank.
- the present invention provides a T cell product providing system (hereinafter, may be referred to as “the providing system of the present invention”) including a T cell master cell bank and / or a T cell working cell bank. To do.
- cell bank is the same characteristic-analyzed that meets the quality standards set by pharmaceutical authorities around the world in accordance with the guidelines of ICH (International Council for Harmonization of Technical Requirements for Human Use). Means the starting material of (ICH guideline Q5D (ICH guideline Q5D)). Generally, cell banks are constructed by freezing cells packed in suitable containers, but in this respect they are distinguished from frozen stocks obtained by simply freezing cells. If necessary, cell banks will be tested for quality evaluation in addition to characteristic analysis. The method of constructing the cell bank and the test items for characterization and quality evaluation of the constructed cell bank vary depending on the biological properties (eg, nutritional requirements), culture history, and test feasibility of the cells to be cell banked.
- Master cell bank means a seed strain that is the source of all production cell seeds, grown under certain culture conditions through a minimum number of passages, and dispensed into multiple ampoules. T cells are called “T cell master cell banks”.
- the term "working cell bank” means that cells obtained by pooling one or more master cell banks are further cultured under conditions confirmed to be sufficiently stable and dispensed into a plurality of ampoules.
- T cell working cell banks those in which the cells are T cells are referred to as "T cell working cell banks” (in the present specification, T cell master cell banks and T cell working cell banks may be referred to as “T cell cell banks”).
- T cell master cell banks and T cell working cell banks may be referred to as “T cell cell banks”).
- T cell cell banks According to ICH Q5D, characteristic analysis tests are generally conducted on master cell banks, and some characteristic analysis tests are usually conducted on each working cell bank as well.
- the trait analysis test mainly evaluates the absence of exogenous infectious agents. In particular, contamination with foreign viruses can lead to serious consequences in clinical use and is evaluated according to ICH Q5A (R1). Other tests include identity tests to detect cross-contamination by other cell lines. Karyotype analysis and tumorigenicity tests may also be performed. Test items for quality evaluation include confirmation tests using appropriate cell phenotypes as T cells, purity tests, manufacturing process-derived impurity tests, and content tests such as cell number and cell viability.
- the T cell cell bank can be constructed by the person who manufactures and / or provides the T cell product by himself / herself, or can be introduced by a person who manufactures and / or provides the T cell product and used for manufacturing the T cell product.
- ICH Q5D the two-step cell bank concept of building a working cell bank from a master cell bank is generally the most practical way to supply cell substrates for continuous drug manufacturing. Is accepted as a target.
- Working cell banks are derived from one container or more master cell banks.
- the working cell bank can be updated from the master cell bank as needed. It is stated in ICH Q5D that it is necessary to appropriately confirm the eligibility of the newly constructed working cell bank by conducting characteristic analysis and the like.
- a T cell master cell bank can be constructed by dispensing T cells into a plurality of storage containers (sterile vials, etc.), freezing them, and stocking them.
- One container of T cells in this T cell master cell bank can be thawed and subjected to a characteristic analysis test as appropriate.
- a T cell working cell bank can be constructed by dispensing T cells from the same container or from another thawed container into a plurality of suitable containers, freezing and stocking them.
- a T cell product can be produced by thawing T cells for one or more containers of a T cell cell bank, introducing a nucleic acid containing an exogenous gene into the T cells, and expanding the culture. ..
- stocking means that a plurality of containers in which cells such as T cells are allocated are appropriately stored together, and storage conditions such as temperature and receipt / payment are managed. ..
- the container may be stored in one place or in a plurality of places.
- the “T cell” means a CD3 positive cell, and examples of T cells that can be used in the present invention include cytotoxic T cells (CTL) and CD4 positive cells that are CD8 positive cells. Some helper T cells, regulatory T cells, effector T cells, T cell receptor (TCR) ⁇ chains and TCR ⁇ chain positive cells such as ⁇ T cells. Both CD4 / CD8 positive cells are also included in T cells.
- the TCR in T cells may be a TCR due to the expression of an endogenous TCR gene or a TCR due to the expression of an extrinsic TCR gene.
- the exogenous TCR may be a variant of the TCR described below.
- the T cells in the T cell cell bank provided in the present invention are preferably cytotoxic T cells, more preferably CD8 ⁇ -positive cytotoxic T cells expressing CD8 ⁇ .
- the "T cell product” means a product in which T cells are filled in a storage container (sterile vial, blood transfusion bag, etc.), or a product to which external packaging, labeling, etc. are appropriately applied. To do.
- the T cell product may or may not be frozen, but is preferably frozen for long-term storage from the standpoint of T cell stability.
- a frozen T cell product may be particularly referred to as a “frozen T cell product”.
- T cell product includes both a non-frozen T cell product and a frozen T cell product (frozen T cell product).
- T cell products include both clinical trial products and commercial products administered to mammalian subjects, including humans.
- the conventional method of providing a T cell product using a master cell bank or a working cell bank of iPS cells is extremely costly in terms of human, time and money.
- the cost and time of each will be accumulated, and the effect will be more serious.
- the providing system of the present invention since a master cell bank or a working cell bank of T cells is used, human and temporal time are compared with conventional techniques, especially when providing two or more types of T cell products. And it is possible to significantly reduce financial costs. Therefore, the type of T cell product provided by the providing system of the present invention may be one type, but is particularly excellent when there are two or more types.
- Protein detection can be performed using antibody-based immunological assays such as ELISA, immunostaining, and flow cytometry.
- ELISA antibody-based immunological assays
- the reporter protein is expressed together with the protein, and the target protein is detected by detecting the reporter protein.
- Gene detection can be performed using, for example, a nucleic acid amplification method such as RT-PCR, biochip (eg, microarray), RNAseq, and / or a nucleic acid detection method.
- negative means that the expression level of a protein or gene is less than the lower limit of detection by all or any of the above-mentioned known methods.
- the lower limit of detection of protein or gene expression can vary from method to method.
- gene expression refers to the synthesis of mRNA from a specific nucleotide sequence of the gene (also referred to as transcription or mRNA expression) and the synthesis of a protein based on the information of the mRNA (also referred to as transcription or mRNA expression). Both translation and expression of a protein) are included, but unless otherwise specified, "expression of a gene” or simply “expression” shall mean expression of a protein.
- culture refers to maintaining, proliferating (growing), and / or differentiating cells in an in vitro environment.
- culturing is meant maintaining, proliferating (growing) and / or differentiating cells in vitro or in vitro, eg, in a cell culture plate, dish or flask.
- T cells constituting the T cell cell bank can be produced by inducing differentiation of stem cells capable of differentiating into T cells.
- stem cells include pluripotent stem cells and multipotent stem cells.
- a "pluripotent stem cell” can be differentiated into tissues and cells having various different morphologies and functions of a living body, and can be derived from three germ layers (endoderm, mesodermal, ectodermal). A stem cell that has the ability to differentiate into cells of any lineage.
- the pluripotent stem cells are not particularly limited, but are, for example, artificial pluripotent stem cells (sometimes referred to as “iPS cells” in the present specification), embryonic stem cells (ES cells), and clones obtained by nuclear transplantation.
- Embryonic stem cells (nuclear transfer Embryonic stem cells: ntES cells), pluripotent embryonic stem cells, embryonic embryonic stem cells (EG cells), and the like can be mentioned.
- multipotent stem cell refers to a stem cell capable of differentiating into a plurality of limited lineages of cells. Examples of “multipotent stem cells” include hematopoietic stem cells, dental pulp stem cells, oral mucosa-derived stem cells, hair follicle stem cells, cultured fibroblasts, and bone marrow stem cell-derived somatic stem cells.
- Preferred pluripotent stem cells are ES cells and iPS cells, and particularly preferably iPS cells.
- the pluripotent stem cell is an ES cell or an arbitrary cell derived from a human embryo
- the cell is a cell produced by destroying an embryo, even if the cell is produced by destroying the embryo. It may be, but preferably cells produced without destroying the embryo.
- the stem cells are preferably derived from mammals (eg, mice, rats, hamsters, guinea pigs, dogs, monkeys, orangutans, chimpanzees, humans), more preferably humans. Therefore, the most preferable stem cell used in the present invention is a human iPS cell.
- iPS cell Induced pluripotent stem cell
- iPS cell refers to a cell obtained by introducing a specific factor (nuclear reprogramming factor) into a mammalian somatic cell or an undifferentiated stem cell and reprogramming it.
- a specific factor nuclear reprogramming factor
- iPS cells induced pluripotent stem cells
- iPS cells derived from human cells established by introducing the same four factors into human fibroblasts (Takahashi K, Yamanaka S., Cell, (2006) 126: 663-676) Takahashi K, Yamanaka S., et al., Cell, (2007) 131: 861-872.), After introducing the above four factors, Nanog expression was selected as an index and established Nanog-iPS cells (Okita, K. , Ichisaka, T., and Yamanaka, S. (2007).
- C-Myc-free iPS cells (Nakagawa M, Yamanaka S., et al., Nature) Biotechnology, (2008) 26, 101 --106), iPS cells established by introducing 6 factors by virus-free method (Okita K et al., Nat. Methods 2011 May; 8 (5): 409-12, Okita K et al., Stem Cells. 31 (3): 458-66.) Can also be used.
- induced pluripotent stem cells established by introducing the four factors OCT3 / 4, SOX2, NANOG, and LIN28 produced by Thomson et al. (Yu J., Thomson JA.
- iPS cell lines established by NIH, RIKEN, Kyoto University, etc. can be used.
- human iPS cell line RIKEN's HiPS-RIKEN-1A strain, HiPS-RIKEN-2A strain, HiPS-RIKEN-12A strain, Nips-B2 strain, Kyoto University 253G1 strain, 201B7 strain, 409B2 strain, Examples thereof include 454E2 strain, 606A1 strain, 610B1 strain, 648A1 strain, iPS cell stock for regenerative medicine (for example, Ff-I01s04 strain, QHJI strain, etc.).
- ES cells are stem cells that are pluripotent and have the ability to proliferate by self-renewal, established from the inner cell mass of early mammalian embryos (for example, blastocysts) such as humans and mice. ES cells were discovered in mice in 1981 (MJ Evans and MH Kaufman (1981), Nature 292: 154-156), and ES cell lines were subsequently established in primates such as humans and monkeys (JA Thomson et). al., (1998), Science 282: 1145-1147; JA Thomson et al., (1995), Proc. Natl. Acad. Sci. USA, 92: 7844-7848; JA Thomson et al., (1996), Biol.
- ES cells can be established by removing the inner cell mass from the blastocyst of the fertilized egg of the target animal and culturing the inner cell mass on a fibroblast feeder.
- a fibroblast feeder For methods of establishing and maintaining ES cells in humans and monkeys, see, for example, USP 5,843,780; Thomson JA, et al., (1995), Proc Natl. Acad. Sci. U S A. 92: 7844-7848; Thomson. JA, et al., (1998), Science. 282: 1145-1147; Suemori H.
- ES cells can be established using only single blastomeres of embryos in the cleavage stage before the blastocyst stage (Chung Y. et al., (2008), Cell Stem Cell 2: 113. -117), it can also be established using embryos that have stopped developing (Zhang X. et al., (2006), Stem Cells 24: 2669-2676.).
- ES cells various mouse ES cell lines established by inGenious targeting laboratory, RIKEN (RIKEN), etc. can be used for mouse ES cells, and the University of Wisconsin for human ES cells.
- RIKEN inGenious targeting laboratory
- RIKEN RIKEN
- CHB-1 to CHB-12 strains sold by ESIBio As human ES cell lines, CHB-1 to CHB-12 strains sold by ESIBio, RUES1 strains, RUES2 strains, HUES1 to HUES28 strains, etc., H1 strains sold by WiCell Research, H9 strains, etc.
- KhES-1, KhES-2, KhES-3, KhES-4, KhES-5, SSES1, SSES2, SSES3, etc. to be sold can be used.
- nt ES cells are ES cells derived from cloned embryos produced by nuclear transfer technology and have almost the same characteristics as ES cells derived from fertilized eggs (Wakayama T. et al., (2001), Science, Science, 292: 740-743; S. Wakayama et al., (2005), Biol. Reprod., 72: 932-936; Byrne J. et al., (2007), Nature, 450: 497-502). That is, ES cells established from the inner cell mass of blastocysts derived from cloned embryos obtained by replacing the nuclei of unfertilized eggs with the nuclei of somatic cells are nt ES (nuclear transfer ES) cells.
- nt ES cells For the production of nt ES cells, a combination of nuclear transfer technology (Cibelli JB et al., (1998), Nature Biotechnol., 16: 642-646) and ES cell production technology (above) is used ( Kiyoka Wakayama et al. (2008), Experimental Medicine, Vol. 26, No. 5 (Special Edition), pp. 47-52).
- somatic cell nuclei can be injected into unfertilized mammalian eggs and cultured for several hours to reprogram them.
- Pluripotent germ stem cells are pluripotent stem cells derived from germline stem cells (GS cells). Similar to ES cells, these cells can induce differentiation into cells of various lineages, and have properties such as the ability to produce chimeric mice when transplanted into mouse blastocysts (Kanatsu-Shinohara M. et al., (2003) Biol. Reprod., 69: 612-616; Shinohara K. et al., (2004), Cell, 119: 1001-1012). It is self-renewable in a culture medium containing glial cell line-derived neurotrophic factor (GDNF), and reproduces by repeating passage under the same culture conditions as ES cells. Stem cells can be obtained (Masanori Takebayashi et al. (2008), Experimental Medicine, Vol. 26, No. 5 (Special Edition), pp. 41-46, Glial Cell Line (Tokyo, Japan)).
- GDNF glial cell line-derived neurotrophic factor
- EG cells are cells with pluripotency similar to ES cells, which are established from embryonic primordial germ cells. It can be established by culturing primordial germ cells in the presence of substances such as LIF, bFGF, and stem cell factor (Matsui Y. et al., (1992), Cell, 70: 841-847; JL. Resnick et al., (1992), Nature, 359: 550-551).
- Induction of differentiation into T cells The induction of differentiation of stem cells into T cells is not particularly limited as long as it can differentiate into T cells, and a known method can be used.
- the induction of differentiation into T cells is, for example, (1) a step of differentiating pluripotent stem cells into hematopoietic progenitor cells (process), and (2) the hematopoietic progenitor cells.
- process a step of differentiating pluripotent stem cells into hematopoietic progenitor cells
- Hematopoietic Progenitor Cells means CD34-positive cells, preferably both CD34 and CD43. Positive (DP) cells.
- hematopoietic progenitor cells and hematopoietic stem cells are not distinguished and represent the same cells unless otherwise specified.
- the method for differentiating pluripotent stem cells into hematopoietic progenitor cells is not particularly limited as long as it can differentiate into hematopoietic progenitor cells.
- a method of culturing pluripotent stem cells in a medium for inducing hematopoietic progenitor cells can be mentioned.
- the induction medium for hematopoietic progenitor cells is not particularly limited, but a medium used for culturing animal cells can be prepared as a basal medium.
- a basal medium for example, Dalbeco medium (eg IMDM), Eagle's medium (eg DMEM, EMEM, BME, MEM, ⁇ MEM), ham medium (eg F10 medium, F12 medium), RPMI medium (eg RPMI- 1640 medium, RPMI-1630 medium), MCDB medium (eg MCDB104, 107, 131, 151, 153 medium), Fisher medium, 199 medium, medium for primate ES cells (culture medium for primate ES / iPS cells, reprocell) , Mouse ES cell medium (TX-WES culture medium, Thrombo X), serum-free medium (mTeSR, Stemcell Technology), ReproFF, StemSpan® SFEM, StemSpan® H3000, StemlineII, ESF
- the basal medium may contain a medium additive and the like, and the medium additive includes, for example, serum, vitamin Cs (eg, ascorbic acid), albumin, insulin, transferase, and selenium.
- the medium additive includes, for example, serum, vitamin Cs (eg, ascorbic acid), albumin, insulin, transferase, and selenium.
- Compounds eg sodium selenate), fatty acids, trace elements, 2-mercaptoethanol, thioglycerol (eg ⁇ -monothioglycerol (MTG)), lipids, amino acids, L-glutamine, L-alanyl-L-glutamine (Example: Glutamax®), non-essential amino acids, vitamins, growth factors, low molecular weight compounds, antibiotics (eg penicillin, streptomycin), antioxidants, pyruvate, buffers, inorganic salts, cytokines, etc. Be done.
- antibiotics eg penicillin, streptomycin
- vitamin Cs mean L-ascorbic acid and its derivatives
- L-ascorbic acid derivatives mean those that become vitamin C by an enzymatic reaction in the living body.
- vitamin C phosphate eg, Ascorbic acid 2-phosphate
- ascorbic acid glucoside e.g. Ascorbic acid 2-phosphate
- ascorbic acid glucoside e.g. Ascorbic acid 2-phosphate
- ascorbic acid glucoside eg, ascorbic glucoside
- ascorbic ethyl vitamin C ester
- ascobyl tetrahexyldecanoate ascorbic stearate
- ascorbic acid-2 phosphate -6 Palmitic acid is exemplified.
- Vitamin C phosphate eg, Ascorbic acid 2-phosphate
- examples thereof include phosphate-L-ascorbic acid salts such as Na phosphate-L-ascorbic acid or Mg phosphate-L-ascorbic acid. Be done.
- the vitamin Cs are in an amount corresponding to 5 ng / ml to 500 ng / ml in the culture solution (eg, 5 ng / ml, 10 ng / ml, 25 ng / ml, 50 ng / ml, (Amounts equivalent to 100 ng / ml, 200 ng / ml, 300 ng / ml, 400 ng / ml, 500 ng / ml) are added.
- the vitamin Cs are in an amount corresponding to 5 ⁇ g / ml to 500 ⁇ g / ml (eg, 5 ⁇ g / ml, 10 ⁇ g / ml, 25 ⁇ g / ml, 50 ⁇ g / ml) in the culture solution.
- amounts corresponding to ml, 100 ⁇ g / ml, 200 ⁇ g / ml, 300 ⁇ g / ml, 400 ⁇ g / ml, 500 ⁇ g / ml are added.
- the media used in step (1) are BMP4 (Bone morphogenetic protein 4), VEGF (vascular endothelial growth factor), SCF (Stem cell factor), TPO (thrombopoietin), FLT-3L (Flt3 Ligand), bFGF (basic fibroblast growth factor). At least one cytokine selected from the group consisting of factor) may be further added. More preferably, the culture is supplemented with BMP4, VEGF and bFGF, and even more preferably, the culture is supplemented with BMP4, VEGF, SCF and bFGF.
- BMP4 is 5 ng / ml to 500 ng / ml
- VEGF is 5 ng / ml to 500 ng / ml
- SCF is 5 ng / ml to 100. It can be ng / ml
- TPO can be 1 ng / ml-100 ng / ml
- FLT-3L can be 1 ng / ml-100 ng / ml
- bFGF can be 5 ng / ml-100 ng / ml. ..
- TGF ⁇ inhibitors are small molecule inhibitors that interfere with TGF ⁇ family signal transduction, such as SB431542, SB202190 (above, RK Lindemann et al., Mol. Cancer 2:20 (2003)), SB505124 (GlaxoSmithKline), NPC30345, SD093, SD908, SD208 (Scios), LY2109761, LY364947, LY580276 (Lilly Research Laboratories), etc. are included.
- the concentration in the medium is preferably 0.5 ⁇ M to 100 ⁇ M.
- the culture of pluripotent stem cells may be adhesive culture or suspension culture.
- adhesive culture it may be carried out using a culture vessel coated with an extracellular matrix component, or it may be co-cultured with a feeder cell.
- the feeder cell is not particularly limited, and examples thereof include fibroblasts (mouse fetal fibroblast (MEF), mouse fibroblast (STO), etc.). It is preferable that the feeder cells are inactivated by a method known per se, for example, irradiation with radiation (gamma rays or the like) or treatment with an anticancer agent (mitomycin C or the like).
- matrigel As extracellular matrix components, matrigel (Niwa A, et al., PLoS One.6 (7): e22261, 2011), fibronectins such as gelatin, collagen and elastin, glucosamino such as hyaluronic acid and chondroitin sulfate Examples thereof include cell adhesion proteins such as glycan, proteoglycan, fibronectin, vitronectin, and laminin.
- Suspension culture refers to culturing cells in a non-adherent state in a culture vessel, and is not particularly limited, but is artificially treated for the purpose of improving adhesion to cells (for example, coating with extracellular matrix or the like).
- Untreated culture vessel or treatment to artificially suppress adhesion for example, coating treatment with polyhydroxyethyl methacrylate (poly-HEMA) or nonionic surface active polyol (Pluronic F-127, etc.)
- poly-HEMA polyhydroxyethyl methacrylate
- Pluronic F-127 nonionic surface active polyol
- hematopoietic progenitor cells can also be prepared from a net-like structure (also referred to as ES-sac or iPS-sac) obtained by culturing pluripotent stem cells.
- a net-like structure also referred to as ES-sac or iPS-sac
- the "net-like structure” is a three-dimensional sac-like structure (with space inside) derived from pluripotent stem cells, which is formed by an endothelial cell population or the like and contains hematopoietic progenitor cells inside. It is a structure.
- the culture temperature conditions are not particularly limited, but are preferably about 37 ° C to 42 ° C and 37 ° C to 39 ° C, for example. Further, the culture period can be appropriately determined by those skilled in the art while monitoring the number of hematopoietic progenitor cells and the like.
- the number of days is not particularly limited as long as hematopoietic progenitor cells can be obtained, but for example, at least 6 days or more, 7 days or more, 8 days or more, 9 days or more, 10 days or more, 11 days or more, 12 days or more, 13 days or more, It is 14 days or more, preferably 14 days.
- the long culture period is not usually a problem in the production of hematopoietic progenitor cells, but for example, 35 days or less is preferable, and 21 days or less is more preferable.
- the cells may be cultured under hypoxic conditions, and in the present invention, the hypoxic conditions are exemplified by oxygen concentrations of 15%, 10%, 9%, 8%, 7%, 6%, 5% or less. To.
- Step of differentiating hematopoietic progenitor cells into T cells The method for differentiating hematopoietic progenitor cells into T cells is not particularly limited as long as the hematopoietic progenitor cells can be differentiated into T cells. Alternatively, a method of culturing hematopoietic progenitor cells under the same culture conditions as the method of inducing T cells from hematopoietic progenitor cells as described in International Publication No. 2017/22 1975 can be mentioned.
- the medium for inducing differentiation into T cells is not particularly limited, but a medium used for culturing animal cells can be prepared as a basal medium. Further, if necessary, the basal medium may contain a medium additive or the like. Examples of the basal medium and the medium additive include the same as those used in the above step (1).
- the concentration of vitamin Cs in the medium or in the culture medium is preferably 5 ⁇ g / ml to 200 ⁇ g / ml.
- the vitamin Cs are in an amount corresponding to 5 ⁇ g / ml to 500 ⁇ g / ml (eg, 5 ⁇ g / ml, 10 ⁇ g / ml, 25 ⁇ g / ml, 50 ⁇ g / ml) in the culture solution.
- step (2) it is preferable to use a p38 inhibitor and / or SDF-1 (Stromal cell-derived factor 1).
- the "p38 inhibitor” means a substance that inhibits the function of the p38 protein (p38MAP kinase), for example, a chemical inhibitor of p38, a dominant negative variant of p38, or a nucleic acid encoding the same. However, it is not limited to these.
- SB203580 (4- (4-fluorophenyl) -2- (4-methylsulfonylphenyl) -5- (4-pyridyl) -1H-imidazole) and its derivatives are used as chemical inhibitors of p38 used in the present invention.
- SB202190 (4- (4-fluorophenyl) -2- (4-hydroxyphenyl) -5- (4-pyridyl) -1H-imidazole) and its derivatives
- SB239063 trans-4- [4- (4-fluoro)) Phenyl) -5- (2-methoxy-4-pyrimidinyl) -1H-imidazol-1-yl] cyclohexanol
- SB220025 and its derivatives PD169316, RPR200765A, AMG-548, BIRB-796, SClO-469 , SCIO-323, VX-702, FR167653 are exemplified, but not limited to these.
- SB203580 (4- (4-fluorophenyl) -2- (4-methylsulfonylphenyl) -5- (4-pyridyl) -1H-imidazole) and its derivatives are preferable.
- the dominant negative variant of p38 used in the present invention is p38T180A, which is a point mutation of threonine at position 180 located in the DNA binding region of p38 to alanine, and tyrosine at position 182 of p38 in humans and mice is point-mutated to phenylalanine.
- Examples include p38Y182F.
- the p38 inhibitor is contained in the medium in the range of about 1 ⁇ M to about 50 ⁇ M. When SB203580 is used as a P38 inhibitor, it can be contained in the medium in the range of 1 ⁇ M to 50 ⁇ M, 5 ⁇ M to 30 ⁇ M, and 10 ⁇ M to 20 ⁇ M.
- the SDF-1 used in the present invention is not only SDF-1 ⁇ or a mature form thereof, but also an isoform such as SDF-1 ⁇ , SDF-1 ⁇ , SDF-1 ⁇ , SDF-1 ⁇ or SDF-1 ⁇ or a mature form thereof. It may be a mixture of any proportions thereof or the like. Preferably, SDF-1 ⁇ is used. SDF-1 may also be referred to as CXCL-12 or PBSF.
- SDF-1 may have one or several amino acids deleted, substituted, inserted and / or added in its amino acid sequence as long as it has activity as a chemokine (such amino acids).
- SDF-1 deleted, substituted, inserted and / or added is also referred to as "SDF-1 variant").
- sugar chains may be deleted, substituted, inserted and / or added in the SDF-1 or SDF-1 mutant.
- mutant of SDF-1 for example, at least 4 cysteine residues (Cys30, Cys32, Cys55 and Cys71 in the case of human SDF-1 ⁇ ) are retained, and 90 with respect to the natural amino acid sequence.
- SDF-1 may be of mammals such as humans and non-human mammals such as monkeys, sheep, cows, horses, pigs, dogs, cats, rabbits, rats, mice and the like.
- human SDF-1 ⁇ a protein registered with GenBank registration number: NP_954637 can be used
- SDF-1 ⁇ a protein registered with GenBank registration number: NP_000600 can be used.
- SDF-1 a commercially available product may be used, a product purified from nature may be used, or a product manufactured by peptide synthesis or a genetic engineering method may be used.
- SDF-1 is contained in the medium in the range of, for example, about 10 ng / ml to about 100 ng / ml.
- an SDF-1 substitute having SDF-1-like activity can be used instead of SDF-1.
- An example of such an SDF-1 substitute is a CXCR4 agonist, and a low molecular weight compound having CXCR4 agonist activity may be added to the medium instead of SDF-1.
- At least one, preferably all of the cytokines selected from the group consisting of SCF, TPO (thrombopoietin), FLT-3L and IL-7 may be further added to the culture medium. .. These concentrations are, for example, SCF of 10 ng / ml to 100 ng / ml, TPO of 10 ng / ml to 200 ng / ml, and IL-7 of 1 ng / ml to 100 ng / ml.
- FLT-3L is 1 ng / ml-100 ng / ml.
- hematopoietic progenitor cells may be adherently cultured or suspension-cultured, and in the case of adherent culture, a culture vessel may be coated and used, or co-cultured with feeder cells or the like.
- co-cultured feeder cells include bone marrow stromal cell line OP9 cells (available from RIKEN BioResource Center).
- the OP9 cells are preferably OP9-DL4 cells or OP9-DL1 cells that constitutively express DLL4 or DLL1 (eg, Holmes R1 and Zuniga-Pflucker JC. Cold Spring Harb Protoc. 2009 (2)).
- OP9 cells when used as feeder cells, it may be carried out by appropriately adding DLL4 or DLL1 prepared separately, or a fusion protein of DLL4 or DLL1 and Fc or the like to the medium.
- feeder cells when used, it is preferable to appropriately replace the feeder cells for culturing.
- the feeder cells can be exchanged by transferring the target cells in culture onto the feeder cells seeded in advance. The exchange may be made every 5 days, 4 days, 3 days, or 2 days.
- embryoid bodies are suspended-cultured to obtain hematopoietic progenitor cells, it is preferable to dissociate them into single cells and then perform adhesive culture. Although it may be co-cultured with the feeder cells, it is preferably cultured without using the feeder cells.
- examples of the coating agent for coating the culture vessel include matrigel (Niwa A, et al., PLos One, 6 (7): e22261, 2011)), collagen, gelatin, and laminin. , Heparan sulfate proteoglycan, retronectin (registered trademark), DLL4 or DLL1, or fusion protein of DLL4 or DLL1 and the Fc region of the antibody (hereinafter, may be referred to as Fc) (eg, DLL4 / Fc chimera), entactin. , And / or a combination thereof, and a combination of retronectin and a fusion protein of DLL4 and Fc or the like is preferable.
- matrigel Niwa A, et al., PLos One, 6 (7): e22261, 2011
- Fc Fc region of the antibody
- the culture temperature conditions are not particularly limited, but are preferably about 37 ° C. to about 42 ° C. and about 37 ° C. to about 39 ° C., for example.
- the culture period can be appropriately determined by those skilled in the art while monitoring the number of T cells and the like.
- the number of days is not particularly limited, but is typically at least 10 days or longer, 12 days or longer, 14 days or longer, 16 days or longer, 18 days or longer, or 20 days or longer, preferably 20 days or longer. 21st. Further, 90 days or less is preferable, and 42 days or less is more preferable.
- the cell population obtained by the above steps includes T cells, but the step (2) may further include the following step (3).
- Step of concentrating T cells The method of concentrating T cells is not particularly limited as long as T cells are concentrated, and is described in, for example, International Publication No. 2016/076415 and International Publication No. 2017/221975. A method of culturing T cells under the same culture conditions as the step of inducing CD8-positive T cells from CD4CD8-positive T cells as described above can be mentioned.
- concentrating refers to increasing the proportion of a particular component in a composition, such as a cell composition
- concentrating refers to a cell composition, eg, When used to describe a cell population, it refers to a cell population in which the amount of a particular component is increased relative to the proportion of such component in the cell population before it is concentrated.
- a composition such as a cell population can be enriched with respect to the target cell type, thus the proportion of the target cell type increases compared to the proportion of target cells present in the cell population before enrichment. ..
- Cell populations can also be enriched for target cell types by cell selection and selection methods known in the art. Cell populations can also be concentrated by the specific culture methods, selection or selection processes described herein.
- the method of enriching the target cell population causes the cell population to be at least 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, relative to the target cell population. Concentrated 85%, 90%, 95%, 97%, 98% or 99%.
- cell population means two or more cells of the same type or different types.
- Cell population also means a mass of cells of the same or different types.
- the medium used for concentrating T cells is not particularly limited, but a medium used for culturing animal cells can be prepared as a basal medium. If necessary, the basal medium may contain a medium additive or the like. Examples of the basal medium and the medium additive include the same as those used in the above step (1).
- the concentration of vitamin Cs in the medium or in the culture medium is preferably 5 ⁇ g / ml to 200 ⁇ g / ml.
- the vitamin Cs are in an amount corresponding to 5 ⁇ g / ml to 500 ⁇ g / ml (eg, 5 ⁇ g / ml, 10 ⁇ g / ml, 25 ⁇ g / ml, 50 ⁇ g / ml) in the culture solution.
- the hormone when a hormone is used in step (3), the hormone includes adrenocortical hormone.
- Corticosteroids are glucocorticoids or derivatives thereof, and examples thereof include cortisone acetate, hydrocortisone, fludrocortisone acetate, prednisolone, triamcinolone, methylprednisolone, dexamethasone, betamethasone, and bechrometazone propionate.
- Dexamethasone is preferred.
- the adrenocortical hormone is dexamethasone, its concentration in the medium is 1 nM to 100 nM.
- the medium may contain a CD3 / TCR complex agonist.
- the CD3 / TCR complex agonist is not particularly limited as long as it is a molecule capable of transmitting a signal from the CD3 / TCR complex into T cells by specifically binding to the CD3 / TCR complex.
- CD3 / TCR complex agonists include, for example, CD3 agonists and / or TCR agonists.
- the CD3 agonist is an anti-CD3 agonist antibody (also simply referred to as "anti-CD3 antibody”) or a binding fragment thereof
- the TCR agonist is an anti-TCR agonist antibody (also simply referred to as "anti-TCR antibody”) or a binding fragment thereof, MHC / antigen peptide.
- the anti-CD3 antibody includes both a polyclonal antibody and a monoclonal antibody, but is preferably a monoclonal antibody. Further, the antibody may belong to any immunoglobulin class of IgG, IgA, IgM, IgD or IgE, but IgG is preferable.
- the anti-CD3 antibody include an antibody produced from an OKT3 clone (OKT3) and an antibody produced from a UCHT1 clone (UCHT1), and UCHT1 is preferable.
- the concentration of the anti-CD3 antibody in the medium is, for example, 10 ng / ml to 1000 ng / ml, preferably 50 ng / ml to 800 ng / ml, and more preferably 250 ng / ml to 600 ng / ml.
- the above-mentioned CD3 / TCR complex agonist may be commercially available, may be purified from nature, or may be produced by peptide synthesis, genetic engineering method or chemical synthesis method. You may use the new one.
- OKT3 and UCHT1 can be purchased from Thermo Fisher, GeneTex, and others.
- cytokines When cytokines are used in step (3), examples of cytokines include IL-2 and IL-7.
- the cytokine When the cytokine is IL-2, its concentration in the medium is 10 U / ml to 1000 U / mL, and when it is IL-7, its concentration in the medium is 1 ng / ml to 1000 ng. / mL.
- the culture temperature conditions are not particularly limited, but are preferably about 37 ° C. to about 42 ° C. and about 37 ° C. to about 39 ° C., for example.
- the culture period can be appropriately determined by those skilled in the art while monitoring the number of T cells and the like.
- the number of days is not particularly limited, but is, for example, at least 1 day or more, 2 days or more, 3 days or more, 4 days or more, 5 days or more, preferably 6 days. Further, 28 days or less is preferable, and 14 days or less is more preferable.
- the expression of endogenous genes may be appropriately adjusted in the T cells constituting the T cell cell bank.
- the T cells that make up the T cell cell bank are of at least one type (eg, one type, two types, three types, six types, nine types) from the viewpoint of reducing rejection in allogeneic transplantation.
- the expression of the HLA (human leukocyte antigen gene) gene is suppressed or the HLA gene is deleted.
- the providing system of the invention comprises T cells in which the expression of at least one HLA gene is suppressed.
- suppression of HLA gene expression also includes deletion of that gene.
- HLA genes include Class I HLA (ie, HLA-A, HLA-B, HLA-C, HLA-E, HLA-F and HLA-G) genes and Class II HLA (ie, HLA-G) genes.
- HLA-DR, HLA-DQ and HLA-DP) genes include one or more HLA genes selected from the group.
- the expression of a gene important for the expression of the HLA gene or presentation on the cell surface may be suppressed.
- Such genes include, for example, the B2M gene encoding B2M, which is an important protein for presenting HLA class 1 HLA on the cell surface, and CIITA encoding CIITA, which is an important protein for expressing the class II HLA gene.
- HLA-C gene which suppresses the expression of only two genes, the HLA-A gene and the HLA-B gene, and is important for avoiding NK cell attack
- HLA-E gene, HLA-F gene, and HLA-G gene the expression of the class II HLA gene may or may not be suppressed, but from the viewpoint of immunocompatibility, it is preferable to suppress the expression of the gene).
- the combinations of HLA genes whose expression is to be suppressed include (i) a combination of HLA-A gene and HLA-B gene, and (ii) HLA-A gene, HLA-B gene, and HLA-.
- Combination of DR gene, HLA-DQ gene and HLA-DP gene, and (iii) HLA-A gene, HLA-B gene, HLA-C gene, HLA-E gene, HLA-F gene, HLA-G gene, HLA -Combination of DR gene, HLA-DQ gene and HLA-DP gene can be mentioned.
- HLA which is a human major histocompatibility complex (MHC)
- MHC human major histocompatibility complex
- RNA, shRNA, miRNA, antisense oligonucleic acid which targets HLA mRNA, B2M mRNA, and / or CIITA mRNA
- T cells eg, pluripotent stem cells, hematopoietic precursor cells (CD34 + / CD43 +), ProT cells (CD4- / CD8-), CD3 + / CD4 + / CD8 + T cells , CD3 + / CD4- / CD8 + T cells, or other cells (eg, CD3- / CD4 + / CD8 + cells, etc.), or the nucleic acid encoding the molecule is introduced into the cell by the method described below.
- T cells eg, pluripotent stem cells, hematopoietic precursor cells (CD34 + / CD43 +), ProT cells (CD4- / CD8-), CD3 + / CD4 + / CD8 + T cells , CD3 + / CD4- / CD8 + T cells, or other
- the expression of the HLA gene can be knocked down.
- genome editing eg, CRISPR system, TALEN, ZFN, etc.
- CRISPR system e.g., CRISPR system, TALEN, ZFN, etc.
- the T cells constituting the T cell cell bank can express the TCR chain by siRNA, or by introducing an exogenous TCR known to be harmless to a subject to which the T cell is administered. It is preferable to suppress the expression of TCR endogenous to the cell.
- siRNA method in order to avoid the effect of siRNA on exogenous TCR, the base sequence of the nucleic acid encoding the TCR is changed to RNA on which siRNA that suppresses the expression of the endogenous TCR chain acts. It is preferable to use a sequence different from the corresponding base sequence (codon conversion type sequence).
- the above-mentioned base sequence can be prepared by introducing a silent mutation into a nucleic acid encoding TCR obtained from nature, or by chemically synthesizing an artificially designed nucleic acid.
- a part or all of the constant region of the nucleic acid encoding the introduced TCR may be replaced with a constant region derived from an animal other than the subject.
- the T cells constituting the T cell cell bank may be introduced with a nucleic acid containing an exogenous gene, or the exogenous gene product may be expressed.
- the exogenous gene is not particularly limited, and an exogenous gene encoding a protein, cytokine, chemokine, etc. that can contribute to the control of T cell function can be used.
- the exogenous gene include a gene encoding a chimeric antigen receptor (CAR) (hereinafter, also referred to as “CAR gene”) and a gene encoding an extrinsic T cell receptor (TCR) (hereinafter, “”. Also called "TCR gene”).
- CAR and TCR expressed from a gene introduced into a cell can recognize and bind to an antigen and / or the antigen-HLA complex.
- the nucleic acid encoding TCR means a nucleic acid containing a base sequence encoding one strand forming TCR and a base sequence encoding the other strand.
- the term “capable of binding” means “having an ability to bind” and is not shared with one or more other molecules. Refers to the ability to form a binding complex.
- the binding is usually a bond having a high affinity, and the binding affinity measured by the KD value is preferably less than 1 ⁇ M, more preferably less than 100 nM, and even more preferably less than 10 nM. Even more preferably less than 1 nM, even more preferably less than 100 pM, even more preferably less than 10 pM, even more preferably less than 1 pM.
- KD or "KD value” is associated with the equilibrium dissociation constant known in the art and refers to the binding affinity between molecules. The smaller the KD value, the higher the binding affinity.
- the TCR used in the present invention includes a TCR in which the ⁇ and ⁇ chains form a heterodimer (that is, ⁇ TCR) or a TCR in which the ⁇ and ⁇ chains form a heterodimer (that is, ⁇ TCR). Not only those constituting the homodimer are also included. Further, those in which a part or all of the constant region is deleted or those in which the amino acid sequence is recombined may be used.
- the above-mentioned constant region of the TCR chain may be subjected to a predetermined modification in the constant region of the TCR chain of the cytotoxic T cell (CTL) clone from which it is derived.
- CTL cytotoxic T cell
- this modification include substituting a specific amino acid residue in the constant region of the TCR of the CTL clone with a cysteine residue to enhance the dimer expression efficiency due to the disulfide bond between the TCR chains. Not limited to these.
- the above TCR may be a modified form, and in the following, unless otherwise specified, the modified form shall be included in the TCR.
- a variant comprises, for example, a combination of two polypeptides containing a constant region of a TCR chain selected from the group consisting of ⁇ chain, ⁇ chain, ⁇ chain and ⁇ chain developed by the present inventors. Examples include variants of the T cell receptor.
- Variants of the TCR can either be the complementarity determining regions (CDRs) of the TCR ⁇ and ⁇ chains, or the complementarity determining regions (CDRs) of the same type of strand (preferably some or all of the variable regions containing the CDRs).
- the above-mentioned variants include natural or artificial (for example, different animal species from which the constant region and the variable region are derived) ⁇ TCR, ⁇ TCR, or TCR variants in which amino acids are further added to these TCRs. Not included.
- the polypeptide corresponding to at least one strand of the variant of the present invention contains the constant regions of the T cell receptor ⁇ chain
- the polypeptide determines the complementarity of the T cell receptor ⁇ chain. It does not contain regions, preferably some or all of the variable regions that contain the complementarity determining regions, but does include CDRs and variable regions of different TCR chains other than the ⁇ and ⁇ chains, such as the ⁇ and ⁇ chains. You may.
- the polypeptide corresponding to at least one chain of the variant contains the constant region of the T cell receptor ⁇ chain
- the polypeptide contains the complementarity determining region of the T cell receptor ⁇ chain.
- variable regions containing the complementarity determining regions Preferably not including some or all of the variable regions containing the complementarity determining regions, but including CDRs and variable regions of different TCR chains other than ⁇ and ⁇ chains, such as ⁇ and ⁇ chains. May be good. The same applies to the ⁇ chain and the ⁇ chain.
- the above TCR may have a membrane transfer signal peptide (hereinafter referred to as "signal peptide") added thereto.
- the signal peptide includes CD8, Immunoglobulin-H (IGH), CD4, a membrane transfer signal peptide derived from a gene encoding various peptides having a transmembrane domain, and / or 1 or 1 in the amino acid sequence of the signal peptide. From an amino acid sequence in which several (for example, 2, 3, 4, 5) amino acids are deleted, substituted, inserted and / or added, or an amino acid sequence having the same identity as the amino acid sequence of the signal peptide. Signal peptide can be used.
- the binding position and the number of signal peptides when the signal peptide is added are not particularly limited.
- the "chimeric antigen receptor (CAR)” means a fusion protein containing an antigen-binding domain, a transmembrane domain, and an intracellular signal transduction domain.
- the antigen-binding domain of CAR binds the light chain (VL) and heavy chain (VH) of the variable region of the antibody in series via a spacer such as a linker (eg, a linker consisting of G and S (GS linker)).
- a linker eg, a linker consisting of G and S (GS linker)
- GS linker short chain antibody
- CAR-expressed T cells recognize the antigen in the scFV region and then transmit the recognition signal into the T cell through the intracellular signal transduction domain.
- CAR can directly recognize antigen molecules independently of HLA class I or class II, it can cause a high immune response even in cells with reduced expression of HLA class I or class II genes. It is possible.
- antigen targeted by the CAR include the same antigens as the above-mentioned antigen targeted by the TCR.
- transmembrane domain of CAR examples include TCR ⁇ chain, ⁇ chain or ⁇ chain, CD28, CD3 ⁇ chain, CD45, CD4, CD5, CD8, CD9, CD16, CD22, CD33, CD37, CD64, CD80, CD86, Examples include, but are not limited to, transmembrane domains derived from one or more proteins selected from the group consisting of CD134, 4-1BB (CD137) and CD154.
- the transmembrane domain of the molecule from which the first intracellular signaling domain linked to the antigen-binding domain is derived may be used, for example, the molecule from which the first intracellular signaling domain linked to the antigen-binding domain is derived.
- the transmembrane domain may also be derived from CD28.
- an artificially designed transmembrane domain may be used.
- the intracellular signal transduction domain of CAR is selected from the group consisting of, for example, CD3 ⁇ chain (TCR ⁇ chain), FcR ⁇ chain, FcR ⁇ chain, CD3 ⁇ chain, CD3 ⁇ chain, CD3 ⁇ chain, CD5, CD22, CD79a, CD79b and CD66d.
- Intracellular domains derived from one or more proteins include, but are not limited to. Among these, the intracellular signal transduction domain derived from the CD3 ⁇ chain is preferable.
- the intracellular signal transduction domain may further contain an intracellular domain of a co-stimulating molecule, and examples of such co-stimulating molecule include CD27, CD28, 4-1BB (CD137), OX40, CD30, Intracellular domain of one or more proteins selected from the group consisting of CD40, PD-1, ICOS, lymphocyte function-related antigen-1 (LFA-1), CD2, CD7, LIGHT, NKG2C, B7-H3 and CD83. Can be mentioned. By selecting the type and number of costimulatory molecules to be bound, the intensity and duration of CAR activity can be controlled (for example, Mol Ther. 2009; 17: 1453-1464.).
- a spacer may be incorporated between the antigen-binding domain and transmembrane domain of CAR, or between the intracellular signaling domain and transmembrane domain of CAR, and the spacer is usually 300 amino acids or less, preferably 10 or less.
- Peptides consisting of ⁇ 100 amino acids, most preferably 25-50 amino acids can be used. Specific examples thereof include, but are not limited to, a hinge region derived from IgG1 and a peptide containing a CH2CH3 region of immunoglobulin and a part of CD3.
- a second-generation CAR in which a transmembrane domain and an intracellular domain derived from CD28 are incorporated, and a co-stimulation different from that of CD28 between the intracellular domain of CD28 and the CD3 ⁇ chain of the second-generation CAR.
- Examples include, but are not limited to, third generation CARs in which the intracellular domain of the molecule (4-1BB or OX40) is integrated.
- the CAR used in the present invention includes scFv, which recognizes CD19 as an antigen-binding domain, a transmembrane domain of CD8 as a transmembrane domain, an intracellular domain derived from CD28 as an intracellular signal transduction domain, and CD30.
- scFv recognizes CD19 as an antigen-binding domain
- a transmembrane domain of CD8 as a transmembrane domain
- an intracellular domain derived from CD28 as an intracellular signal transduction domain
- CD30 examples thereof include a chimeric antigen receptor containing an intracellular domain derived from an intracellular domain, an intracellular domain derived from 4-1BB, and an intracellular domain derived from a CD3 ⁇ chain.
- each of the above intracellular domains included in the intracellular signal transduction domain is not particularly limited, but for example, the intracellular domain derived from CD28, the intracellular domain derived from CD30, or the intracellular domain derived from 4-1BB, It is included in the order of intracellular domains derived from the CD3 ⁇ chain.
- the chimeric antigen receptor of the present invention is, for example, one or more (preferably) of the amino acid sequence represented by SEQ ID NO: 4 or 5, or the amino acid sequence represented by SEQ ID NO: 4 or 5. Is deleted or substituted with about 1 to 100 amino acids, preferably about 1 to 50 amino acids, more preferably about 1 to 10 amino acids, particularly preferably 1 to several (2, 3, 4 or 5) amino acids. Consists of an inserted and / or added amino acid sequence.
- the intracellular domain derived from CD30 is, for example, 1 or 2 or more (preferably about 1 to 100, preferably about 1 to 50, more preferably about 1 to 50) of the amino acid sequences represented by SEQ ID NO: 7.
- antigens targeted by the TCR and CAR include, but are not limited to, tumor antigens.
- the tumor antigen may be a tumor-specific antigen (TSA) or a tumor-related antigen (TAA).
- TSA tumor-specific antigen
- TAA tumor-related antigen
- Specific examples of such tumor antigens include differentiation antigens such as MART-1 / MelanA (MART-I), gp100 (Pmel17), tyrosinase, TRP-1, and TRP-2, WT1, Glypican-3, and MAGE-. 1.
- Tumor-specific multiseries antigens such as MAGE-3, BAGE, GAGE-1, GAGE-2, p15, fetal antigens such as CEA, overexpressed tumor genes such as p53, Ras, HER-2 / neu or Mutant tumor suppressor genes, unique tumor antigens caused by chromosomal translocations such as BCR-ABL, E2A-PRL, H4-RET, IGH-IGK, MYL-RAR, and Epstein barvirus antigen EBVA and human papillomavirus.
- HPV Antigens
- One or more antigens selected from the group consisting of viral antigens such as E6 and E7 can be mentioned.
- tumor antigens include TSP-180, MAGE-4, MAGE-5, MAGE-6, RAGE, NY-ESO, p185erbB2, p180erbB-3, c-met, nm-23H1, PSA, TAG-72, CA 19-9, CA72-4, CAM17.1, NuMa, K-ras, ⁇ -catenin, CDK4, Mum-1, p15, p16, 43-9F, 5T4, 791Tgp72, ⁇ -fetoprotein, ⁇ -HCG, BCA225, BTAA, CA 125, CA 15-3 ⁇ CA 27.29 ⁇ BCAA, CA 195, CA 242, CA-50, CAM43, CD68 ⁇ P1, CO-029, FGF-5, G250, Ga733 ⁇ EpCAM, HTgp-175 , M344, MA-50, MG7-Ag, MOV18, NB / 70K, NY-CO-1, RCAS1, SDCCAG16, TA-90 ⁇
- TCR or the like TCR or the like
- a preferred method is For example, a dextramer assay or an ELISPOT assay can be mentioned.
- ELISPOT assay By performing the ELISPOT assay, it can be confirmed that the T cell expressing the TCR or the like on the cell surface recognizes the target antigen from the TCR or the like and the signal is transmitted into the cell.
- the present inventors have previously expressed CAR in cells expressing a fusion protein containing IL-15 and IL-15R ⁇ (hereinafter, may be abbreviated as “IL-15 / IL-15R ⁇ ”) together with the above CAR. It has been found that cytotoxic activity is increased as compared to cells expressing only. Therefore, from the viewpoint of cytotoxic activity, the T cells constituting the T cell cell bank preferably express IL-15 / IL-15R ⁇ , and more preferably express the above CAR.
- the IL-15 / IL-15R ⁇ gene is used for cells at the stage of differentiation from pluripotent cells to T cells (eg, pluripotent stem cells, hematopoietic precursors).
- T cells eg, pluripotent stem cells, hematopoietic precursors.
- cells CD34 + / CD43 +
- ProT cells CD4 - / CD8 -
- CD3 + / CD4 + / CD8 + T cells CD3 + / CD4 - / CD8 + T cells or other cells, (eg: CD3 - / CD4 + / CD8 + cells, etc.)).
- IL-15 / IL-15R ⁇ is preferably carried out into cells in the form of nucleic acids encoding them, and such introduction can be carried out in the same manner as in the case of performing the above-mentioned nucleic acid introduction step.
- IL-15R ⁇ expressed on antigen-presenting cells normally binds to IL-15 and consists of a common ⁇ chain ( ⁇ c) with IL-15R ⁇ on CD8-positive and CD4-negative cells.
- ⁇ c common ⁇ chain
- IL-15R ⁇ expressed on CD8-positive and CD4-negative cells.
- a T cell expressing IL-15 / IL-15R ⁇ can transmit an IL-15 signal into its own cell via the IL-15 receptor when the cell is CD8-positive and CD4-negative.
- IL-15 / IL-15R ⁇ -expressing T cells can transmit IL-15 signals into other CD8-positive and CD4-negative cells via the IL-15 receptor.
- IL-15 / IL-15R ⁇ can maintain the cytotoxic activity of CD8-positive and CD4-negative cells, a continuous cytotoxic effect on cells targeted by CAR can be expected.
- IL-15 / IL-15R ⁇ may be a transmembrane protein or a secretory protein.
- IL-15R ⁇ is known to be the region responsible for binding IL-15 to the IL-15 binding domain of 1-65 amino acids from the N-terminus of the mature protein (Wei X. et al., J.Immunol., 167: 277-282, 2001). Therefore, the transmembrane protein may be any protein that retains the IL-15 binding domain and retains the transmembrane domain of IL-15R ⁇ .
- proteins that retain the IL-15 binding domain and lack the transmembrane domain of IL-15R ⁇ for example, 1-65 amino acid residues and 1-85 amino acid residues of IL-15R ⁇ .
- IL-15 / IL-15R ⁇ may incorporate a spacer between IL-15 and IL-15R ⁇ , and the spacer is usually 300 amino acids or less, preferably 10 to 100 amino acids, and most preferably 20 to 50 amino acids.
- Peptides consisting of amino acids can be used. Specific examples thereof include, but are not limited to, the above-mentioned GS linker.
- the IL-15 / IL-15R ⁇ is not particularly limited as long as it is a protein in which IL-15 and IL-15R ⁇ are fused, but specific examples thereof include a peptide consisting of SEQ ID NO: 7.
- IL-15 / IL-15R is not restricted as long as it can bind to the IL-15 receptor and transmit the IL-15 signal intracellularly, but is, for example, about 90% of the amino acid sequence shown in SEQ ID NO: 7.
- a peptide containing an amino acid sequence having an amino acid sequence having a homology or identity of preferably about 95% or more, more preferably about 97% or more, particularly preferably about 98% or more, and most preferably about 99% or more can be mentioned.
- homogeneity refers to the optimum alignment (preferably, the algorithm is the optimum alignment) when two amino acid sequences are aligned using a mathematical algorithm known in the art.
- the same amino acid and similar amino acid residues in the case of identity, the same amino acid residues for all overlapping amino acid residues in one or both of the sequences can be considered for the sake of Means the ratio (%) of.
- similar amino acids mean amino acids that are similar in physicochemical properties, such as aromatic amino acids (Phe, Trp, Tyr), aliphatic amino acids (Ala, Leu, Ile, Val), polar amino acids (Gln, Asn).
- the homology calculation algorithm NCBI BLAST National Center for Biotechnology Information Basic Local Alignment Search Tool
- It can be calculated by BLOSUM62; filtering OFF).
- the exogenous gene can be introduced by a known method, and when the introduced nucleic acid is in the form of DNA, for example, calcium phosphate coprecipitation method, PEG method, electroporation method, microinjection method, lipofection method or the like. Can be done.
- a known method for example, calcium phosphate coprecipitation method, PEG method, electroporation method, microinjection method, lipofection method or the like.
- the methods described in Volume 119 No. 6
- 345-351 (2002), etc. can be used.
- the nucleic acid When using a viral vector, the nucleic acid is introduced into an appropriate packaging cell (eg, Plat-E cell) or complementary cell line (eg, 293 cells) together with the packaging vector as necessary, and then cultured.
- a viral vector produced in the Qing dynasty can be collected and introduced into cells by infecting the cells with an appropriate method according to each viral vector.
- examples of such viral vectors include retroviral vectors (including lentiviral vectors and pseudotyped vectors), adenoviral vectors, adeno-associated virus vectors, herpesvirus vectors, Sendai viral vectors, episomal vectors and the like.
- retroviral vectors including lentiviral vectors and pseudotyped vectors
- adenoviral vectors adeno-associated virus vectors
- herpesvirus vectors Sendai viral vectors
- Sendai viral vectors episomal vectors and the like.
- you may use the transposon expression system PiggyBac system.
- the plasmid vector examples include animal cell expression plasmids (eg, pa1-11, pXT1, pRc / CMV, pRc / RSV, pcDNAI / Neo).
- animal cell expression plasmids eg, pa1-11, pXT1, pRc / CMV, pRc / RSV, pcDNAI / Neo.
- specific means of using a retroviral vector as a vector are disclosed in International Publication No. 2007/69666, Cell, 126, 663-676 (2006), Cell, 131, 861-872 (2007), etc. There is.
- CH-296 manufactured by Takara Bio Inc.
- Takara Bio Inc. is a recombinant fibronectin fragment
- the type of viral vector can be appropriately selected depending on the type of cell to be introduced.
- the target cell is a T cell, it is preferable to use a retrovirus vector, and it is more preferable to use a gammaretrovirus vector.
- the target cell is an iPS cell, it is preferable to use a lentiviral vector.
- the introduced nucleic acid may be directly introduced into cells in the form of RNA to express the gene introduced into the cells.
- a method for introducing RNA a known method can be used, and for example, a lipofection method, an electroporation method, or the like can be preferably used.
- the reprogramming factor is in the form of a protein, it can be introduced into cells by a method such as lipofection, fusion with a cell membrane penetrating peptide (for example, HIV-derived TAT and polyarginine), or microinjection.
- the above TCR etc. are introduced into cells in the form of nucleic acids encoding TCR etc.
- Fusion proteins containing IL-15 and IL-15R ⁇ are also introduced into cells in the form of nucleic acids encoding the fusion proteins.
- the nucleic acid and the nucleic acid for suppressing the expression of the above-mentioned HLA gene may be DNA or RNA, or may be a DNA / RNA chimera, but DNA is preferable. Further, the nucleic acid may be double-stranded or single-stranded. In the case of double-stranded, it may be double-stranded DNA, double-stranded RNA or a hybrid of DNA: RNA.
- nucleic acid when the nucleic acid is RNA, T shall be read as U for the RNA sequence.
- the nucleic acid may also contain native nucleotides, modified nucleotides, nucleotide analogs, or mixtures thereof, as long as the polypeptide can be expressed in vitro or in cells.
- the above nucleic acid can be constructed by a method known per se. For example, based on a known TCR or CAR amino acid sequence or nucleic acid sequence, a DNA strand is chemically synthesized, or a partially overlapping oligo DNA short strand synthesized is subjected to a PCR method or a Gibson Assembly method. By connecting, it is possible to construct DNA that encodes the full length or part of the TCR or CAR. Nucleic acids for suppressing the expression of the HLA gene and nucleic acids encoding fusion proteins containing IL-15 and IL-15R ⁇ can be constructed in the same manner.
- the above nucleic acid can be incorporated into an expression vector.
- the vector may or may not be integrated into the genome of the target cell.
- a vector that is not integrated into the genome can replicate outside the genome of the target cell.
- the vector may be present in multiple copies outside the genome of the target cell.
- the vector is integrated into the genome of the target cell.
- the introduced nucleic acid can be integrated into the genome by homologous recombination using genome editing (for example, CRISPR system, TALEN, ZFN, etc.).
- the nucleic acid, such as a vector is integrated into a predetermined location in the genome of the target cell.
- Examples of the promoter used in the above vector include EF1 ⁇ promoter, CAG promoter, SR ⁇ promoter, SV40 promoter, LTR promoter, CMV (cytomegalovirus) promoter, RSV (Rous sarcoma virus) promoter, and MoMuLV (Molony mouse leukemia virus).
- LTR, HSV-TK (simple herpesvirus thymidine kinase) promoter, TCRV ⁇ gene promoter, TCRV ⁇ gene promoter, etc. are used.
- the EF1 ⁇ promoter, CAG promoter, MoMuLV LTR, CMV promoter, SR ⁇ promoter and the like are preferable.
- the above vector may contain, if desired, a transcriptional and translational regulatory sequence, a ribosome binding site, an enhancer, an origin of replication, a poly A addition signal, a selectable marker gene, and the like, in addition to the above promoter.
- a selectable marker gene include a dihydrofolate reductase gene, a neomycin resistance gene, a puromycin resistance gene, and the like.
- an expression vector containing a nucleic acid encoding an ⁇ chain of TCR and a nucleic acid encoding a ⁇ chain is introduced into a target cell, and the ⁇ chain and ⁇ of TCR are introduced into the target cell or on the cell surface.
- Heterodimers of chains can be constructed.
- the nucleic acid encoding the ⁇ chain of TCR and the nucleic acid encoding the ⁇ chain may be incorporated into separate expression vectors or may be incorporated into one expression vector. When integrated into a single expression vector, these two nucleic acids are preferably integrated via a sequence that allows polycistronic expression.
- sequence that enables polycistronic expression By using a sequence that enables polycistronic expression, it becomes possible to more efficiently express a plurality of genes integrated into one type of expression vector.
- sequence that enables polycistronic expression include 2A sequence (eg, 2A sequence (F2A) derived from foot-and-mouth disease virus (FMDV), 2A sequence (E2A) derived from horse rhinitis A virus (ERAV), Porcine teschovirus (Porcine teschovirus).
- the exogenous gene introduced into T cells constituting the T cell cell bank can be introduced into cells generated in the process of differentiating stem cells (for example, iPS cells or ES cells) into T cells.
- the cells generated in the process of differentiating stem cells (for example, iPS cells or ES cells) into T cells also include stem cells (for example, iPS cells or ES cells) and T cells.
- the exogenous gene introduced into the T cells that make up the T cell cell bank is introduced into iPS cells, hematopoietic progenitor cells and / or T cells.
- the T cells obtained above can be expanded and cultured by the method shown in "1-5. Expansion culture” described later, if necessary. it can.
- a T cell master cell bank can be constructed by dispensing and stocking the T cells obtained by the above method into a plurality of storage containers (sterile vials, etc.). The stocked T cells are preferably frozen.
- T cells in the T cell master cell bank can be thawed and subjected to a characteristic analysis test as appropriate. Further, T cells prepared from the same container or from another container are expanded and cultured by the method shown in "1-5. Expansion culture” described later as necessary, and the obtained T cells are expanded and cultured according to the expansion culture.
- a T cell working cell bank can be constructed by dispensing and stocking in a container of. The stocked T cells are preferably frozen. Therefore, the providing system of the present invention may include a step of constructing a T cell master cell bank and / or a T cell working cell bank (hereinafter, also referred to as a “T cell cell bank construction step”). In the following, the part configured to execute the T cell cell bank construction step may be referred to as a "T cell cell bank construction unit".
- Freezing of T cells As described above, it is preferable that the T cells in the T cell cell bank are frozen. Freezing of T cells can also be performed by a known method. Such methods include, for example, placing a container containing T cells in a freezer (eg, ultra-low temperature freezer), or bringing the cells into contact with a cold medium (eg, liquid nitrogen, etc.) and storing in the freezer or cryopreservation. Achieved by storing in a system (eg, locator, etc.), but not limited to this.
- the freezing temperature is typically 0 ° C. or lower, preferably ⁇ 20 ° C. or lower, more preferably ⁇ 40 ° C. or lower, and even more preferably ⁇ 80 ° C. or lower.
- the cooling rate in the freezing operation is typically a cooling rate of 1 to 5 hours, preferably 2 to 4 hours, particularly about 3 hours, from the start of cooling at 4 ° C until it reaches -80 ° C. ..
- a cooling rate can be achieved by providing the freezing means set to a desired temperature with a container containing T cells directly or by accommodating the container in a freezing treatment container.
- the freezing treatment container may have a function of controlling the rate of decrease in temperature inside the container to a predetermined speed.
- BICELL registered trademark
- Japan Freezer Japanese Freezer
- the cooling rate can be achieved by using a freezer whose cooling rate can be controlled by setting a program or the like.
- any known freezer for example, a program freezer (for example, KryoMed (Thermo Fisher), PDF-2000G (Strex), KRYO-560-16 (Asahi Life Science)) or the like can be used.
- a culture solution in which colonies are immersed, a physiological buffer solution, etc. are used as a cryopreservation solution, and a cryoprotectant is added to the culture solution, or the culture solution is replaced with a cryopreservation solution containing a cryoprotectant. It may be performed after processing.
- the cryopreservation solution may be added after substantially all the culture solution has been removed, or the cryopreservation solution may be added while leaving a part of the culture solution.
- a commercially available solution may be used, and examples thereof include CryoStor (registered trademark) CS10 and STEM-CELLBANKER (registered trademark) (ZENOAQ).
- the cryoprotectant is not particularly limited, and is, for example, dimethyl sulfoxide (DMSO), ethylene glycol (EG), propylene glycol (PG), 1,2-propanediol (1,2-PD), 1,3-propane. Examples thereof include diol (1,3-PD), butylene glycol (BG), isoprene glycol (IPG), dipropylene glycol (DPG), and glycerin.
- the cryoprotectant may be used alone or in combination of two or three or more.
- the cryoprotectant may be used in combination with an extracellular cryoprotectant.
- the extracellular cryoprotectant include polyethylene glycol, sodium carboxymethyl cellulose, polyvinylpyrrolidone, hydroxyethyl starch (HES), dextran, albumin and the like.
- the concentration of cryoprotectant added to the culture medium, or the concentration of cryoprotectant in the cryopreservation solution is typically 2-20% (v / v), preferably 2-20% (v / v) of the total culture solution or cryopreservation solution. Is 5 to 15%, more preferably 8 to 13%.
- the above concentration can be appropriately adjusted depending on the type of cryoprotectant.
- the concentration of DMSO is typically 2 with respect to the entire culture solution or cryopreservation solution. It is -20% (v / v), preferably 2.5-12.5%, more preferably 5-10%.
- Specific examples of the cryopreservative and freezer are as described above.
- a cryopreservation container can be used as the container containing T cells, and specific examples of the cryopreservation container include sterile vials (eg, glass ampoules, polymer vials (AT-closed vial), etc.). ..
- a T cell cell bank usually contains one or more containers in which T cells are dispensed and frozen. Therefore, preparation of T cells is performed by one or more cells from the T cell cell bank.
- a step of collecting the T cells and thawing the T cells, a step of washing the thawed cells, a step of pre-culturing the cells to put them to sleep, a step of maintaining and culturing the cells, and the like are also included.
- Each of the above steps may be performed by the same entity or by different entities.
- the method for thawing T cells can be carried out by a known method.
- a container containing frozen T cells collected from a T cell cell bank is placed above the freezing temperature using a water bath, an incubator, or the like.
- a solid, liquid or gaseous medium of temperature eg, water, culture
- the temperature of the medium is typically 4 ° C to 50 ° C, preferably 30 ° C to 40 ° C, more preferably 36 ° C to 38 ° C.
- the thawing time is typically 2 minutes or less, and in particular, 20 seconds or less can significantly suppress the decrease in cell viability.
- the thawing time can be adjusted by changing, for example, the temperature of the thawing means or the immersion medium, the volume or composition of the culture solution or the cryopreservation solution at the time of freezing, and the like.
- the cells can be washed by a known method.
- the cells are suspended in a cell washing solution (eg, a culture solution or a physiological buffer solution which may contain serum or serum components (serum albumin, etc.)) and centrifuged. It is achieved by discarding the supernatant and collecting the precipitated cells, but is not limited to this.
- a cell washing solution eg, a culture solution or a physiological buffer solution which may contain serum or serum components (serum albumin, etc.
- suspension, centrifugation, and recovery cycles may be performed one or more times (eg, 2, 3, 4, 5 or more).
- the step of washing cells is performed immediately after the step of thawing T cells collected from a T cell cell bank.
- Examples of commercially available cell washing solutions that can be used in the present invention include cell lotion (Nippon Zenyaku Kogyo Co., Ltd.).
- the medium for the pre-culture and the maintenance culture is not particularly limited, but a medium used for culturing animal cells can be prepared as a basal medium. If necessary, the basal medium may contain a medium additive or the like. Examples of the basal medium and the medium additive include the above 1-1. The same as those listed in the step (1) of the above can be mentioned.
- the culture period of the pre-culture and the maintenance culture can be appropriately performed depending on the purpose, but it is preferably performed for 1 day or more (example: 5, 6 or 7 days), and 10 days or less (example: 7,). 8, 9, 10 days) is preferred.
- the culture temperature is not particularly limited, but is 30 ° C. to 40 ° C., preferably 37 ° C., and the culture is carried out in the presence of CO 2- containing air, and the CO 2 concentration is preferably 2 to 5%.
- nucleic acid introduction step introduces a nucleic acid containing an exogenous gene into T cells prepared from a T cell cell bank (hereinafter, "nucleic acid introduction step”). ”) May be included.
- “including steps” or “including steps” means including a step or a portion configured to perform a step.
- a portion configured to execute the nucleic acid introduction step may be referred to as a “nucleic acid introduction unit”.
- the method for introducing a nucleic acid in the nucleic acid introduction step, and the exogenous gene and the nucleic acid containing the exogenous gene are the same as described above.
- the exogenous gene introduced in the nucleic acid introduction step may be the same as or different from the exogenous gene already introduced into the T cells constituting the T cell cell bank.
- the nucleic acid introduction unit may be provided with a basal medium, a culture vessel, and a sterile space, and may be configured so that a nucleic acid containing an exogenous gene can be introduced into the prepared T cells.
- the sterile space means a sterile internal space defined by a clean chamber, a clean bench, a sterile room, etc., and the sterile internal space defined by the entire nucleic acid introduction unit and the internal space of the nucleic acid introduction unit. A part of the sterile space shall also be included in the sterile space.
- the device, medium, etc. provided in the nucleic acid introduction unit are appropriately selected according to the characteristics of the device, the method of introducing nucleic acid, and the like.
- the nucleic acid introduction unit is a nucleic acid encoding a medium additive, a clean bench, an incubator, a bioreactor for cell culture, a microscope, a centrifuge, an aspirator, a nucleic acid for introduction, a protein for genome editing, etc., as necessary.
- Pipets, tubes, buffers eg acetate buffer, phosphate buffer, citrate buffer, citrate phosphate buffer, borate buffer, tartrate buffer, tris buffer, phosphate buffer physiological saline , McIlvaine buffer, etc.
- buffers eg acetate buffer, phosphate buffer, citrate buffer, citrate phosphate buffer, borate buffer, tartrate buffer, tris buffer, phosphate buffer physiological saline , McIlvaine buffer, etc.
- another reagent or device may be provided depending on the type of nucleic acid transfer method.
- basal medium and the medium additive provided in the nucleic acid introduction unit are as described above.
- a culture vessel a petri dish, a flask, a plastic bag, a Teflon (registered trademark) bag, a dish, a petridesh, a tissue culture dish, a multi-dish, a microplate, a microwell plate, which are generally used for cell culture, are used. Examples thereof include multi-plates, multi-well plates, chamber slides, cell culture flasks, spinner flasks, tubes, trays, culture bags, roller bottles and the like.
- the material of these culture containers is not particularly limited, and for example, glass, polyvinyl chloride, cellulose-based polymers such as ethyl cellulose and acetyl cellulose, polystyrene, polymethyl methacrylate, polycarbonate, polysulfone, polyurethane, polyester, polyamide, polystyrene, polypropylene, etc.
- Polyethylene polybutadiene, poly (ethylene-vinyl acetate) copolymer, poly (butadiene-styrene) copolymer, poly (butadiene-acrylonitrile) copolymer, poly (ethylene-ethyl acrylate) copolymer, poly (ethylene-methacrylate) copolymer, polychloroprene, Examples thereof include plastics such as styrene resin, chlorosulphonized polyethylene, ethylene vinyl acetate, and acrylic block copolymer.
- the nucleic acid introduction unit is a variety of reagents or solutions (eg, CaCl 2 and its solution, HCl and its solution, NaCl and its solution). , MgCl 2 and its solution, Na 2 HPO 4 and its solution, KH 2 PO 4 and its solution, NP-40 and its solution, HEPES and its solution, DMSO and its solution, etc.) Good.
- reagents or solutions eg, CaCl 2 and its solution, HCl and its solution, NaCl and its solution.
- the nucleic acid introduction unit includes an electroporator, an electrode (eg, a platinum electrode, a cuvette electrode, a petri dish platinum plate electrode, etc.), an electroporation plate, and a chamber (eg, an electrode chamber). , Plate chamber, etc.), etc. may be provided in one or more types.
- transfection reagents eg Lipofectamine (invitrogen), jetPEI (Polyplus-transfection), XfectTM (Clontech TaKaRa cellartis), GenomONETM (Ishihara Sangyo Co., Ltd.)), Trans IT (Mirus Bio) LLC), RmesFect / RmesFect Stem (OZ BIOSCIENCES), etc.
- the nucleic acid transfer unit is a variety of viral vectors listed above, packaging vector plasmids, packaging cells (eg, Plat-E cells), complementary cell lines, biosafety levels. It may be provided with one or more kinds of laboratories such as two.
- Expansion culture The system provided by the present invention is a step of expanding culture of T cells prepared from a T cell master cell bank or T cells in which a nucleic acid containing an exogenous gene is introduced into the T cells (hereinafter, also referred to as “expansion culture step”). ) May be included.
- the part configured to execute the expansion culture step may be referred to as an “expansion culture unit”.
- expansion culture means culturing for the purpose of proliferating a desired cell population and increasing the number of cells.
- the increase in cell number may be achieved as long as the increase in cell proliferation exceeds the decrease in death, and it is not necessary for all cells in the cell population to proliferate.
- the increase in cell number is 1.1 times, 1.2 times, 1.5 times, 2 times, 3 times, 4 times, 5 times, 6 times, 7 times, 8 times, 9 times, 10 times compared to before the start of expansion culture. , 15 times, 20 times, 30 times, 40 times, 50 times, 100 times, 300 times, 500 times, 1,000 times, 3,000 times, 5,000 times, 10,000 times, 100,000 times, 1,000,000 times or more.
- the expansion culture step can be carried out by a known method, but from the viewpoint of cell proliferation efficiency, it is preferable to carry out the expansion culture step by a method including a step of stimulating T cells with a CD30 agonist, which has been found by the present inventors. Since it is possible to stimulate T cells with the CD30 agonist by culturing the T cells in the presence of the CD30 agonist, it is preferable to carry out the method including the step of culturing the T cells in the presence of the CD30 agonist. Thus, in one aspect of the invention, the expansion culture step may include culturing T cells in the presence of a CD30 agonist.
- the CD3 / TCR complex agonist and fibronectin or a variant thereof are also present in the culture medium.
- the CD3 / TCR complex agonist and the CD30 agonist can stimulate the CD3 / TCR complex and CD30, respectively. Since the proliferative capacity of T cells differentiated from iPS cells is low compared to the proliferative capacity of iPS cells, constructing a master cell bank and / or working cell bank at the T cell stage can be administered to a person or multiple humans. It was difficult to supply enough T cells and T cell products to obtain the expected therapeutic effect. The present invention overcomes such difficulties.
- a master cell bank and / or a working cell bank is constructed at the T cell stage, and a T cell product is supplied more stably. It becomes possible to do.
- stimulation means that a substance binds to various receptors and activates the signal pathway downstream thereof.
- the medium used for the expansion culture step of T cells is not particularly limited, but a medium used for culturing animal cells can be prepared as a basal medium.
- the basal medium may contain a medium additive or the like.
- the basal medium and the medium additive include the above 1-1. The same as those listed in the step (1) of the above can be mentioned.
- Culturing can be carried out, for example, in an atmosphere of about 1 to about 10%, preferably about 2 to about 5% CO 2 concentration in a CO 2 incubator at about 30 to about 40 ° C., preferably about 37 ° C. .. Further, the culture period can be appropriately determined by those skilled in the art while monitoring the number of T cells and the like.
- the number of days is not particularly limited, but is, for example, at least 3 days or more, 5 days or more, 7 days or more, 10 days or more, 14 days or more, 21 days or more, preferably 7 days or more and 15 days or less. Is. Further, 30 days or less is preferable, and 21 days or less is more preferable.
- the culture period is, for example, 3 to 30 days, 5 to 30 days, 7 to 30 days, 10 to 30 days, 14 to 30 days, 21 to 30 days, 3 to 21 days, 5 to 21 days, 7 to 21 days. , 10-21 days, 14-21 days, 3-15 days, 5-15 days, 7-15 days, 10-15 days, 14-15 days, etc.
- the concentration of vitamin Cs in the medium or in the culture medium is preferably 5 ⁇ g / ml to 200 ⁇ g / ml.
- the vitamin Cs are in an amount corresponding to 5 ⁇ g / ml to 500 ⁇ g / ml (eg, 5 ⁇ g / ml, 10 ⁇ g / ml, 25 ⁇ g / ml, 50 ⁇ g / ml) in the culture solution.
- the CD3 / TCR complex agonist used in the step is described in 1-1.
- the concentration of the CD3 / TCR complex agonist in the medium is also the above 1-1. The concentration is the same as that described in step (3).
- fibronectin or a variant thereof is present in the medium.
- fibronectin is not particularly limited as long as it is a molecule capable of binding to T cells.
- the variant of fibronectin is not particularly limited as long as it is a molecule capable of binding to VLA-5 and VLA-4 on the surface of T cells, and examples thereof include retronectin.
- Fibronectin or a variant thereof may be present in any medium. For example, it may be contained in the medium at the time of culturing or may be solid-phased in the culture vessel, but is preferably solid-phased in the culture vessel.
- the medium When fibronectin or a variant thereof is contained in the medium, the medium may be the same as the medium containing the CD3 / TCR complex agonist. In addition, the presence or absence of serum, additives, etc. may be the same as in the medium containing the CD3 / TCR complex agonist.
- the concentration of fibronectin or a variant thereof has a lower limit of 10 ng / ml or more, preferably 100 ng / ml or more, and an upper limit of 10000 ⁇ g / ml. Hereinafter, it may be preferably 1000 ⁇ g / ml or less.
- the CD30 agonist is present in the medium.
- a CD30 agonist is not particularly limited as long as it is a molecule capable of transmitting a signal from the CD30 into the cell by specifically binding to the CD30.
- the CD30 agonist include at least one selected from the group consisting of an anti-CD30 agonist antibody (also simply referred to as “anti-CD30 antibody”) or a binding fragment thereof and a CD30 ligand or a binding fragment thereof.
- the CD30 agonist used in the expansion culture step may be present regardless of the mode of existence as long as it can be present so as to be in contact with CD30 during culturing.
- it may be contained in the medium at the time of culturing, or may be immobilized in the culture vessel, but is preferably contained in the medium.
- the medium When the CD30 agonist is contained in the medium, the medium may be the same as the medium containing the CD3 / TCR complex agonist. In addition, the presence or absence of serum, additives, etc. may be the same as that of the medium containing the CD3 / TCR complex agonist.
- the concentration of the CD30 agonist in the medium may be appropriately determined by those skilled in the art depending on the CD30 agonist. For example, when the CD30 agonist is an anti-CD30 agonist antibody or a binding fragment thereof, the concentration of the anti-CD30 agonist antibody or the binding fragment thereof in the medium is usually 1 ng / ml to 10000 ng / ml, preferably 30 ng. It is / ml to 300 ng / ml.
- the culture vessel When the CD30 agonist is immobilized on the culture vessel, the culture vessel may be the same as the culture vessel on which the CD3 / TCR complex agonist is immobilized. Further, the method of immobilizing the CD30 agonist in the culture vessel may be the same as the method of immobilizing the CD3 / TCR complex agonist.
- the concentration of the CD30 agonist solution when immobilizing the CD30 agonist in the culture vessel is 0.1 ng / ml or more, preferably 1 ng / ml or more as the lower limit, and 10000 ng / ml or less as the upper limit. It can preferably be 1000 ng / ml or less.
- Such concentrations are, for example, 0.1 to 10000 ng / ml, 1 to 10000 ng / ml, 0.1 to 1000 ng / ml, 1 to 1000 ng / ml, 30 ng / ml to 300 ng / ml, and the like.
- cytokines When cytokines are used in the expansion culture step, examples of cytokines include IL-2, IL-7, IL-12, IL-15, IL-18, IL-21, and even if only one of these is used. It may be used well or a plurality of types (preferably all types) may be used. If the cytokine is IL-2, its concentration in the medium may be 10 U / ml to 1000 U / ml or 0.01 ng / mL to 1000000 ng / mL, and if it is IL-7, the medium.
- the concentration in the medium may be 0.1 ng / ml to 1000 ng / ml, 1 ng / ml to 500 ng / ml, 5 ng / ml to 100 ng / ml (for example, 10 ng / ml).
- the concentration of IL-12 in the medium is 0.1 ng / ml to 1000 ng / ml, 1 ng / ml to 500 ng / ml, 5 ng / ml to 100 ng / ml (for example, 50 ng / ml).
- the concentration of IL-15 in the medium may be 0.1 ng / ml to 1000 ng / ml, 1 ng / ml to 500 ng / ml, 5 ng / ml to 100 ng / ml (for example, 10 ng / ml).
- the concentration of IL-18 in the medium may be 0.1 ng / ml to 1000 ng / ml, 1 ng / ml to 500 ng / ml, 5 ng / ml to 100 ng / ml (for example).
- the concentration of IL-21 in the medium is 0.1 ng / ml to 1000 ng / ml, 1 ng / ml to 500 ng / ml, 5 ng / ml to 100 ng / ml. (For example, 20 ng / ml) may be used.
- the medium may further contain TNF family cytokines as cytokines.
- TNF family cytokines include TNF- ⁇ , TNF- ⁇ , phosphorus photoxin ⁇ , Fas ligand, TRAIL, TWEAK, TL1A, RANK ligand, OX40 ligand, APRIL, AITRL, BAFF, 4-1BBL and CD40 ligand.
- TL1A is preferred.
- the concentration in the medium can be 5 ng / ml to 500 ng / ml, preferably 10 ng / ml to 300 ng / ml, and 20 ng / ml to 200 ng / ml (for example). 50 ng / ml) is more preferable.
- an apoptosis inhibitor may be further contained in the medium.
- the apoptosis inhibitor include protease inhibitors, and examples thereof include caspase inhibitors.
- caspase inhibitor PanCaspaseFMK inhibitor Z-VAD (N-benzyloxycarbonyl-Val-Ala-Asp (O-Me) fluoromethylketone) (hereinafter, may be referred to as "Z-VAD-FMK".
- the concentration in the medium can be 1 ⁇ M to 1000 ⁇ M, 1 ⁇ M to 500 ⁇ M is preferable, 1 ⁇ M to 200 ⁇ M is more preferable, and 1 ⁇ M to 50 ⁇ M (for example, 10 ⁇ M) is preferable. Especially preferable.
- the obtained T cells may be isolated and used, or may be used as they are (that is, as a cell population in which other cell types can be contained).
- it can be isolated using at least one molecule selected from the group consisting of ⁇ TCR, ⁇ TCR and CD3 as an index, and the method of isolation may be a method well known to those skilled in the art. it can.
- a method of isolating by flow cytometry or magnetic cell isolation method using antibodies of ⁇ TCR, ⁇ TCR and CD3 (which are bound by magnetic beads or the like as necessary), affinity in which the desired antigen is immobilized examples thereof include, but are not limited to, a method of purifying using a column or the like.
- the proportion of T cells in the cell population may be increased by using a method well known to those skilled in the art.
- Methods for increasing the proportion of T cells in the cell population include, but are not limited to, methods such as Front. Immunol., 5: 636 (2014), Special Table 2017-537625, and Special Table 2003-529363.
- the expansion culture section may be provided with a basal medium, a culture container, and a sterile space, preferably also with a CD3 agonist, and is configured to be capable of expanding and culturing T cells.
- the apparatus, medium, etc. provided in the nucleic acid introduction unit are appropriately selected according to the characteristics of the apparatus, the method of expansion culture, and the like.
- the culture vessel provided in the expansion culture section and the CD30 agonist may be in the form in which CD30 is immobilized on the culture vessel.
- the expansion culture section includes a CD3 / TCR complex agonist, fibronectin or a variant thereof, an apoptosis inhibitor, a medium additive, a clean bench, an incubator, a bioreactor for cell culture, a microscope, a centrifuge, etc.
- Aspirators, pipettes, tubes, buffers eg acetate buffer, phosphate buffer, citrate buffer, citrate phosphate buffer, borate buffer, tartrate buffer, Tris buffer, phosphate buffer physiological saline Water, McIlvaine buffer, etc.
- suitable cytokines include, for example, IL-2, IL-7, IL-12, IL-15, IL-18, IL-21, TNF family cytokines and the like.
- basal medium Specific examples of the basal medium, medium additive, CD3 agonist, CD3 / TCR complex agonist, fibronectin or a variant thereof, and an apoptosis inhibitor provided in the expanded culture section are as described above.
- Specific examples of the culture vessel include 1-4. The same as those described in. T cell products are manufactured by filling the expanded T cells in an appropriate storage container (sterile vial, blood transfusion bag, etc.), labeling the container as necessary, and packaging the container. be able to.
- the provision system of the present invention may include a step of producing a frozen T cell product from the expanded T cells (hereinafter, also referred to as a “frozen T cell product production step”). ..
- the part configured to execute the frozen T cell product manufacturing step may be referred to as a “frozen T cell product manufacturing department”.
- the frozen T cell product manufacturing step is 1-2. It can be carried out in the same manner as in.
- the frozen T cell product manufacturing unit is provided with at least a cryopreservative, a cryopreservation container, and a freezer and / or a cryopreservation system (eg, a locator, etc.) to produce a frozen stock of expanded T cells.
- a cryopreservative e.g, a cryopreservation container
- a freezer and / or a cryopreservation system eg, a locator, etc.
- a cryopreservation system eg, a locator, etc.
- the frozen stock manufacturing department may, if necessary, use a low-temperature medium (eg, liquid nitrogen, etc.), pipette, tube, buffer (eg, acetate buffer, phosphate buffer, citrate buffer, phosphorus citrate).
- buffer eg, acetate buffer, phosphate buffer, citrate buffer, phosphorus citrate
- acid buffer eg, borate buffer, tartrate buffer, Tris buffer, phosphate buffer physiological
- cryopreservative and freezer provided in the frozen T cell product manufacturing department are as described above.
- cryopreservation container include cryovials (eg, glass ampoules, plastic tubes, etc.).
- T cell product collection construction step The provision system of the present invention is a step of collecting T cell products and constructing a T cell product collection containing two or more types of T cell products (hereinafter, also referred to as "T cell product collection construction step"). ) May be included.
- T cell product collection construction step the part configured to execute the T cell product collection construction step may be referred to as the "T cell product collection construction department”.
- the T cell products that make up the T cell product collection may be frozen T cell products, and are preferably frozen T cell products when stored for a long period of time from the viewpoint of T cell stability.
- the T cell product collection construction step can also be performed by a known method.
- two or more types of T cell products can be produced by the above method, labeled or the like so that the types of T cell products can be distinguished, and stored.
- Collection types can also be added by adding different types of T cell products to the constructed T cell product collection. From the viewpoint of ease of storage, it is preferable to store in the same space (eg, in the same freezer, in the same room, in the same building, in the same site, etc.), but it may be stored in a physically separated space. .. Any method may be used to distinguish the types of T cell products as long as the types can be distinguished, for example, when the container is labeled or stored in a separate freezer or cryopreservation system. , These freezers and cryopreservation systems can be labeled, or can be distinguished by using management software or the like.
- the T cell product collection construction unit can construct a T cell product collection including two or more types of T cell products by having at least the T cell products to be collected and collecting the T cell products constructed as described above. It may be configured as follows.
- the T cell product collection construction unit may be provided with one or more labels, a freezer, a cryopreservation system, management software, and the like, if necessary. Specific examples of the freezer are as described above.
- the providing system of the present invention is a step of identifying a tumor-specific antigen or a tumor-related antigen (hereinafter, also simply referred to as “antigen”) expressed in a subject's tumor (hereinafter, also referred to as “antigen identification step”). ) May be included.
- the part configured to execute the antigen identification step may be referred to as an “antigen identification unit”.
- the antigen identification step can also be performed by a known method.
- a biological sample such as a tumor tissue piece or a body fluid containing tumor cells (eg, blood, serum, plasma, etc.) is collected from a subject, and mRNA is extracted from the sample, and if necessary.
- cDNA is synthesized from the mRNA, and the nucleic acid is used to utilize a nucleic acid amplification method such as digital PCR (eg, ddPCR), RT-PCR, biochip (eg, microarray), RNAseq, and / or a nucleic acid detection method.
- digital PCR eg, ddPCR
- RT-PCR RT-PCR
- biochip eg, microarray
- RNAseq eq
- / or a nucleic acid detection method can be identified.
- PCR can be performed using, for example, a primer set capable of amplifying mRNA of a tumor-specific antigen or a tumor-related antigen, and a PCR device.
- a primer set capable of amplifying mRNA of a tumor-specific antigen or a tumor-related antigen
- PCR device When RNAseq is used, it can be performed using a next-generation sequencer.
- the antigen identification unit may be configured so as to be able to identify the tumor-specific antigen or tumor-related antigen expressed in the subject's tumor.
- the antigen identification unit includes at least the primer set and the PCR device, at least the biochip, or at least the next-generation sequencer.
- the next-generation sequencers include Illumina equipment (eg MiSeq, HiSeq2500), Thermo Fisher Scientific equipment (eg Ion Proton, Ion PGM), and Roche Diagnostics. Equipment manufactured by (eg, GS FLX +, GS Junior), etc. can be mentioned, but the equipment is not limited to these equipment.
- the providing system of the present invention may include a subject information acquisition step and / or a step of selecting a T cell product suitable for the subject.
- the part configured to execute the subject information acquisition step may be referred to as a "subject information acquisition unit".
- the subject information is not particularly limited, and for example, the subject's genetic information (for example, HLA gene-related information, abnormal gene information, etc.), diagnosis result, history, drug administration history, age, gender, blood type, height, etc. Examples include body weight, and if the subject has a tumor, information about the tumor-specific antigen or tumor-related antigen expressed in the tumor.
- a step of selecting a T cell product expressing CAR or exogenous TCR that recognizes and binds to an antigen identified from subject information from a T cell product collection that includes T cell products may also include a "T cell product selection step”).
- the part configured to execute the T cell product selection step may be referred to as a “T cell product selection unit”.
- the T cell product in the T cell product selection step may be a frozen T cell product, and is preferably a frozen T cell product from the viewpoint of T cell stability.
- the step of selecting a T cell product expressing CAR or exogenous TCR that recognizes and binds to the identified antigen from the T cell product collection, including the T cell product is suitable for the subject based on the acquired subject information. It is conceptually included in the step of selecting a T cell product.
- the subject information acquisition unit may include an antigen identification unit.
- the T cell product selection step expresses the appropriate CAR, exogenous TCR, cytokines, chemokines, etc., based on, for example, the content of the T cell product production plan provided.
- a T cell cell bank containing T cells can be selected.
- the T cell product selection step can be performed by a known method.
- This can be done by selecting a T cell product containing the above from a list of T cell products prepared in advance.
- multiple types of tumor-specific antigens or tumor-related antigens are expressed by the antigen identification step, based on the evaluation criteria such as the one with the highest expression level or the one with the highest expected effect from the T cell product.
- T cell products containing T cells can be selected. Only one type of T cell product may be selected, or two or more types may be selected. These steps may use software designed for the T cell product selection described above.
- T cell products can be selected according to instructions (prescription, etc.) from a doctor or medical institution.
- the T cell product selection unit includes at least materials showing the identification results of the antigen identification step, and provides T cell products that express CAR or exogenous TCR that recognizes and binds to the identified antigen. It may be configured to be selectable from a collection of T cell products containing. Further, the T cell product selection unit may include one or more types of T cell product list, software designed for the above T cell product selection, and the like, if necessary.
- T cell related information includes a manufacturing record, a characteristic analysis result, a quality evaluation result, a storage temperature control record, a manufacturing plan, and the like related to the T cell.
- T cell is an iPS cell-derived T cell, it includes production records, characteristic analysis results, quality evaluation results, storage temperature records, specific genetic information, and the like related to the iPS cells.
- the T cell is a T cell into which a nucleic acid encoding an exogenous gene has been introduced, information on the exogenous gene (for example, the type of protein and cytokine encoded by the exogenous gene, etc.) Etc. are included.
- the T cell cell bank and the T cell product selection unit the T cell cell bank and the T cell product can be selected, respectively, based on the contents of the production plan of the T cell product to be provided.
- appropriate T cell cell banks and T cell products may be selected based on the subject information acquired by the subject information acquisition unit, respectively. Therefore, the T cell cell bank selection unit and the T cell product selection unit can be used even when there is only one type of T cell cell bank and / or T cell product.
- the T cell product delivery system 100 prepares T cells from the T cell cell bank 102 to provide the T cell product 131.
- the T cell cell bank 102 may be constructed by the T cell cell bank construction unit 101.
- the T cell cell bank collection construction unit 111 When two or more types of T cell cell banks are constructed, they may be collected by the T cell cell bank collection construction unit 111 to construct the T cell cell bank collection 112.
- the prepared T cells may be introduced with a desired exogenous gene in the nucleic acid introduction unit 103, if necessary.
- the T cells may be expanded and cultured in the expansion culture unit 104, if necessary. Further, the T cells may be frozen in the frozen T cell product manufacturing unit 105 to form a frozen T cell product 106, if necessary. When two or more kinds of frozen T cell products are produced, they may be collected by the T cell product collection construction unit 121 to construct the T cell product collection 122. Further, in the T cell cell bank selection unit 154 and the T cell product selection unit 155, an appropriate T cell cell bank and T cell product can be selected as the T cell product 131 to be provided, respectively, based on the T cell-related information 171.
- T cell-related information is managed by the T cell cell bank construction unit 101, the T cell cell bank collection construction unit 111, the T cell cell bank selection unit 154, the T cell product collection construction unit 121, and the T cell product selection unit 155.
- the subject information 151 is acquired by the subject information acquisition unit 152, and is appropriate by the T cell product selection unit 155 based on the subject information.
- T cell product 131 can be selected.
- the T cell product 131 is the same as the T cell product 106 when there is one type of T cell product, and one or more of the T cell product collection 122 when selected from the T cell product collection 122. It may be a type of T cell product.
- the subject information acquisition unit may include an antigen identification unit 153.
- An appropriate T cell cell bank 161 may be selected by the T cell cell bank selection unit 154 based on the information acquired by the subject information acquisition unit 152.
- the T cell cell bank 161 is the same as the T cell cell bank 102 when there is one type of T cell cell bank, and when selected from the T cell cell bank collection 112, the T cell cell bank 161 is one type or a plurality of types included in the T cell cell bank collection 112. It may be a type of T cell cell bank.
- T cells can be prepared from the T cell cell bank 161 and the T cell product can be provided in the same manner as described above.
- FIG. 17 is a diagram showing an example of a hardware configuration that can be included in the T cell product selection unit 200.
- the T cell product selection unit 200 includes a processor 201, a memory 202, an auxiliary storage device 203, an I / F (Interface) device 204, a communication device 205, and a drive device 206.
- the hardware of the T cell product selection unit 200 is connected to each other via the bus 207.
- the processor 201 has various arithmetic devices such as a CPU (Central Processing Unit) and a GPU (Graphics Processing Unit).
- the processor 201 reads and executes programs such as various software installed in the auxiliary storage device 203 on the memory 202.
- the memory 202 has a main storage device such as a ROM (Read Only Memory) and a RAM (Random Access Memory).
- the processor 201 and the memory 202 form a so-called computer, and the processor 201 realizes various functions by executing programs such as various software read on the memory 202.
- the auxiliary storage device 203 stores programs such as various software, various information (for example, T cell-related information, subject information, etc.) and data used when the programs such as various software are executed by the processor 201.
- the I / F device 204 is a connection device that connects the operation device 210 and the display device 211 to the T cell product selection unit 200.
- the I / F device 204 receives various instructions to the T cell product selection unit 200 via the operating device 210. Further, the I / F device 204 outputs the processing result by the T cell product selection unit 200 via the display device 211.
- the communication device 205 is a communication device for communicating with another device via a network.
- the drive device 206 is a device for setting the recording medium 212.
- the recording medium 212 referred to here includes a medium such as a CD-ROM, a flexible disk, a magneto-optical disk, or the like that optically, electrically, or magnetically records information. Further, the recording medium 212 may include a semiconductor memory or the like for electrically recording information such as a ROM or a flash memory.
- the programs such as various software installed in the auxiliary storage device 203 for example, the distributed recording medium 212 is set in the drive device 206, and the programs such as various software recorded in the recording medium 212 are the drive device 206. It is installed by being read by. Alternatively, programs such as various software installed in the auxiliary storage device 203 may be installed by being downloaded from the network via the communication device 205.
- T cell products Since the T cell products provided by the provision system of the present invention can exhibit cytotoxic activity against cancer cells, cancer stem cells, tumor cells, etc., for example, prevention of cancer or tumor or It can be used for treatment and can be administered to a subject.
- the subject means a mammal (eg, mouse, rat, hamster, rabbit, cat, dog, cow, sheep, monkey, human) to which a T cell product is administered in a clinical trial or the like, but is preferable.
- the subject is a human.
- liver cancer eg, hepatocellular carcinoma
- ovarian cancer eg, clear cell adenocarcinoma of the ovary
- lung cancer eg, squamous cell carcinoma, small cell lung cancer
- testicular cancer eg, non-cancer
- Seminoma embryonic cell tumor soft tumor (eg liposarcoma, malignant fibrous histiocytoma), uterine cancer (eg cervical intraepithelial tumor, cervical squamous epithelial cancer), melanoma, adrenal tumor (eg adrenal) Adenomas), neurogenic tumors (eg Schwan's tumor), gastric cancer (eg gastric adenocarcinoma), kidney cancer (eg Grawitz tumor), breast cancer (eg invasive lobular cancer, mucinous cancer), thyroid cancer (Example: medullary cancer), laryngeal cancer (eg, squamous epithelial cancer), bladder cancer (eg, invasive transition epithelial cancer), etc., but are not limited thereto.
- medullary cancer laryngeal cancer
- squamous epithelial cancer eg, invasive transition epithelial cancer
- bladder cancer eg, invasive transition epithelial cancer
- the T cells contained in the T cell product may be cultured and / or stimulated using a suitable medium and / or stimulating molecule before administration to the subject.
- the stimulating molecule include, but are not limited to, cytokines, suitable proteins, and other components.
- cytokines include IL-2, IL-7, IL-12, IL-15, IFN- ⁇ and the like, and IL-2 can be preferably used.
- the concentration of IL-2 in the medium is not particularly limited, but is preferably 0.01 to 1 ⁇ 10 5 U / mL, and more preferably 1 to 1 ⁇ 10 4 U / mL.
- suitable proteins include CD3 ligand, CD28 ligand, anti-CD3 antibody, anti-CD30 antibody, and anti-IL-4 antibody.
- a lymphocyte stimulating factor such as a lectin can be added.
- serum or plasma may be added to the medium.
- the amount added to these media is not particularly limited, but 0% by volume to 20% by volume is exemplified, and the amount of serum or plasma used can be changed according to the culture stage. For example, serum or plasma concentration can be gradually reduced before use.
- the serum or plasma may be derived from either self or non-self, but from the viewpoint of safety, self-derived one is preferable.
- the T cells are preferably administered parenterally to the subject for use.
- Parenteral administration methods include methods such as intravenous, intraarterial, intramuscular, intraperitoneal, and subcutaneous administration.
- the dose is appropriately selected according to the condition, body weight, age, etc. of the subject, but the number of cells is usually 1 ⁇ 10 6 to 1 ⁇ 10 10 per administration for a subject having a body weight of 60 kg.
- it is preferably administered in an amount of 1 ⁇ 10 7 to 1 ⁇ 10 9 and more preferably 5 ⁇ 10 7 to 5 ⁇ 10 8.
- it may be administered once or may be administered multiple times.
- Method for constructing T cell master cell bank and / or T cell working cell bank The present invention also provides a method for constructing the above-mentioned T cell master cell bank and / or T cell working cell bank (hereinafter, "method for constructing a cell bank of the present invention"). It may be called.).
- the cell bank construction method of the present invention uses (I) artificial pluripotent stem cells lacking the CAR gene as T for CAR-T therapy. It includes a step of differentiating into cells, (II) a step of stocking the differentiated T cells, and (III) a step of analyzing the characteristics of the differentiated T cells.
- the cell bank construction method of the present invention treats induced pluripotent stem cells that do not have the exogenous TCR gene with TCR-T therapy. It includes a step of differentiating into T cells for use, (iii) a step of stocking the differentiated T cells, and (iii) a step of analyzing the characteristics of the differentiated T cells.
- the steps (ii) and (iii) are usually performed in this order, but the step (iii) may be performed after the step (iii).
- Each of the above steps may be performed by the same entity or by different entities.
- the T cell master cell bank and / or the T cell working cell bank (hereinafter, may be referred to as "T cell cell bank of the present invention") constructed by the cell bank construction method of the present invention. provide.
- step (I) Induction of differentiation of induced pluripotent stem cells that do not have the CAR gene or exogenous TCR gene into T cells 2.
- steps (I) and (i) of the above 1-1 It can be carried out by the method described in steps (1) and (2) of.
- the term "for CAR-T therapy" in step (I) means a therapeutic or prophylactic use by CAR expressed on T cells, and the treatment or prevention is performed by exogenous TCR expressed on T cells and endogenous TCR.
- the T cells have other purposes than therapeutic or prophylactic purposes, such as 1-1. It may contain an exogenous TCR gene introduced for the purpose of suppressing the expression of the endogenous TCR gene and for the purpose of efficiently producing uniform T cells as described in the above.
- TCR-T therapy in step (i) means therapeutic or prophylactic use with T cell-expressed exogenous TCR, treated or treated with T cell-expressed CAR and endogenous TCR.
- Prophylaxis is excluded, but the T cells may have other purposes that are not therapeutic or prophylactic, such as 1-1. It may contain an exogenous TCR gene or the like introduced for the purpose of suppressing the expression of the endogenous TCR gene as described in the above.
- T cells For the explanation of CAR and TCR in the above steps (I) and (i), specific examples of antigens targeted by TCR and CAR, definitions of each term such as T cells, etc. And 1-1. As described in. Specific examples of T cells obtained by inducing differentiation in the above step are described in 1. above. As described in. Such T cells are preferably cytotoxic T cells, more preferably CD8 ⁇ -positive cytotoxic T cells that express CD8 ⁇ .
- the induced pluripotent stem cells used in the T cell cell bank of the present invention refer to the above 1-1. It can be established by the method described in. In addition, the induced pluripotent stem cells or the above 2.
- the T cells used in steps (II) and (ii) of the above 1-1 Similar to the cells described in the above, those in which the expression of at least one HLA gene is suppressed are preferable. Specific HLA genes and combinations, definitions of suppression of expression of the genes, suppression methods, etc. are described in 1-1. As described in.
- T cells Characteristic analysis of T cells Above 2.
- the test items of the characteristic analysis in steps (III) and (iii) of the above will vary depending on the biological properties (eg, auxotrophy), culture history and test feasibility of the cells to be cell banked, but those skilled in the art will be skilled in the art. It is set as appropriate by the person skilled in the art or based on the content of discussions between the person skilled in the art and the regulatory authority. Information on how to construct them and the results of characteristic analysis and quality evaluation will be presented to the pharmaceutical authorities in the manufacturing and marketing approval applications of each country.
- the characteristic analysis of T cell cell banks mainly evaluates the absence of contamination with exogenous infectious agents. In particular, contamination with foreign viruses can lead to serious consequences in clinical use and should be thoroughly evaluated according to ICH Q5A (R1).
- Test items for quality evaluation include confirmation tests using appropriate cell phenotypes as T cells, purity tests, manufacturing process-derived impurity tests, and content tests such as cell number and cell viability.
- T cell cell bank collection construction step for constructing a collection and / or a T cell working cell bank collection (hereinafter, also referred to as “T cell cell bank collection”).
- T cell cell bank collection construction unit a part configured to execute the T cell cell bank collection construction step.
- T cell cell banks When there is a possibility that there is a shortage of T cell cell banks to provide one or more T cell products, or it is appropriate to use T cell products from different types of T cell cell banks depending on the characteristics of the administration subject. If possible, a separately constructed T cell cell bank can be added to the existing T cell cell bank. By collecting a plurality of T cell cell banks and constructing a T cell cell bank collection in this way, it is possible to provide a more stable and robust T cell product providing system.
- the T cell cellbank collection construction step can also be performed by a known method.
- a method for example, two or more types of T cell cell banks are produced by the above-mentioned cell bank construction method of the present invention, labeled or the like so that the types of T cell cell banks can be distinguished, and stored. can do.
- a collection type can also be added by adding a different type of T cell cellbank to the constructed T cell cellbank collection. From the viewpoint of ease of storage, it is preferable to store in the same space (eg, in the same freezer, in the same room, in the same building, in the same site, etc.), but it may be stored in a physically separated space. .. Any method may be used to distinguish the types of T cell cell banks as long as the types can be distinguished. For example, when the cryopreservation container is labeled or stored in a separate freezer or cryopreservation system. These can be labeled with a freezer or cryopreservation system, or can be distinguished by using management software or the like.
- the T cell cell bank collection construction unit can construct a T cell cell bank collection including two or more types of T cell cell banks by including at least the T cell cell banks to be collected and collecting the T cell cell banks constructed as described above. It suffices as long as it is configured as such.
- the T cell cell bank collection construction unit may be provided with one or more labels, a freezer, a cryopreservation system, management software, and the like, if necessary. Specific examples of the freezer are as described above.
- the construction of the T cell cellbank collection may be performed by the same subject as the subject who constructs the T cell cellbank, or may be performed by a different subject.
- the T cell cellbank collection can include T cell cellbanks constructed by different actors.
- T cell cell bank selection step a T cell cell bank for producing a T cell product to be provided from a T cell cell bank collection including a T cell cell bank (hereinafter, "T cell cell bank selection step"). Also called.) May be included.
- T cell cell bank selection unit a portion configured to execute the T cell cell bank selection step may be referred to as a “T cell cell bank selection unit”.
- the T cell cellbank selection step can be performed by a known method. As such a method, for example, a T cell cell bank containing T cells expressing an appropriate T cell receptor can be selected based on the contents described in the production plan of the T cell product to be provided.
- the providing system of the present invention may include a step of acquiring subject information (hereinafter, also referred to as “subject information acquisition step”) and / or a step of selecting a T cell cell bank suitable for the subject.
- subject information acquisition step a part configured to execute a step of acquiring subject information
- a part configured to execute a step of acquiring subject information may be referred to as a “subject information acquisition unit”.
- the subject information is not particularly limited, and for example, the subject's genetic information (for example, HLA gene-related information, abnormal gene information, etc.), diagnosis result, history, drug administration history, age, gender, blood type, height, etc. Examples include body weight, and if the subject has a tumor, information about the tumor-specific antigen or tumor-related antigen expressed in the tumor.
- the present invention provides a method for producing a T cell product (hereinafter, may be referred to as "a method for producing a T cell product of the present invention”).
- the methods are (A) a step of preparing T cells from the T cell cell bank of the present invention, (B) a step of introducing a CAR gene or an exogenous TCR gene into the prepared T cells, and (C) the step of introducing the CAR gene.
- it includes a step of expanding and culturing T cells into which an exogenous TCR gene has been introduced.
- the method for producing a T cell product of the present invention may further include (D) a step of freezing the expanded T cells.
- a T cell product produced by the method for producing a T cell product of the present invention (hereinafter, may be referred to as "T cell product of the present invention") is also provided.
- T cell product of the present invention is also provided.
- Step (B) of the above 3-1 Using the T cells prepared by the method described in 1-4 above. It can be carried out by the method described in. Further, it is preferable that the T cells used in the step (B) express IL-15 / IL-15R ⁇ .
- the types of nucleic acids, explanations of CAR, TCR and IL-15 / IL-15R ⁇ , definitions of each term, specific examples of antigens targeted by TCR and CAR, etc. are described in 1-1.
- the T cells used in the method for producing the frozen stock of the present invention, or the T cells contained in the T cell frozen stock of the present invention have the CAR or the exogenous TCR as described in 1-1. It may be characterized by recognizing and binding to a tumor-specific or tumor-related antigen.
- Step (C) of the above 3-2 Using T cells into which nucleic acid has been introduced by the method described in 1-5 above. It can be carried out by the method described in.
- the method of expansion culture, specific examples of the compound used for expansion culture, the concentration of the compound in the medium, the definition of each term, etc. are described in 1-5 above.
- the frozen stock production process of the present invention may include culturing the T cells in the presence of a CD30 agonist.
- Step (D) of the above 3-3 Using the T cells expanded and cultured by the method described in 1-2 above. It can be carried out by the method described in.
- the present invention refers to a method for constructing a T cell product collection containing two or more types of T cell products (hereinafter, referred to as "method for constructing a T cell product collection of the present invention").
- the method may include the step of collecting the T cell product of the present invention.
- a T cell product collection constructed by the method for constructing a T cell product collection of the present invention (hereinafter, may be referred to as "T cell product collection of the present invention") is also provided.
- the T cell products constituting the T cell product collection of the present invention may be frozen T cell products, and are preferably frozen T cell products from the viewpoint of T cell stability.
- the step of collecting the T cell product of the present invention is as described in 1-7 above using the T cell product of the present invention. It can be carried out by the method described in.
- the T cell products included in the T cell product collection may be manufactured by the same entity as the entity that constructs the T cell product collection, or may be manufactured by a different entity. Therefore, the T cell product collection may include T cell products manufactured by different entities.
- Method for Producing T Cell Product also provides a method for producing a T cell product (hereinafter, may be referred to as "method for producing a T cell product of the present invention"), wherein the method includes a T cell master cell bank and a T cell master cell bank. / Or may include the step of constructing a T cell working cell bank.
- T cells, T cell products, master cell banks, working cell banks, etc. are described in 1-1.
- the pluripotent stem cells, T cells, T cell products, master cell banks and working cell banks are described in, for example, 1. And 2. It can be manufactured and constructed by the method described in.
- the method for producing a T cell product of the present invention is as follows: (a) a step of differentiating pluripotent stem cells into T cells, (b) a step of stocking the differentiated T cells, and (c) the differentiated T cells.
- T cells used in the method for producing the T cell product of the present invention can be T cells in which the expression of at least one HLA gene is suppressed.
- Specific HLA genes and combinations, definitions of suppression of expression of the genes, suppression methods, etc. are described in 1-1. As described in. Each of the above steps may be performed by the same entity or by different entities.
- step (a) of the above 1-1 Using the pluripotent stem cells described in the above 1-1. It can be carried out by the method described in steps (1) and (2) of.
- the pluripotent stem cells are preferably artificial pluripotent stem cells, and more preferably human induced pluripotent stem cells.
- the method for constructing a cell bank of the present invention and the induced pluripotent stem cells used in the T cell cell bank of the present invention are described in the above 1-1. It can be established by the method described in. 5. Above. In the step (b) of the above 1-1. And 1-2. It can be carried out by the method described in. 5. Above. In the step (c) of the above 2-2. It can be carried out by the method described in. In the step (d), the cell stock produced in the step (c) is used, and the above 1-3. It can be carried out by the method described in.
- the prepared T cells the above 1-4. It can be carried out by the method described in. Further, it is preferable that the T cells used in the step (e) express IL-15 / IL-15R ⁇ .
- the types of nucleic acids, explanations of CAR, TCR and IL-15 / IL-15R ⁇ , definitions of each term, specific examples of antigens targeted by TCR and CAR, etc. are described in 1-1. As described in.
- the T cells used in the method for producing the frozen stock of the present invention have the CAR or the exogenous TCR as described in 1-1. It may be characterized by recognizing and binding to a tumor-specific or tumor-related antigen.
- the process for producing a T cell product of the present invention may include stimulating the T cells by culturing the T cells in the presence of a CD30 agonist.
- the present invention provides a method for providing a T cell product suitable for a subject (hereinafter, may be referred to as “method for providing the present invention”).
- method for providing the present invention In order to provide a suitable T cell product for a subject, the subject's information can be obtained and the appropriate T cell cell bank and / or suitable T cell product can be selected based on the information. Therefore, the method of providing the present invention is (p) a step of acquiring subject information, and (q) a step of selecting an appropriate T cell cell bank and / or an appropriate T cell product based on the acquired subject information. including. Using the selected T cell cellbank, the above 5.
- a T cell product can be produced and provided to a subject by subject to the steps (e) and / or step (f) in. Further, in the method of providing the present invention, when a subject has a tumor, information on a tumor-specific antigen or a tumor-related antigen expressed in the tumor is obtained, and an appropriate T cell product is selected based on the information. Can be done. Therefore, the methods provided by the present invention are (x) a step of identifying a tumor-specific or tumor-related antigen expressed in a subject's tumor, and (y) a CAR or extrinsic factor that recognizes and binds to the identified antigen. Including the step of selecting a T cell product expressing sex TCR from the T cell product collection of the present invention.
- (X) A step of identifying a tumor-specific or tumor-related antigen expressed in a subject's tumor, and (y) a T cell product expressing CAR or exogenous TCR that recognizes and binds to the identified antigen.
- the step of selecting from the T cell product collection of the present invention is conceptualized as (p) a step of acquiring subject information and (q) a step of selecting an appropriate T cell product based on the acquired subject information. Included above. The types and definitions of terms such as T cells, T cell products, and subjects are described in 1-1. ⁇ 1-10. As described in. Each of the above steps may be performed by the same entity or by different entities.
- step (x) of the above 1-8 using a biological sample derived from the subject. It can be carried out by the method described in. Specific examples of the biological sample derived from the subject are described in 1-8. As described in.
- Step (y) of the above 1-9 It can be carried out by the method described in.
- CAR and TCR specific examples of tumor-specific antigens and tumor-related antigens, specific examples of evaluation criteria, etc., see 1-1. , 1-9.
- evaluation criteria etc.
- cancers and tumors prevented or treated by the T cell products provided by the provision method of the present invention are described in 1-10.
- the method of culturing and / or stimulating T cells contained in the T cell product, the administration route, the dose, the type of subject, and the like are also described in 1-1-10. As described in.
- Example 1 1. Preparation of iPS cells
- iPS cells Ff-I01s04 strain: derived from healthy human peripheral blood mononuclear cells
- CiRA Center for iPS Cell Research and Application
- the iPS cell culture was performed according to the protocol "Feeder-free culture of human iPS cells" distributed by CiRA.
- T cell receptor (TCR) gene into iPS cells 2-1.
- the gene (WT1-TCR) was introduced into iPS cells.
- Gene transfer into iPS cells was performed by incorporating into the CS-UbC-RfA-IRES2-hKO1 lentiviral vector donated by RIKEN and infecting iPS cells.
- iPS cells into which the WT1-TCR gene has been introduced may be referred to as "WT1 ⁇ -iPSC".
- V ⁇ 9V ⁇ 2-TCR G115 is an artificially synthesized oligo DNA encoding a polypeptide (SEQ ID NO: 1) designed to be arranged in the order shown in Table 1 from the N-terminal.
- the sequence encoding the neomycin resistance gene was removed from pLVSIN-CMV Neo (Clontech) to prepare a lentiviral vector using pLVSIN-Ub in which the CMV promoter was replaced with the human ubiquitin promoter.
- the artificial oligo DNA encoding V ⁇ 9V ⁇ 2 TCR G115 synthesized above was incorporated into the multicloning site of the pLVSIN-Ub lentiviral vector.
- a lentiviral vector was prepared using this plasmid and the Lenti-X TM 293T cell line from Clontech and the Lenti-X TM Packaging Single Shots (VSV-G). The prepared lentiviral vector was used in 1. of [Example 1].
- V ⁇ 9V ⁇ 2-TCR gene was introduced into iPS cells by infecting the iPS cells prepared in.
- iPS cells into which the V ⁇ 9V ⁇ 2TCR G115 gene has been introduced may be referred to as “V ⁇ 9V ⁇ 2-iPSC”.
- Example 2 1. Differentiation of iPS cells into hematopoietic progenitor cells (HPC) Differentiation of iPS cells into hematopoietic progenitor cells (HPC) is performed by known methods (for example, in Cell Reports 2 (2012) 1722-1735 and WO 2017/22 1975. A floating cell population differentiated according to the described method) was used. Specifically, 1. , 2-1 of [Example 1]. And 2-2 of [Example 1].
- HPC hematopoietic progenitor cells
- EB medium 10 ⁇ g / ml human insulin on StemPro34.
- 10 ng / ml BMP4 to 5.5 ⁇ g / ml human transferase, 5 ng / ml sodium selenate, 2 mM L-glutamine, 45 mM ⁇ -monothioglycerol, and 50 ⁇ g / ml Ascorbic acid 2-phosphate.
- 50 ng / ml bFGF, 15 ng / ml VEGF, and 2 ⁇ M SB431542 were added, and the cells were cultured under low oxygen conditions (5% O 2 ) for 5 days. Subsequently, 50 ng / ml SCF, 30 ng / ml TPO, and 10 ng / ml Flt3L were added, and the cells were further cultured for 5 to 9 days to obtain a floating cell population. During the culture period, the medium was changed every 2 or 3 days. The floating cell population containing HPC was stained with the antibody set in Table 2. The stained cell population was subjected to sorting by FACSAria.
- V ⁇ 9V ⁇ 2-TCR gene into HPC
- a gene (V ⁇ 9V ⁇ 2 TCR G115) in which the TRG gene encoding the V ⁇ 9V ⁇ 2 T cell receptor derived from the G115 ⁇ T cell clone and the TRD gene were linked by a P2A sequence was introduced into the cell fraction obtained in. The gene transfer is performed in 2-2 of [Example 1]. It was carried out by the same method as.
- the HPC in which the V ⁇ 9V ⁇ 2 TCR G115 gene is introduced into the HPC may be referred to as “V ⁇ 9V ⁇ 2-iHPC”.
- Example 3 1. Differentiation of HPC into T cells
- Example 2 1. The cell fractionation obtained in (Example 2) and 2. Differentiate the V ⁇ 9V ⁇ 2-iHPC obtained in the above into lymphocytic cells according to a known method (for example, the method described in Journal of Leukocyte Biology 96 (2016) 1165-1175 and International Publication No. 2017/22 1975). I let you.
- the hematopoietic progenitor cell population was seeded at 2000 cells / well on a 48-well-plate coated with Recombinant h-DLL4 / Fc chimera (SinoBiological) and Retronectin (Takara Bio) at 2000 cells / well, and 5
- the cells were cultured under the conditions of% CO 2 and 37 ° C. Medium was changed every 2 or 3 days during the culture period.
- the medium contained 15% FBS, 2 mM L-glutamine, 100 U / ml penicillin, 100 ng / ml streptomycin, 55 ⁇ 2-mercaptoethanol, 50 ⁇ g / ml Ascorbic acid 2-phosphate, 10 ⁇ g / ml human.
- Insulin 5.5 ⁇ g / ml human transferase, 5 ng / ml sodium selenate, 50 ng / ml SCF, 50 ng / ml IL-7, 50 ng / ml Flt3L, 100 ng / ml TPO, 15 ⁇ M SB203580, 30 ng / An ⁇ MEM medium supplemented with ml SDF-1 ⁇ was used. Subcultures were performed on 48-well-plates with similar coatings on days 7 and 14 from the start of culturing. All cells were collected on the 21st day after the start of culture, and the presence of CD45 (+) and CD3 (+) fractions was confirmed by a flow cytometer.
- the obtained cells were seeded on a 24-well-plate and cultured under 5% CO 2 , 37 ° C. conditions.
- As the medium 15% FBS and 2 mM L-glutamine, 100 U / ml penicillin, 100 ng / ml streptomycin, 50 ng / ml Ascorbic acid 2-phosphate, 10 ⁇ g / ml human insulin, 5.5 ⁇ g / ml sodium lanceferin.
- T cells differentiated from the iPS cells obtained in the above were referred to as "i ⁇ TC", 2-1 of [Example 1].
- T cells differentiated from V ⁇ 9V ⁇ 2-iHPC obtained in 1) are sometimes referred to as "V ⁇ 9V ⁇ 2-iHTC”.
- i ⁇ TC was stained with the antibody set in Table 3 (FIGS. 3 and 4).
- V ⁇ 9V ⁇ 2-iTC Fig. 5
- V ⁇ 9V ⁇ 2-iHTC Fig. 6
- the expression of CD3, V ⁇ TCR, TCR-V ⁇ 1 chain and TCR-V ⁇ 2 chain on the cell membrane surface was measured with a flow cytometer.
- Example 4 Expanded culture of T cells 1. Expanded culture of i ⁇ TC 1-1. The i ⁇ TC obtained in expanded culture [Example 3] was suspended at 2,000,000 cells / mL in an ⁇ -MEM medium containing 15% FBS and the cytokines shown in Table 4 added, and anti-CD3 antibody (UCHT1) and retronectin were added. were seeded to the immobilized plates were incubated under 5% CO 2/37 °C 3 days. On the 3rd day of culture, cells were collected from the plate, the number of cells was counted using NucleoCounter® NC-200 (ChemoMetec), and the cytokines shown in Table 5 were added to ⁇ -MEM medium containing 15% FBS.
- NucleoCounter® NC-200 ChemoMetec
- Anti-CD3 antibody (UCHT1, final concentration 3000 ng / mL) and retronectin (final concentration 150 ⁇ g / mL) dissolved in PBS at the required concentrations were added to the plate and then allowed to stand overnight at 4 ° C.
- i ⁇ TC can be expanded and cultured at least 10 to 11 times or more, and can be used as T cells constituting the T cell master cell bank and / or the T cell working cell bank.
- V ⁇ 9V ⁇ 2-iTC 2-1 The V ⁇ 9V ⁇ 2-iTC obtained in the expanded culture [Example 3] was suspended at 2,000,000 cells / mL in an ⁇ -MEM medium containing 15% FBS and the cytokines shown in Table 6 were added, and used as an anti-CD3 antibody (OKT3). were seeded on a plate RetroNectin is immobilized, and incubated under 5% CO 2/37 °C 3 days. On the 3rd day of culture, cells were collected from the plate, the number of cells was counted using NucleoCounter® NC-200 (ChemoMetec), and the cytokines shown in Table 5 were added to ⁇ -MEM medium containing 15% FBS.
- FIG. 8 shows the proliferation rate of the number of cells of V ⁇ 9V ⁇ 2-iTC when the above was repeated 5 times.
- V ⁇ 9V ⁇ 2-iTC can be expanded and cultured at least 10 to 12 times or more, and can be used as T cells constituting the T cell master cell bank and / or the T cell working cell bank.
- Anti-CD3 antibody (OKT3, final concentration 3000 ng / mL) and retronectin (final concentration 150 ⁇ g / mL) dissolved in PBS at the required concentrations were added to the plate and then allowed to stand overnight at 4 ° C.
- iWT1 ⁇ TC Proliferation rate 3-1.
- the proliferation rate of the number of cells of iWT1 ⁇ TC when the expansion culture of iWT1 ⁇ TC was repeated 4 times is shown in FIG.
- iWT1 ⁇ TC is possible to culture expanded to at least 10 10 times or more, it can be used as T cells that constitute the T cell master cell bank and / or T cell working cell bank.
- Example 5 Construction of T cell master cell bank
- the T cell culture solution obtained in [Example 4] was replaced with a cryopreservation solution (CryoStor CS10) containing a cryoprotectant, and a plurality of storage containers (sterile vials (polymer vials (polymer vials)) were used. Dispense into AT-closed vial))).
- the T cells are frozen by allowing the container containing the T cells to stand in a freezer.
- a program freezer, CryoMed (Thermo Fisher) is used. By stocking this, a frozen T cell master cell bank is constructed.
- T cell working cell bank [Example 5] 1. Collect a container containing T cells from the frozen T cell master cell bank. The container is immersed in a water bath at about 37 ° C. for about 15 seconds to thaw the T cells. The T cells obtained by melting and suspended in an appropriate amount in medium supplemented with cytokines in Table 5, was added to 6-well plate, and cultured under 5% CO 2/37 °C. After culturing for 1 to 3 days, T cells are expanded and cultured by the method of [Example 4], then frozen and stocked in the same manner as described above to construct a T cell working cell bank.
- Example 5 2. Take a container from the T cell master cell bank and / or the T cell working cell bank in the same manner as above and thaw the T cells. The obtained T cells are subjected to characteristic analysis and quality evaluation.
- T cell cell bank collection is constructed by collecting the master cell banks of multiple types of T cells obtained in the above, labeling them so that the types of T cell master cell banks can be distinguished, and storing them.
- Example 6 1. Preparation of T cells [Example 5] 2. A container was taken from the T cell master cell bank and / or the T cell working cell bank in the same manner as above, and the T cells were thawed. The T cells obtained by melting and suspended in an appropriate amount in medium supplemented with cytokines in Table 5, was added to 6-well plates and cultured under 5% CO 2/37 °C. After culturing for 1 to 3 days, the cells were suspended at 2,000,000 cells / mL in ⁇ -MEM medium containing 15% FBS supplemented with the cytokines shown in Table 4 or Table 6, and anti-CD3 antibody (UCHT1 or OKT3) and retronectin were added.
- cytokines shown in Table 4 or Table 6
- the artificial oligo DNA synthesized above was incorporated into the multi-cloning site of the pMEI-5 retroviral vector.
- the virus vector production was outsourced to Unitech.
- the prepared retroviral vector carrying the gene encoding anti-CD19-CAR may be infected with the iWT1 ⁇ TC prepared in [Example 3] to form iPS cell-derived anti-CD19-CART cells (hereinafter referred to as “CD19iWT1 ⁇ CARTC”). .) was prepared.
- anti-BCMA-CAR gene As a gene encoding anti-BCMA-CAR, oligo DNA encoding a polypeptide (SEQ ID NO: 3) designed to be arranged in the order shown in Table 8 from the N-terminal was artificially synthesized.
- the artificial oligo DNA synthesized above was incorporated into the multi-cloning site of the pMEI-5 retroviral vector.
- the virus vector production was outsourced to Unitech.
- the prepared retroviral vector carrying the gene encoding the anti-BCMA-CAR may be infected with the iWT1 ⁇ TC prepared in [Example 3] to be referred to as iPS cell-derived anti-BCMA-CART cells (hereinafter, “BMCA iWT1 ⁇ CARTC”). .) was prepared.
- anti-CD19-CAR gene containing intracellular domain derived from CD30 As an anti-CD19-CAR gene containing intracellular domain derived from CD30, a polypeptide (SEQ ID NO: 4) designed to be arranged in the order shown in Table 9 from the N-terminal is encoded. The oligo DNA to be used was artificially synthesized.
- the artificial oligo DNA synthesized above was incorporated into the multi-cloning site of the pMY retroviral vector.
- a viral vector was prepared using FLYRD18 cells for retrovirus vector production.
- the prepared retroviral vector carrying the anti-CD19-CAR gene containing the intracellular domain derived from CD30 was used in 3. of [Example 1].
- iPS cell-derived anti-CD19-CART cells containing the intracellular domain derived from CD30 hereinafter, may be referred to as “CD19-CD30-iWT1 ⁇ CARTC” were prepared.
- anti-CD19-CAR gene As a gene encoding anti-CD19-CAR, oligo DNA encoding a polypeptide (SEQ ID NO: 5) designed to be arranged in the order shown in Table 10 from the N-terminal was artificially synthesized.
- the artificial oligo DNA synthesized above was incorporated into the multi-cloning site of the pMY retroviral vector.
- a viral vector was prepared using FLYRD18 cells for retrovirus vector production.
- the prepared retroviral vector carrying the gene encoding the anti-CD19-CAR may be infected with the i ⁇ TC prepared in [Example 3] to cause iPS cell-derived anti-CD19-CART cells (hereinafter referred to as “CD19i ⁇ CARTC”). .) was prepared.
- Example 7 1. Cytotoxic activity of T cells, etc. 1-1. 2-1. Cytotoxic activity of CD19iWT1 ⁇ CARTC and BMCAiWT1 ⁇ CARTC [Example 6]. And 2-2. The cytotoxic activity of CD19iWT1 ⁇ CARTC and BMCAiWT1 ⁇ CARTC obtained in 1) was evaluated on CD19-positive Raji cancer cells and BCMA-positive H929 cancer cells, respectively. CD19iWT1 ⁇ CARTC or iWT1 ⁇ TC was mixed with Raji cells at a ratio of 16 times, and the cytotoxic activity of CD19iWT1 ⁇ CARTC was evaluated based on the target cell death after 2 hours.
- BCMAiWT1 ⁇ CARTC or iWT1 ⁇ TC was mixed with H929 cells at a ratio of 16 times, and the cytotoxic activity of BCMAiWT1 ⁇ CARTC was evaluated based on the target cell death after 2 hours. It was shown that CD19iWT1 ⁇ CARTC and BMCA iWT1 ⁇ CARTC have cytotoxic activity against CD19-positive Raji cancer cells and BCMA-positive H929 cancer cells, respectively, and two types of CART can be produced from the same iWT1 ⁇ TC (Fig. 10).
- CD19-CD30-iWT1 ⁇ CARTC cytotoxic activity [Example 6] 2-3.
- the cytotoxic activity of CD19-CD30-iWT1 ⁇ CARTC obtained in 1) against CD19-positive Raji cancer cells was evaluated.
- CD19-CD30-iWT1 ⁇ CARTC was mixed with Raji cells at a ratio of 0.5, 1, 2, 4, 8, 16 times, and based on the target cell death after 2 hours, cytotoxicity of CD19-CD30-iWT1 ⁇ CARTC The activity was evaluated. It was shown that CD19-CD30-iWT1 ⁇ CARTC has cytotoxic activity against CD19-positive Raji cancer cells and can produce different CARTs from the same iWT1 ⁇ TC (Fig. 11).
- CD19i ⁇ CARTC cytotoxic activity [Example 6] 2-4.
- the cytotoxic activity of CD19i ⁇ CARTC obtained in 1 was evaluated.
- CD19-positive Raji cells and CD19-negative CCRF-CEN cells as target cells
- CD19i ⁇ CARTC was mixed with the target cells at a ratio of 0.5, 1, 2, 4, 8, 16 times, and the target cell death after 2 hours. Based on this, the cytotoxic activity of CD19i ⁇ CARTC was evaluated. It was shown that CD19i ⁇ CARTC has cytotoxic activity against CD19-positive Raji cells, not against CD19-negative CCRF-CEN cells, and has antigen-specific cytotoxic activity (Fig. 12).
- Example 8 1. Introduction of anti-CD19-CAR gene and IL-15R ⁇ / IL-15 gene An oligo encoding a polypeptide (SEQ ID NO: 7) designed to be arranged in the order shown in Table 11 from the N-terminal as the IL-15R ⁇ / IL-15 gene. DNA was artificially synthesized.
- the artificial oligo DNA synthesized above was incorporated into the multi-cloning site of the pMY retroviral vector.
- a viral vector was prepared using FLYRD18 cells for retrovirus vector production.
- the retroviral vector carrying the anti-CD19-CAR gene prepared in (Example 3) was infected with i ⁇ TC and V ⁇ 9V ⁇ 2-iTC prepared in [Example 3] to prepare CD19 / IL15i ⁇ CARTC and CD19 / IL15iV ⁇ 9V ⁇ 2CARTC, respectively.
- T cell products 1-1 Expanded culture of T cells (CD19 / IL15iV ⁇ 9V ⁇ 2CARTC)
- the CD19 / IL15iV ⁇ 9V ⁇ 2CARTC obtained in [Example 8] was suspended at 2,000,000 cells / mL in an ⁇ -MEM medium containing 15% FBS plus the cytokines shown in Table 6, and anti-CD3 antibody (UCHT1) and retronectin were added. were seeded to the immobilized plates were incubated under 5% CO 2/37 °C 3 days.
- Immobilization of the anti-CD3 antibody and retronectin on the culture plate was carried out by the following method.
- Anti-CD3 antibody (UCHT1, final concentration 3000 ng / mL) and retronectin (final concentration 150 ⁇ g / mL) dissolved in PBS at the required concentrations were added to the plate and then allowed to stand overnight at 4 ° C.
- CAR-T cells can be expanded and cultured from the T cell master cell bank and / or the T cell working cell bank to mass-produce and provide T cell products (for example, CAR-T cell products).
- T cell products for example, CAR-T cell products.
- Various expanded-cultured T cells are filled in an appropriate storage container (sterile vial, blood transfusion bag, etc.), the container is labeled, and the container is packaged to produce a T cell product.
- Example 10 Identification of antigen A biological sample such as a tumor tissue piece or body fluid (eg, blood, serum, plasma, etc.) that can contain tumor cells is collected from the subject, mRNA is extracted from the sample, and the mRNA is required. CDNA is synthesized from and identified using the cDNA using nucleic acid amplification methods such as digital PCR (eg ddPCR), RT-PCR, biochips (eg microarray), RNAseq, and / or nucleic acid detection methods. ..
- nucleic acid amplification methods such as digital PCR (eg ddPCR), RT-PCR, biochips (eg microarray), RNAseq, and / or nucleic acid detection methods. ..
- T cell products [Example 10] 1. A T cell product containing T cells expressing CAR or exogenous TCR that recognizes and binds to the identified antigen was prepared in advance based on the material (paper medium or electronic data medium) showing the identification result by. Select from a list of T cell products.
- Example 11 1. Effect of CD19 / IL15i ⁇ CARTC on prolonging survival days NOD / Shi-scid, IL-2R ⁇ KO (NOG) Mice (Central Institute for Experimental Animals, female, 7-8 weeks old) were transplanted with 5x10 5 Nalm6 cells (ATCC) into the tail vein. To prepare Nalm6 Xenograft mice. On the 4th day after transplantation , the number of survival days after a suspension of CD19 / IL15i ⁇ CARTC (5x10 6 cells (cells)) suspended in 0.1 mL of HBSS-buffer solution or an equal amount of HBSS-buffer solution in the tail vein. It was confirmed.
- mice transplanted with CD19-positive Nalm6 cancer cells by tail vein died within 3 weeks in the control-administered group, whereas all the mice in the CD19 / IL15i ⁇ CARTC-administered group survived at least 6 weeks later. (Fig. 14).
- the survival time was confirmed after a suspension of CD19 / IL15iV ⁇ 9V ⁇ 2CARTC (10 7 cells) obtained in 1) suspended in 0.2 mL of HBSS-buffer solution or an equal amount of HBSS-buffer solution administered to the tail vein. .. All mice transplanted with CD19-positive Nalm6 cancer cells by tail vein died within 3 weeks in the control-administered group, whereas all the mice in the CD19 / IL15i ⁇ CARTC-administered group survived at least 6 weeks later. (Fig. 15).
- high-quality off-the-shelf allogeneic T cell products can reduce human, time and financial costs, and have small lot-to-lot differences.
- the delivery system is provided, and the T cell products provided in this way are useful for the prevention or treatment of diseases such as cancer and tumors.
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Abstract
Description
近年、がんに対する治療法として免疫細胞治療が注目されている。免疫細胞治療とは、患者の体外で増殖および活性化させた免疫細胞を患者に投与し、その免疫細胞にがん細胞を攻撃させる治療法である。免疫細胞治療は、従来の外科治療、放射線治療、化学治療の三大療法に比べて副作用がほとんどないという利点を有している。免疫細胞治療には様々な種類の治療法があるが、その中でも、off-the-shelfの同種異系の(Allogenic)T細胞製品に期待が寄せられている。
[1]T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを含む、T細胞製品の提供システム。
[2]前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクが人工多能性幹細胞由来のT細胞を含む、[1]に記載のシステム。
[3]前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクが、少なくとも1種類のHLA遺伝子の発現が抑制されたT細胞を含む、[1]または[2]に記載のシステム。
[3a]前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクが、外因性遺伝子が導入されたT細胞を含む、[1]~[3]のいずれか1つに記載のシステム。
[3b]さらに、T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを収集して、2種類以上のT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを含むT細胞マスターセルバンクコレクションおよび/またはT細胞ワーキングセルバンクコレクションを構築するステップを含む、[1]~[3a]のいずれか1つに記載のシステム。
[3c]前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクの種類が2種類以上である、[1]~[3b]のいずれか1つに記載のシステム。
[3d]さらに、T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを選択するステップを含む、[1]~[3c]のいずれか1つに記載のシステム。
[4]前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクから準備したT細胞に、外因性遺伝子を含む核酸を導入するステップを含む、[1]~[3d]のいずれか1つに記載のシステム。
[5]前記外因性遺伝子がCAR遺伝子又は外因性のTCR遺伝子である、[4]に記載のシステム。
[6]前記T細胞製品の種類が2種類以上である、[1]~[5]のいずれか1つに記載のシステム。
[6a]さらにT細胞製品を選択するステップを含む、[1]~[6]のいずれか1つに記載のシステム。
[7]さらに、前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクから準備したT細胞を拡大培養するステップを含む、[1]~[6a]のいずれか1つに記載のシステム。
[8]前記T細胞を拡大培養するステップが、CD30アゴニストによって該細胞を刺激する工程を含む、[7]に記載のシステム。
[8a]前記T細胞を拡大培養するステップにおいて、CD30アゴニストの存在下で該細胞を培養する工程を含む、[7]に記載のシステム。
[9]さらに、前記拡大培養されたT細胞を含む凍結T細胞製品を製造するステップを含む、[7]~[8a]のいずれか1つに記載のシステム。
[10]さらに、T細胞製品を収集して、2種類以上のT細胞製品を含むT細胞製品コレクションを構築するステップを含む、[6]~[9]のいずれか1つに記載のシステム。
[10a]さらに、被験者の情報を取得するステップを含む、[1]~[10]のいずれか1つに記載のシステム。
[10b]さらに、被験者の情報に基づいて、適切なT細胞マスターセルバンクおよび/または適切なT細胞ワーキングセルバンクを選択するステップを含む、[10a]に記載のシステム。
[10c]さらに、被験者の情報に基づいて、適切なT細胞製品を選択するステップを含む、[10a]に記載のシステム。
[11]さらに、被験者の腫瘍に発現している腫瘍特異的抗原又は腫瘍関連抗原を同定するステップを含む、[1]~[10c]のいずれか1つに記載のシステム。
[12]さらに、同定された抗原を認識し結合するCAR又は外因性のTCRを発現するT細胞製品を、2種類以上のT細胞製品を含むT細胞製品コレクションから選択するステップを含む、[11]に記載のシステム。
[13]T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを構築する工程を含む、T細胞製品の製造方法。
[14]前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクが人工多能性幹細胞由来のT細胞を含む、[13]に記載のT細胞製品の製造方法。
[15]前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクが、少なくとも1種類のHLA遺伝子の発現が抑制されたT細胞を含む、[13]または[14]に記載のT細胞製品の製造方法。
[15a]前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクが、外因性遺伝子が導入されたT細胞を含む、[13]~[15]のいずれか1つに記載のT細胞製品の製造方法。
[16]さらに、前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクから準備したT細胞に外因性遺伝子を含む核酸を導入する工程を含む、[13]~[15a]のいずれか1つに記載のT細胞製品の製造方法。
[17]前記外因性遺伝子がCAR遺伝子又は外因性のTCR遺伝子である、[16]に記載のT細胞製品の製造方法。
[18]さらに、T細胞を拡大培養する工程を含む、[13]~[17]のいずれか1つに記載のT細胞製品の製造方法。
[19]前記T細胞を拡大培養する工程において、CD30アゴニストによって該細胞を刺激する工程を含む、[18]に記載のT細胞製品の製造方法。
[19a]前記T細胞を拡大培養する工程において、CD30アゴニストの存在下で該細胞を培養する工程を含む、[18]に記載のT細胞製品の製造方法。
[20]T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンク。
[21]人工多能性幹細胞由来のT細胞を含む、[20]に記載のT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンク。
[22]少なくとも1種類のHLA遺伝子の発現が抑制されたT細胞を含む、[20]または[21]に記載のT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンク。
[22a]外因性遺伝子が導入されたT細胞を含む、[20]~[22]のいずれか1つに記載のT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンク。
[23][20]~[22a]のいずれか1つに記載された2以上の種類のT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを含む、T細胞マスターセルバンクコレクションおよび/またはT細胞ワーキングセルバンクコレクション。
[24]以下の工程を含む、T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを構築する方法。
(I)キメラ抗原受容体(CAR)遺伝子を有さない人工多能性幹細胞を、CAR-T療法用のT細胞に分化させる工程、
(II)該分化させたT細胞をストックする工程、及び
(III)該分化させたT細胞の特性解析を行う工程
[25]以下の工程を含む、T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを構築する方法。
(i)外因性のT細胞受容体(TCR)遺伝子を有さない人工多能性幹細胞を、TCR-T療法用のT細胞に分化させる工程、
(ii)該分化させたT細胞をストックする工程、及び
(iii)該分化させたT細胞の特性解析を行う工程
[25a]前記人工多能性幹細胞が外因性遺伝子を有する、[24]または[25]に記載の方法。
[26]前記人工多能性幹細胞が外因性のT細胞受容体(TCR)遺伝子を有する、[24]または[25a]に記載の方法。
[27]前記人工多能性幹細胞が少なくとも1種類のHLA遺伝子を欠失している、[24]~[26]のいずれか1つに記載の方法。
[27a]前記人工多能性幹細胞が少なくとも1種類のHLA遺伝子の発現が抑制されたものである、[24]~[26]のいずれか1つに記載の方法。
[28]前記T細胞がCD8αβを発現する、[24]~[27a]のいずれか1つに記載の方法。
[29][24]~[28a]のいずれか1つに記載の方法により構築されたT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンク。
[30]以下の工程を含む、CAR又は外因性のTCRを発現するT細胞製品を製造する方法。
(A)[29]に記載のT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクから、T細胞を準備する工程、
(B)該準備したT細胞にCAR遺伝子又は外因性のTCR遺伝子を導入する工程、および
(C)該CAR遺伝子又は外因性のTCR遺伝子が導入されたT細胞を拡大培養する工程
[30a]さらに、(D)拡大培養されたT細胞を凍結する工程を含む[30]に記載の方法。
[31]前記CAR又は外因性のTCRが、腫瘍特異的抗原又は腫瘍関連抗原を認識し結合することを特徴とする、[30]または[30a]に記載の方法。
[32]前記工程(C)が、T細胞を、CD30アゴニストによって該細胞を刺激する工程を含む、[30]~[31]のいずれか1つに記載の方法。
[32a]前記工程(C)が、T細胞を、CD30アゴニストの存在下で該細胞を培養する工程を含む、[30]~[31]のいずれか1つに記載のT細胞製品の製造方法。
[33][30]~[32a]のいずれか1つに記載の方法により製造されたT細胞製品。
[34][33]に記載のT細胞製品を収集する工程を含む、2種類以上のT細胞製品を含むT細胞製品コレクションの構築方法。
[35][34]に記載の方法により構築されたT細胞製品コレクション。
[36]以下の工程を含む、被験者に適したT細胞製品を提供する方法。
(x)被験者の腫瘍に発現している腫瘍特異的抗原又は腫瘍関連抗原を同定する工程、および
(y)該同定された抗原を認識し結合するCAR又は外因性のTCRを発現するT細胞製品を、[35]に記載のT細胞製品コレクションから選択する工程
[37]以下の工程を含む、被験者に適したT細胞製品を提供する方法。
(p)被験者の情報を取得する工程、および
(q)該取得した被験者の情報に基づいて適切なT細胞マスターセルバンクおよび/または適切なT細胞ワーキングセルバンクを選択する工程
<人工多能性幹細胞(iPSC)>
αβ-iPSC:TCR-α鎖遺伝子(TRA遺伝子)およびTCR-β鎖遺伝子(TRB遺伝子)が導入されたiPS細胞
Vγ9Vδ2-iPSC:Vγ9Vδ2TCR G115をコードするTCR-γ鎖遺伝子(TRG遺伝子)およびTCR-δ鎖遺伝子(TRD遺伝子)が導入されたiPS細胞
<造血前駆細胞(HPC)>
Vγ9Vδ2-iHPC:Vγ9Vδ2TCR G115をコードするTCR-γ鎖遺伝子(TRG遺伝子)およびTCR-δ鎖遺伝子(TRD遺伝子)が導入されたHPC
<T細胞>
iγδTC:外因性TCRが導入されていないiPS細胞から分化させたT細胞
iαβTC:αβ-iPSCから分化させたT細胞
Vγ9Vδ2-iTC:Vγ9Vδ2-iPSCから分化させたT細胞
Vγ9Vδ2-iHTC:Vγ9Vδ2-iHPCから分化させたT細胞
<CAR遺伝子を導入したT細胞>
CD19iαβCARTC:iαβTCに抗CD19-CARをコードする遺伝子を導入して作製したT細胞
BCMAiαβCARTC:iαβTCに抗BCMA-CARをコードする遺伝子を導入して作製したT細胞
CD19-CD30-iαβCARTC:iαβTCにCD30由来細胞内ドメインを含む抗CD19-CARをコードする遺伝子を導入して作製したT細胞
<CAR遺伝子およびIL-15Rα/IL-15遺伝子を導入したT細胞>
CD19/IL15iαβCARTC:iαβTCに抗CD19-CARをコードする遺伝子およびIL-15Rα/IL-15キメラタンパク質をコードする遺伝子を導入して作製したT細胞
CD19/IL15iVγ9Vδ2CARTC:Vγ9Vδ2-iTCに抗CD19-CARをコードする遺伝子およびIL-15Rα/IL-15キメラタンパク質をコードする遺伝子を導入して作製したT細胞
CD19/IL15iγδCARTC:iγδTCに抗CD19-CARをコードする遺伝子およびIL-15Rα/IL-15キメラタンパク質をコードする遺伝子を導入して作製したT細胞
1.T細胞マスターセルバンク、T細胞ワーキングセルバンク、およびT細胞製品の提供システム
本発明は、T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを提供する。以下では、T細胞マスターセルバンクとT細胞ワーキングセルバンクとを包含するものとして、「T細胞セルバンク」との用語を用いることがある。また、別の態様において、本発明は、T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを含む、T細胞製品の提供システム(以下、「本発明の提供システム」と称することがある。)を提供する。
品質評価の試験項目としては、T細胞としての適切な細胞表現型を用いた確認試験、純度試験、製造工程由来不純物試験、および細胞数や細胞生存率などの含量試験などが挙げられる。
T細胞セルバンクはT細胞製品を製造および/または提供する者が自ら構築することもできるし、他者によって構築されたものを導入してT細胞製品の製造に用いることもできる。
ICH Q5Dによれば、マスターセルバンクからワーキングセルバンクを構築するという2段階方式のセルバンクの考え方は、医薬品製造を継続的に行う上で、細胞基材を供給するためのもっとも実際的な方法として、一般的に受け入れられている。
本発明の一態様として、T細胞セルバンクの一または複数容器分のT細胞を融解し、T細胞に外因性遺伝子を含む核酸を導入し、拡大培養することによってT細胞製品を製造することができる。
このほか、公開されているすべての論文(例えば、Shi Y., Ding S., et al., Cell Stem Cell, (2008) Vol3, Issue 5,568-574;Kim JB., Scholer HR., et al., Nature, (2008) 454, 646-650;Huangfu D., Melton, DA., et al., Nature Biotechnology, (2008) 26, No 7, 795-797)、あるいは特許(例えば、特開2008-307007号、特開2008-283972号、US2008-2336610、US2009-047263、WO2007/069666、WO2008/118220、WO2008/124133、WO2008/151058、WO2009/006930、WO2009/006997、WO2009/007852)に記載されている当該分野で公知の人工多能性幹細胞のいずれも用いることができる。人工多能性幹細胞株としては、NIH、理研、京都大学等が樹立した各種iPS細胞株が利用可能である。例えば、ヒトiPS細胞株であれば、理研のHiPS-RIKEN-1A株、HiPS-RIKEN-2A株、HiPS-RIKEN-12A株、Nips-B2株、京都大学の253G1株、201B7株、409B2株、454E2株、606A1株、610B1株、648A1株、再生医療用iPS細胞ストック(例えば、Ff-I01s04株、QHJI株等)等が挙げられる。
幹細胞のT細胞への分化誘導は、T細胞へ分化できる限り特に制限されずに公知の方法を用いることができる。幹細胞として多能性幹細胞を用いる場合には、上記T細胞への分化誘導は、例えば、(1)多能性幹細胞を造血前駆細胞に分化させる工程(process)、および(2)該造血前駆細胞をT細胞に分化させる工程を含み得る。
本明細書において、「造血前駆細胞(Hematopoietic Progenitor Cells(HPC))」とは、CD34陽性細胞を意味し、好ましくは、CD34/CD43両陽性(DP)細胞である。本発明において、造血前駆細胞と造血幹細胞は、区別されるものではなく、特に断りがなければ同一の細胞を示す。
造血前駆細胞からT細胞への分化方法としては、造血前駆細胞をT細胞へ分化できる限り特に制限されないが、例えば、国際公開第2016/076415号または国際公開第2017/221975号などに記載されているような、造血前駆細胞からT細胞を誘導する方法と同様の培養条件で、造血前駆細胞を培養する方法が挙げられる。
接着培養の場合であって、培養容器をコーティングする場合のコーティング剤としては、例えば、マトリゲル(Niwa A, et al., PLos One, 6(7):e22261, 2011))、コラーゲン、ゼラチン、ラミニン、ヘパラン硫酸プロテオグリカン、レトロネクチン(登録商標)、DLL4若しくはDLL1、あるいはDLL4若しくはDLL1と抗体のFc領域(以下、Fcと称することがある。)等との融合タンパク質(例:DLL4/Fc chimera)、エンタクチン、および/またはこれらの組み合わせが挙げられ、レトロネクチンおよびDLL4とFc等との融合タンパク質の組み合わせが好ましい。
T細胞を濃縮させる方法としては、T細胞が濃縮される限り特に制限されないが、例えば、国際公開第2016/076415号および国際公開第2017/221975号などに記載されているような、CD4CD8両陽性T細胞からCD8陽性T細胞を誘導する工程と同様の培養条件で、T細胞を培養する方法が挙げられる。
また、本発明の一形態において、T細胞セルバンクを構成する前に、必要に応じて後述の「1-5.拡大培養」に示す方法によって、上記で得られたT細胞を拡大培養することができる。
上記の方法によって得られたT細胞を複数の保存容器(無菌バイアルなど)に分注し、ストックすることでT細胞マスターセルバンクを構築することができる。該ストックされたT細胞は凍結されていることが好ましい。このT細胞マスターセルバンク中の一容器分のT細胞を必要に応じて融解し、適宜特性解析の試験に供することができる。また、同一の容器からまたは別の容器から準備したT細胞を、必要に応じて後述の「1-5.拡大培養」に示す方法によって拡大培養し、得られたT細胞を拡大培養別の複数の容器に分注し、ストックすることでT細胞ワーキングセルバンクを構築することができる。該ストックされたT細胞は凍結されていることが好ましい。
従って、本発明の提供システムは、T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを構築するステップ(以下、「T細胞セルバンク構築ステップ」ともいう。)を含んでいてもよい。以下では、T細胞セルバンク構築ステップを実行する様に構成された部分のことを、「T細胞セルバンク構築部」ということがある。
上記の通り、T細胞セルバンクのT細胞は凍結されていることが好ましい。T細胞の凍結は、公知の方法により行うこともできる。かかる方法としては、例えば、T細胞を含む容器を、フリーザー(例:超低温フリーザー)内に静置すること、または該細胞を低温の媒体(例:液体窒素等)と接触させ、フリーザーまたは凍結保存システム(例:ローケーター等)に保存することにより達成されるが、これに限定されない。凍結温度は、典型的には0℃以下、好ましくは-20℃以下、より好ましくは-40℃以下、さらに好ましくは-80℃以下である。また、凍結操作における冷却速度としは、典型的には4℃から冷却を始めて-80℃に達するまで1~5時間、好ましくは2~4時間、特に約3時間かける程度の冷却速度が挙げられる。かかる冷却速度は、所望の温度に設定した凍結手段に、T細胞を含む容器を直接、または、凍結処理容器に収容して供することにより達成することができる。凍結処理容器は、容器内の温度の下降速度を所定の速度に制御する機能を有していてもよい。かかる凍結処理容器としては、例えば、BICELL(登録商標)(日本フリーザー)などを用いることができる。また、上記冷却速度は、プログラム設定などにより冷却速度を制御することができるフリーザーを用いることにより達成することができる。かかるフリーザーとしては、既知の任意のもの、例えば、プログラムフリーザー(例えば、CryoMed(Thermo Fisher)、PDF-2000G(ストレックス)、KRYO-560-16(朝日ライフサイエンス))などを用いることができる。
凍結保存剤、フリーザーの具体例は、上述の通りである。また、T細胞を含む容器としては凍結保存容器を用いることができ、凍結保存容器の具体例としては、無菌バイアル(例:ガラスアンプル、ポリマー製バイアル(AT-closed vial)等)などが挙げられる。
本発明において、通常T細胞セルバンクには、T細胞が分注されて凍結された一または複数の容器が含まれることから、T細胞の準備には、T細胞セルバンクから一または複数の容器を採取し、該T細胞を融解する工程、必要に応じて、融解した細胞を洗浄する工程、前培養して細胞を起眠させる工程、該細胞を維持培養する工程なども含まれる。上記の各工程は、同一主体が行ってもよいし、異なる主体が行ってもよい。
本発明の提供システムは、T細胞セルバンクから準備したT細胞に、外因性遺伝子を含む核酸を導入するステップ(step)(以下、「核酸導入ステップ」ともいう。)を含んでいてもよい。本明細書において、「ステップを含む」または「工程を含む」とは、ステップまたは工程を実行する様に構成された部分を含むことを意味する。また、以下では、核酸導入ステップを実行する様に構成された部分のことを、「核酸導入部」ということがある。
核酸導入ステップにおける核酸を導入する方法、ならびに外因性遺伝子およびこれを含む核酸は上記と同様である。
核酸導入ステップにおいて導入する外因性遺伝子は、T細胞セルバンクを構成するT細胞にすでに導入された外因性遺伝子と同じものであってもよく、異なるものであってもよい。
本発明の提供システムは、T細胞マスターセルバンクから準備したT細胞または該T細胞に外因性遺伝子を含む核酸を導入したT細胞を拡大培養するステップ(以下、「拡大培養ステップ」ともいう。)を含んでいてもよい。以下では、拡大培養ステップを実行する様に構成された部分のことを、「拡大培養部」ということがある。
iPS細胞の増殖能に比べて、iPS細胞から分化したT細胞の増殖能は低いことから、T細胞段階でマスターセルバンクおよび/またはワーキングセルバンクを構築することは、ヒトあるいは複数のヒトに投与して期待される治療効果を得られる程度の量のT細胞およびT細胞製品を供給することが困難であった。本発明はかかる困難性を克服するものである。さらに、拡大培養ステップにおいて、上記のCD30アゴニストによりT細胞を刺激する工程を含む方法を用いることにより、T細胞段階でマスターセルバンクおよび/またはワーキングセルバンクを構築し、より安定的にT細胞製品を供給することが可能となる。
またそのまま用いる場合、当業者に周知の方法を用いて、T細胞が細胞集団に占める割合を増やしても良い。細胞集団に占めるT細胞の割合を増やす方法としては、Front. Immunol., 5:636 (2014)、特表2017-537625、特表2003-529363などの方法が挙げられるがこれに限定されない。
本発明の提供システムは、前記拡大培養されたT細胞から凍結T細胞製品を製造するステップ(以下、「凍結T細胞製品製造ステップ」ともいう。)を含んでいてもよい。以下では、凍結T細胞製品製造ステップを実行する様に構成された部分のことを、「凍結T細胞製品製造部」ということがある。
本発明の提供システムは、T細胞製品を収集して、2種類以上のT細胞製品を含むT細胞製品コレクションを構築するステップ(以下、「T細胞製品コレクション構築ステップ」ともいう。)を含んでいてもよい。以下では、T細胞製品コレクション構築ステップを実行する様に構成された部分のことを、「T細胞製品コレクション構築部」ということがある。
本発明の提供システムは、被験者の腫瘍に発現している腫瘍特異的抗原または腫瘍関連抗原(以下、単に「抗原」ともいう。)を同定するステップ(以下、「抗原同定ステップ」ともいう。)を含んでいてもよい。以下では、抗原同定ステップを実行する様に構成された部分のことを、「抗原同定部」ということがある。
本発明の提供システムでは、被験者の情報を取得し、当該情報に基づいて適切なT細胞製品を選択することができる。従って、本発明の提供システムは、被験者情報取得ステップおよび/または被験者に適したT細胞製品を選択するステップを含んでいてもよい。以下では、被験者情報取得ステップを実行する様に構成された部分のことを、「被験者情報取得部」ということがある。
被験者の情報としては、特に限定されず、例えば、被験者の遺伝子情報(例えば、HLA遺伝子関連情報、異常遺伝子情報等)、診断結果、既往歴、薬剤服用歴、年齢、性別、血液型、身長、体重、被験者が腫瘍を有する場合はその腫瘍に発現している腫瘍特異的抗原または腫瘍関連抗原に関する情報等が挙げられる。
図16に示すように、T細胞製品提供システム100は、T細胞製品131を提供するために、T細胞セルバンク102からT細胞を準備する。T細胞セルバンク102はT細胞セルバンク構築部101によって構築されていてもよい。また、2種類以上のT細胞セルバンクが構築された場合には、T細胞セルバンクコレクション構築部111によってこれらを収集してT細胞セルバンクコレクション112を構築してもよい。
準備されたT細胞は必要に応じて核酸導入部103において所望の外因性遺伝子が導入されてもよい。さらに当該T細胞は必要に応じて拡大培養部104において拡大培養されてもよい。さらに当該T細胞は必要に応じて凍結T細胞製品製造部105において凍結され、凍結T細胞製品106とされていてもよい。2種類以上の凍結T細胞製品が製造された場合には、T細胞製品コレクション構築部121によってこれらを収集してT細胞製品コレクション122を構築してもよい。
また、T細胞セルバンク選択部154およびT細胞製品選択部155においては、T細胞関連情報171に基づいて、それぞれ提供するT細胞製品131として適切なT細胞セルバンクおよびT細胞製品が選択され得る。かかるT細胞関連情報は、T細胞セルバンク構築部101、T細胞セルバンクコレクション構築部111、T細胞セルバンク選択部154、T細胞製品コレクション構築部121およびT細胞製品選択部155において管理される。
また、被験者の治療および/または予防により適したT細胞製品を提供するために、被験者の情報151を被験者情報取得部152で取得し、当該被験者の情報に基づいてT細胞製品選択部155によって適切なT細胞製品131を選択することができる。T細胞製品131は、T細胞製品が1種類の場合はT細胞製品106と同一であり、T細胞製品コレクション122から選択される場合には、当該T細胞製品コレクション122に含まれる1種類または複数種類のT細胞製品であってもよい。被験者情報取得部は、抗原同定部153を含み得る。被験者情報取得部152で取得された情報に基づいて、T細胞セルバンク選択部154によって適切なT細胞セルバンク161が選択されてもよい。T細胞セルバンク161は、T細胞セルバンクが1種類の場合はT細胞セルバンク102と同一であり、T細胞セルバンクコレクション112から選択される場合には、当該T細胞セルバンクコレクション112に含まれる1種類または複数種類のT細胞セルバンクであってもよい。T細胞セルバンク161からT細胞を準備し、上記と同様にしてT細胞製品を提供することができる。
図17は、T細胞製品選択部200に含まれ得るハードウェア構成の一例を示す図である。図17に示すように、T細胞製品選択部200は、プロセッサ201、メモリ202、補助記憶装置203、I/F(Interface)装置204、通信装置205、ドライブ装置206を有する。なお、T細胞製品選択部200の各ハードウェアは、バス207を介して相互に接続されている。
プロセッサ201は、CPU(Central Processing Unit)、GPU(Graphics Processing Unit)等の各種演算デバイスを有する。プロセッサ201は、補助記憶装置203にインストールされた各種ソフトウェア等のプログラムをメモリ202上に読み出して実行する。
メモリ202は、ROM(Read Only Memory)、RAM(Random Access Memory)等の主記憶デバイスを有する。プロセッサ201とメモリ202とは、いわゆるコンピュータを形成し、プロセッサ201が、メモリ202上に読み出した各種ソフトウェア等のプログラムを実行することで、当該コンピュータは各種機能を実現する。
補助記憶装置203は、各種ソフトウェア等のプログラムや、各種ソフトウェア等のプログラムがプロセッサ201によって実行される際に用いられる各種情報(例えば、T細胞関連情報、被験者の情報等)およびデータを格納する。
I/F装置204は、操作装置210及び表示装置211と、T細胞製品選択部200とを接続する接続デバイスである。I/F装置204は、T細胞製品選択部200に対する各種指示を、操作装置210を介して受け付ける。また、I/F装置204は、T細胞製品選択部200による処理結果を、表示装置211を介して出力する。
通信装置205は、ネットワークを介して他の装置と通信するための通信デバイスである。
ドライブ装置206は記録媒体212をセットするためのデバイスである。ここでいう記録媒体212には、CD-ROM、フレキシブルディスク、光磁気ディスク等のように情報を光学的、電気的あるいは磁気的に記録する媒体が含まれる。また、記録媒体212には、ROM、フラッシュメモリ等のように情報を電気的に記録する半導体メモリ等が含まれていてもよい。
なお、補助記憶装置203にインストールされる各種ソフトウェア等のプログラムは、例えば、配布された記録媒体212がドライブ装置206にセットされ、該記録媒体212に記録された各種ソフトウェア等のプログラムがドライブ装置206により読み出されることでインストールされる。あるいは、補助記憶装置203にインストールされる各種ソフトウェア等のプログラムは、通信装置205を介してネットワークからダウンロードされることで、インストールされてもよい。
本発明の提供システムにより提供されるT細胞製品は、例えば、がん細胞、がん幹細胞、腫瘍細胞等に対して細胞傷害活性を示し得るため、がんや腫瘍の予防または治療のために用いることができ、被験者に投与することができる。本明細書において、被験者は、治験等においてT細胞製品を投与される哺乳動物(例:マウス、ラット、ハムスター、ウサギ、ネコ、イヌ、ウシ、ヒツジ、サル、ヒト)等を意味するが、好ましい被験者はヒトである。
本発明はまた、上記のT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを構築する方法を提供する(以下、「本発明のセルバンク構築方法」と称することがある。)。本発明の一態様において、上記外因性遺伝子がCAR遺伝子の場合には、本発明のセルバンク構築方法は、(I)CAR遺伝子を有さない人工多能性幹細胞を、CAR-T療法用のT細胞に分化させる工程、(II)該分化させたT細胞をストックする工程、および(III)該分化させたT細胞の特性解析を行う工程を含む。上記工程(II)と(III)は、通常この順で行うが、工程(III)の後に工程(II)を行ってもよい。また、別の態様において、上記外因性遺伝子がTCR遺伝子の場合には、本発明のセルバンク構築方法は、(i)外因性のTCR遺伝子を有さない人工多能性幹細胞を、TCR-T療法用のT細胞に分化させる工程、(ii)該分化させたT細胞をストックする工程、および(iii)該分化させたT細胞の特性解析を行う工程を含む。上記工程(ii)と(iii)は、通常この順で行うが、工程(iii)の後に工程(ii)を行ってもよい。上記の各工程は、同一主体が行ってもよいし、異なる主体が行ってもよい。
上記2.の工程(I)および(i)は、CAR遺伝子および/または外因性のTCR遺伝子を有さない人工多能性幹細胞を用いて、上記1-1.の工程(1)および(2)に記載の方法により行うことができる。工程(I)におけるCAR-T療法用とは、T細胞で発現させたCARによる治療または予防用途を意味し、T細胞で発現させた外因性のTCRおよび内在性のTCRによって治療または予防を行うことは排除されるが、該T細胞には、治療または予防目的ではない他の目的、例えば、上記1-1.で記載したような、内在性のTCR遺伝子の発現を抑える目的および均一なT細胞を効率よく製造する目的により導入された外因性のTCR遺伝子などを含んでいてもよい。同様に、工程(i)におけるTCR-T療法用とは、T細胞で発現させた外因性のTCRによる治療または予防用途を意味し、T細胞で発現させたCARおよび内在性のTCRによって治療または予防を行うことは排除されるが、該T細胞には、治療または予防目的ではない他の目的、例えば、上記1-1.で記載したような、内在性のTCR遺伝子の発現を抑える目的などにより導入された外因性のTCR遺伝子などを含んでいてもよい。
上記2.の工程(III)および(iii)は、上記2-1.で得たT細胞を用いて、上記1-1.および1-2.で記載した方法により行うことができる。
上記2.の工程(III)および(iii)における特性解析の試験項目は、セルバンクの対象となる細胞の生物学的性質(例えば、栄養要求性)、培養履歴および試験の実施可能性によって変わるが、当業者によって、または当業者と規制当局との協議内容等に基づいて適宜設定される。それらの構築方法ならびに特性解析および品質評価結果に関する情報は各国の製造販売承認申請において医薬品当局に提示される。T細胞セルバンクの特性解析では、主に外来性の感染性因子の混入がないことを評価する。特に、外来性ウイルスによる汚染は臨床的使用において深刻な事態を招く可能性があることから、ICH Q5A(R1)に従って徹底的に評価される。その他の試験としては他の細胞株による交叉汚染を検出するための同一性試験がある。また、核型分析や造腫瘍性試験が実施される場合もある。
品質評価の試験項目としては、T細胞としての適切な細胞表現型を用いた確認試験、純度試験、製造工程由来不純物試験、および細胞数や細胞生存率などの含量試験などが挙げられる。
本発明の提供システムは、T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを収集して、2種類以上のT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを含むT細胞マスターセルバンクコレクションおよび/またはT細胞ワーキングセルバンクコレクション(以下、「T細胞セルバンクコレクション」ともいう。)を構築するステップ(以下、「T細胞セルバンクコレクション構築ステップ」ともいう。)を含んでいてもよい。本明細書では、T細胞セルバンクコレクション構築ステップを実行する様に構成された部分のことを、「T細胞セルバンクコレクション構築部」ということがある。
本発明の提供システムは、提供するT細胞製品を製造するためのT細胞セルバンクを、T細胞セルバンクを含むT細胞セルバンクコレクションから選択するステップ(以下、「T細胞セルバンク選択ステップ」ともいう。)を含んでいてもよい。本明細書では、T細胞セルバンク選択ステップを実行する様に構成された部分のことを、「T細胞セルバンク選択部」ということがある。
T細胞セルバンク選択ステップは、公知の方法により行うことができる。かかる方法としては、例えば、提供するT細胞製品の製造計画書の記載内容等に基づいて、適切なT細胞受容体を発現するT細胞を含むT細胞セルバンクを選択することができる。
また、本発明の一態様においては、被験者の情報を取得し、当該情報に基づいて適切なT細胞セルバンクを選択することができる。従って、本発明の提供システムは、被験者の情報を取得するステップ(以下、「被験者情報取得ステップ」ともいう。)および/または被験者に適したT細胞セルバンクを選択するステップを含んでいてもよい。以下では、被験者の情報を取得するステップを実行する様に構成された部分のことを、「被験者情報取得部」ということがある。
被験者の情報としては、特に限定されず、例えば、被験者の遺伝子情報(例えば、HLA遺伝子関連情報、異常遺伝子情報等)、診断結果、既往歴、薬剤服用歴、年齢、性別、血液型、身長、体重、被験者が腫瘍を有する場合はその腫瘍に発現している腫瘍特異的抗原または腫瘍関連抗原に関する情報等が挙げられる。
また、別の態様において、本発明は、T細胞製品を製造する方法(以下、「本発明のT細胞製品の製法」と称することがある。)を提供し、該方法は、(A)本発明のT細胞セルバンクから、T細胞を準備する工程、(B)該準備したT細胞にCAR遺伝子または外因性のTCR遺伝子を導入する工程、および(C)該CAR遺伝子または外因性のTCR遺伝子が導入されたT細胞を拡大培養する工程を含む。本発明のT細胞製品の製法はさらに、(D)該拡大培養されたT細胞を凍結する工程を含んでいてもよい。また、本発明のT細胞製品の製法により製造されたT細胞製品(以下、「本発明のT細胞製品」と称することがある。)も提供される。上記の各工程は、同一主体が行ってもよいし、異なる主体が行ってもよい。
上記3.の工程(A)は、本発明のT細胞セルバンクを用いて、上記1-3.に記載の方法により行うことができる。
上記3.の工程(B)は、上記3-1.の方法で準備したT細胞を用いて、上記1-4.に記載の方法により行うことができる。また、工程(B)で用いるT細胞は、IL-15/IL-15Rαを発現していることが好ましい。核酸の種類、CAR、TCRおよびIL-15/IL-15Rαの説明、各用語の定義、TCRやCARが標的とする抗原の具体例などについては、上記1-1.に記載の通りである。よって、一態様において、本発明の凍結ストックの製法に用いるT細胞、または本発明のT細胞凍結ストックに含まれるT細胞は、前記CARまたは外因性のTCRが、上記1-1.の腫瘍特異的抗原または腫瘍関連抗原を認識し結合することを特徴とし得る。
上記3.の工程(C)は、上記3-2.の方法で核酸が導入されたT細胞を用いて、上記1-5.に記載の方法により行うことができる。拡大培養の方法、拡大培養に用いる化合物の具体例、該化合物の培地中での濃度、各用語の定義などは、上記1-5.で記載した通りである。よって、一態様において、本発明の凍結ストックの製法は、前記T細胞を、CD30アゴニストの存在下で該細胞を培養する工程を含み得る。
上記3.の工程(D)は、上記3-3.の方法で拡大培養されたT細胞を用いて、上記1-2.に記載の方法により行うことができる。
さらに、別の態様において、本発明は、2種類以上のT細胞製品を含むT細胞製品コレクションの構築方法(以下、「本発明のT細胞製品コレクション構築方法」と称することがある。)を提供し、該方法は、本発明のT細胞製品を収集する工程を含み得る。また、本発明のT細胞製品コレクション構築方法により構築されたT細胞製品コレクション(以下、「本発明のT細胞製品コレクション」と称することがある。)も提供される。本発明のT細胞製品コレクションを構成するT細胞製品は凍結T細胞製品であってもよく、T細胞の安定性の観点からは凍結T細胞製品であることが好ましい。
本発明はまた、T細胞製品の製造方法(以下、「本発明のT細胞製品の製法」と称することがある。)を提供し、該方法は、T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを構築する工程を含み得る。
さらに、本発明は、被験者に適したT細胞製品を提供する方法(以下、「本発明の提供方法」と称することがある。)を提供する。被験者に適したT細胞製品を提供するために、被験者の情報を取得し、当該情報に基づいて適切なT細胞セルバンクおよび/または適切なT細胞製品を選択することができる。従って、本発明の提供方法は、(p)被験者の情報を取得する工程、および(q)該取得した被験者の情報に基づいて適切なT細胞セルバンクおよび/または適切なT細胞製品を選択する工程を含む。選択されたT細胞セルバンクを用いて、上記5.における工程(e)および/または工程(f)に供し、T細胞製品を製造して被験者に提供することができる。また、本発明の提供方法は、被験者が腫瘍を有する場合、その腫瘍に発現している腫瘍特異的抗原または腫瘍関連抗原に関する情報を取得し、これに基づいて適切なT細胞製品を選択することができる。従って、本発明の提供方法は、(x)被験者の腫瘍に発現している腫瘍特異的抗原または腫瘍関連抗原を同定する工程、および(y)該同定された抗原を認識し結合するCARまたは外因性のTCRを発現するT細胞製品を、本発明のT細胞製品コレクションから選択する工程を含む。(x)被験者の腫瘍に発現している腫瘍特異的抗原または腫瘍関連抗原を同定する工程、および(y)該同定された抗原を認識し結合するCARまたは外因性のTCRを発現するT細胞製品を、本発明のT細胞製品コレクションから選択する工程は、(p)被験者の情報を取得する工程、および(q)該取得した被験者の情報に基づいて適切なT細胞製品を選択する工程に概念上包含される。T細胞、T細胞製品、被験者などの用語の種類や定義は、上記1-1.~1-10.に記載の通りである。上記の各工程は、同一主体が行ってもよいし、異なる主体が行ってもよい。
1.iPS細胞の準備
iPS細胞には、京都大学iPS細胞研究所(CiRA)から供与されたiPS細胞(Ff-I01s04株:健常人末梢血単核球由来)を使用した。iPS細胞培養は、CiRAが配布するプロトコール「フィーダーフリーでのヒトiPS 細胞の培養」に準じて行った。
2-1.WT1-TCR遺伝子の導入
愛媛大学大学院医学研究科安川正貴教授から供与されたTAK1由来、HLA-A*24:02拘束性WT1特異的TCRをコードするTRB遺伝子とTRA遺伝子を、P2A配列で繋いだ遺伝子(WT1-TCR)をiPS細胞へ導入した。iPS細胞への遺伝子導入は、理化学研究所から供与されたCS-UbC-RfA-IRES2-hKO1レンチウイルスベクターに組込み、iPS細胞に感染させることで行った。以下、WT1-TCR遺伝子が導入されたiPS細胞を「WT1αβ-iPSC」ということがある。
G115γδT細胞クローン由来のVγ9Vδ2 T細胞受容体をコードするTRG遺伝子とTRD遺伝子を、P2A配列で繋いだ遺伝子(Vγ9Vδ2TCR G115)をiPS細胞へ導入した。Vγ9Vδ2TCR G115は、N末から表1の順番で並ぶように設計したポリペプチド(配列番号1)をコードする、人工合成したオリゴDNAである。
1.iPS細胞の造血前駆細胞(HPC)への分化
iPS細胞の造血前駆細胞(HPC)への分化は、公知の方法(例えば、Cell Reports 2(2012)1722-1735や国際公開第2017/221975号に記載された方法)に準じて分化させた浮遊細胞集団を用いた。具体的には、[実施例1]の1.、[実施例1]の2-1.および[実施例1]の2-2.で得られたiPS細胞、WT1αβ -iPSCおよびVγ9Vδ2-iPSCを、それぞれ超低接着処理された6 well plateに3 x 105cells/wellで播種し、EB培地(StemPro34に10 μg/mlヒトインスリン、5.5 μg/mlヒトトランスフェリン、5 ng/ml 亜セレン酸ナトリウム、2 mM L-グルタミン、45 mM α-モノチオグリセロール、および50 μg/ml Ascorbic acid 2-phosphate を添加)に10 ng/ml BMP4、50 ng/ml bFGF、15 ng/ml VEGF、2 μM SB431542、を加えて、低酸素条件下(5% O2) にて5日間 培養を行った。続いて、50 ng/ml SCF、30 ng/ml TPO、10 ng/ml Flt3Lを添加し、さらに5~9日間培養を行い、浮遊細胞集団を得た。なお、培養期間中は2日または3日ごとに培地交換を行った。HPCを含む上記浮遊細胞集団を、表2の抗体セットを用いて染色した。上記染色を行った細胞集団を、FACSAriaによるソーティングに供した。
[実施例2]の1.で得られた細胞分画に対し、G115γδT細胞クローン由来のVγ9Vδ2 T細胞受容体をコードするTRG遺伝子とTRD遺伝子を、P2A配列で繋いだ遺伝子(Vγ9Vδ2TCR G115)を導入した。遺伝子の導入は、[実施例1]の2-2.と同様の方法により行った。以下、HPCにVγ9Vδ2TCR G115遺伝子が導入されたHPCを「Vγ9Vδ2-iHPC」ということがある。
1.HPCのT細胞への分化
[実施例2]の1.で得られた細胞分画および[実施例2]の2.で得られたVγ9Vδ2-iHPCを、公知の方法(例えば、Journal of Leukocyte Biology 96(2016)1165-1175や国際公開第2017/221975号に記載された方法)に準じて、リンパ球系細胞へ分化させた。具体的には、造血前駆細胞集団を、2000 cells/wellで、Recombinant h-DLL4/Fc chimera(SinoBiological)とRetronectin(タカラバイオ)をコートした48-well-plateに2000cells/wellで播種し、5%CO2、37℃条件下に培養した。培養期間中は2日または3日ごとに培地交換を行った。なお、培地には、15% FBSと2 mM L-グルタミン、100 U/mlペニシリン、100 ng/mlストレプトマイシン、55 μΜ 2-メルカプトエタノール、50 μg/ml Ascorbic acid 2-phosphate、10 μg/mlヒトインスリン、5.5 μg/mlヒトトランスフェリン、 5 ng/ml亜セレン酸ナトリウム、50 ng/ml SCF、50 ng/ml IL-7、50 ng/ml Flt3L、100 ng/ml TPO、15μM SB203580、30 ng/ml SDF-1αを添加したαMEM培地を用いた。培養開始から7日目および14日目に同様のコートをした48-well-plateに継代した。培養開始21日目にすべての細胞を回収し、CD45(+)、CD3(+)分画が存在することをフローサイトメーターにより確認した。得られた細胞を24-well-plateに播種し、5%CO2、37℃条件下に培養した。培地としては、15% FBSと2mΜ L-グルタミン、100 U/ml ペニシリン、100ng/ml ストレプトマイシン、50 ng/ml Ascorbic acid 2-phosphate、10 μg/mlヒトインスリン、5.5μg/mlヒ卜卜ランスフェリン、5 ng/mL 亜セレン酸ナ卜リウム、500 ng/mL抗CD3抗体(UCHT1もしくはOKT3クローン)、10 nΜ デキサメタゾン(富士製薬工業株式会社:10171-H02H)、100 U/ml IL-2、10 ng/mL IL-7を含むαΜΕΜ培地を用いた。培養開始27日目(Day41)にすべての細胞を回収した。以下、[実施例1]の1.で得られたiPS細胞から分化させたT細胞を「iγδTC」、[実施例1]の2-1.で得られたWT1αβ-iPSCから分化させたT細胞を「iWT1αβTC」、[実施例1]の2-2.で得られたVγ9Vδ2-iPSCから分化させたT細胞を「Vγ9Vδ2-iTC」、[実施例]の2.で得られたVγ9Vδ2-iHPCから分化させたT細胞を「Vγ9Vδ2-iHTC」とそれぞれいうことがある。
iγδTCについては表3の抗体セットを用いて染色した(図3および4)。
T細胞の拡大培養
1.iγδTCの拡大培養
1-1.拡大培養
[実施例3]で得られたiγδTCを、15% FBSを含むα-MEM培地に表4のサイトカインを加えた培地で2,000,000 cells/mLで懸濁し、抗CD3抗体(UCHT1)とレトロネクチンが固相化されたプレートに播種して、5% CO2/37℃下で3日間培養した。培養3日目にプレートから細胞を回収し、NucleoCounter(登録商標) NC-200(ChemoMetec)を用いて細胞数を計測すると共に、15% FBSを含むα-MEM培地に表5のサイトカインを加えた培地で適量に懸濁し、固相化されていないG-Rex (登録商標) 6 穴プレート(WILSONWOLF)に添加し、5%CO2/37℃下で培養した。その後培養5、6、7、8、9、10、11、14日目のいずれか4~6回、一部の細胞をプレートから回収して細胞数をNucleoCounter(登録商標) NC-200を用いて計測した。抗CD3抗体およびレトロネクチンの培養プレートへの固相化は、以下の方法で行った。必要な濃度でPBSに溶解した抗CD3抗体(UCHT1、最終濃度3000 ng/mL)およびレトロネクチン(最終濃度150 μg/mL)をプレートに添加した後、4℃下一晩静置した。
[実施例4]の1-1.の拡大培養を5回繰り返した時の、iγδTCの細胞数の増殖率を図7に示す。iγδTC は少なくとも1011倍以上に拡大培養することが可能であり、T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを構成するT細胞として用いることができる。
2-1.拡大培養
[実施例3]で得られたVγ9Vδ2-iTCを、15% FBSを含むα-MEM培地に表6のサイトカインを加えた培地で2,000,000 cells/mLで懸濁し、抗CD3抗体(OKT3)とレトロネクチンが固相化されたプレートに播種して、5% CO2/37℃下で3日間培養した。培養3日目にプレートから細胞を回収し、NucleoCounter(登録商標) NC-200(ChemoMetec)を用いて細胞数を計測すると共に、15% FBSを含むα-MEM培地に表5のサイトカインを加えた培地で適量に懸濁し、固相化されていないG-Rex (登録商標) 6 穴プレート(WILSONWOLF)に添加し、5%CO2/37℃下で培養した。その後培養5、6、7、8、9、10、11、14日目のいずれか4~6回、一部の細胞をプレートから回収して細胞数をNucleoCounter(登録商標) NC-200を用いて計測した。抗CD3抗体およびレトロネクチンの培養プレートへの固相化は、[実施例4]の1-1.の方法で実施した。
[実施例4]の2-1.を5回繰り返した時の、Vγ9Vδ2-iTCの細胞数の増殖率を図8に示す。Vγ9Vδ2-iTC は少なくとも1012倍以上に拡大培養することが可能であり、T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを構成するT細胞として用いることができる。
3-1.拡大培養
[実施例3]で得られたiWT1αβTCを、15% FBSを含むα-MEM培地に表6のサイトカインを加えた培地で2,000,000 cells/mLで懸濁し、抗CD3抗体(OKT3)とレトロネクチンが固相化されたプレートに播種して、5% CO2/37℃下で3日間培養した。培養3日目にプレートから細胞を回収し、NucleoCounter(登録商標) NC-200(ChemoMetec)を用いて細胞数を計測すると共に、15% FBSを含むα-MEM培地に表5のサイトカインを加えた培地で適量に懸濁し、固相化されていないG-Rex (登録商標) 6 穴プレート(WILSONWOLF)に添加し、5%CO2/37℃下で培養した。その後培養5、6、7、8、9、10、11、14、17日目のいずれか4~6回、一部の細胞をプレートから回収して細胞数をNucleoCounter(登録商標) NC-200を用いて計測した。抗CD3抗体およびレトロネクチンの培養プレートへの固相化は、以下の方法で行った。必要な濃度でPBSに溶解した抗CD3抗体(OKT3、最終濃度3000 ng/mL)およびレトロネクチン(最終濃度150 μg/mL)をプレートに添加した後、4℃下一晩静置した。
[実施例4]の3-1.の拡大培養を4回繰り返した時の、iWT1αβTCの細胞数の増殖率を図9に示す。iWT1αβTCは少なくとも1010倍以上に拡大培養することが可能であり、T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを構成するT細胞として用いることができる。
1.T細胞マスターセルバンクの構築
[実施例4]で得られたT細胞の培養液を、凍結保護剤を含む凍結保存液(CryoStor CS10)と置換し、複数の保存容器(無菌バイアル(ポリマー製バイアル(AT-closed vial)))に分注する。該T細胞を含む容器を、フリーザー内に静置することによりT細胞を凍結させる。フリーザーとして、プログラムフリーザーであるCryoMed(Thermo Fisher)を用いる。これをストックすることで凍結したT細胞マスターセルバンクを構築する。
[実施例5]の1.の凍結したT細胞マスターセルバンクからT細胞を含む容器を採取する。該容器を約37℃のウォーターバスに約15秒浸してT細胞を融解する。融解して得られたT細胞を表5のサイトカインを加えた培地で適量に懸濁し、6 穴プレートに添加し、5%CO2/37℃下で培養する。1日から3日間培養した後、[実施例4]の方法で、T細胞を拡大培養した後、上記と同様に凍結し、ストックすることでT細胞ワーキングセルバンクを構築する。
[実施例5]の2.と同様にしてT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクから一容器を採取し、T細胞を融解する。得られたT細胞について、特性解析と品質評価を行う。
[実施例5]の1.で得られた複数種類のT細胞のマスターセルバンクを収集し、T細胞マスターセルバンクの種類が区別できるようにラベル等を付して、保管することで、T細胞マスターセルバンクコレクションを構築する。
1.T細胞の準備
[実施例5]の2.と同様にしてT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクから一容器を採取し、T細胞を融解した。融解して得られたT細胞を表5のサイトカインを加えた培地で適量に懸濁し、6 穴プレートに添加し、5%CO2/37℃下で培養した。1日から3日間培養した後、15% FBSを含むα-MEM培地に表4もしくは表6のサイトカインを加えた培地で2,000,000 cells/mLで懸濁し、抗CD3抗体(UCHT1もしくはOKT3)とレトロネクチンが固相化されたプレートに播種して、5% CO2/37℃下で3日間培養した。培養3日目にプレートから細胞を回収し、NucleoCounter(登録商標) NC-200(ChemoMetec)を用いて細胞数を計測すると共に、15% FBSを含むα-MEM培地に表5のサイトカインを加えた培地で適量に懸濁し、固相化されていない細胞培養フラスコ(25cm2または75 cm2)に添加し、5%CO2/37℃下で1日間培養してT細胞を準備した。
2-1.抗CD19-CAR遺伝子の導入
抗CD19-CARをコードする遺伝子として、N末から表7の順番で並ぶように設計したポリペプチド(配列番号2)をコードするオリゴDNAを人工合成した。
抗BCMA-CARをコードする遺伝子として、N末から表8の順番で並ぶように設計したポリペプチド(配列番号3)をコードするオリゴDNAを人工合成した。
CD30由来細胞内ドメインを含む抗CD19-CAR遺伝子として、N末から表9の順番で並ぶように設計したポリペプチド(配列番号4)をコードするオリゴDNAを人工合成した。
抗CD19-CARをコードする遺伝子として、N末から表10の順番で並ぶように設計したポリペプチド(配列番号5)をコードするオリゴDNAを人工合成した。
1.T細胞の細胞傷害活性等
1-1.CD19iWT1αβCARTCおよびBMCAiWT1αβCARTCの細胞傷害活性
[実施例6]の2-1.および2-2.で得られたCD19iWT1αβCARTCおよびBMCAiWT1αβCARTCの、それぞれCD19陽性Rajiがん細胞およびBCMA陽性H929がん細胞に対する細胞傷害活性を評価した。CD19iWT1αβCARTCもしくはiWT1αβTCをRaji細胞に対して16倍の割合で混和して、2時間後における標的細胞死をもとに、CD19iWT1αβCARTCの細胞傷害活性を評価した。またBCMAiWT1αβCARTCもしくはiWT1αβTCをH929細胞に対して16倍の割合で混和して、2時間後における標的細胞死をもとに、BCMAiWT1αβCARTCの細胞傷害活性を評価した。CD19iWT1αβCARTCおよびBMCAiWT1αβCARTCはそれぞれCD19陽性Rajiがん細胞およびBCMA陽性H929がん細胞に対する細胞傷害活性を有し、同じiWT1αβTCから2種類のCARTを製造できることが示された(図10)。
[実施例6]の2-3.で得られたCD19-CD30-iWT1αβCARTCの、CD19陽性Rajiがん細胞に対する細胞傷害活性を評価した。CD19-CD30-iWT1αβCARTCをRaji細胞に対して0.5, 1, 2, 4, 8, 16倍の割合で混和して、2時間後における標的細胞死をもとに、CD19-CD30-iWT1αβCARTCの細胞傷害活性を評価した。CD19-CD30-iWT1αβCARTCはCD19陽性Rajiがん細胞に対する細胞傷害活性を有し、同じiWT1αβTCから異なるCARTを製造できることが示された(図11)。
[実施例6]の2-4.で得られたCD19iγδCARTCの細胞傷害活性を評価した。CD19陽性Raji細胞およびCD19陰性CCRF-CEN細胞を標的細胞として、CD19iγδCARTCを、標的細胞に対して0.5, 1, 2, 4, 8, 16倍の割合で混和して、2時間後における標的細胞死をもとに、CD19iγδCARTCの細胞傷害活性を評価した。CD19iγδCARTCは、CD19陽性Raji細胞に対して細胞傷害活性を有し、CD19陰性CCRF-CEN細胞に対しては有さず、抗原特異的な細胞傷害活性を有することが示された(図12)。
1.抗CD19-CAR遺伝子およびIL-15Rα/IL-15遺伝子の導入
IL-15Rα/IL-15遺伝子として、N末から表11の順番で並ぶように設計したポリペプチド(配列番号7)をコードするオリゴDNAを人工合成した。
1-1.T細胞の拡大培養(CD19/IL15iVγ9Vδ2CARTC)
[実施例8]で得られたCD19/IL15iVγ9Vδ2CARTCを、15% FBSを含むα-MEM培地に表6のサイトカインを加えた培地で2,000,000 cells/mLで懸濁し、抗CD3抗体(UCHT1)とレトロネクチンが固相化されたプレートに播種して、5% CO2/37℃下で3日間培養した。培養3日目にプレートから細胞を回収し、NucleoCounter(登録商標) NC-200(ChemoMetec)を用いて細胞数を計測すると共に、15% FBSを含むα-MEM培地に表5のサイトカインを加えた培地で適量に懸濁し、固相化されていないG-Rex (登録商標) 6 穴プレート(WILSONWOLF)に添加し、5%CO2/37℃下で培養した。その後培養5、6、7、8、9、10、11、14、17日目のいずれか4~6回、一部の細胞をプレートから回収して細胞数を血球計数板を用いて計測した。抗CD3抗体およびレトロネクチンの培養プレートへの固相化は、以下の方法で行った。必要な濃度でPBSに溶解した抗CD3抗体(UCHT1、最終濃度3000 ng/mL)およびレトロネクチン(最終濃度150 μg/mL)をプレートに添加した後、4℃下一晩静置した。
[実施例9]の1-1.の拡大培養を3回繰り返した時の、CD19/IL15iVγ9Vδ2CARTCの細胞数の増殖率を図13に示す。CD19/IL15iVγ9Vδ2CARTC は少なくとも109倍以上に拡大培養することが可能であった。
拡大培養された各種のT細胞を含む容器を[実施例5]の1.と同様にして凍結し、凍結T細胞製品を製造する。
上記で得られる凍結T細胞製品をそれらの種類が区別できるようにラベルを付して保管することにより、T細胞製品コレクションを構築する。
1.抗原の同定
腫瘍組織片や、腫瘍細胞が含まれ得る体液(例:血液、血清、血漿等)などの生体サンプルを被験者より採取し、該サンプル中からmRNAを抽出し、必要に応じて該mRNAからcDNAを合成し、該cDNAを用いて、デジタルPCR(例:ddPCR)、RT-PCR、バイオチップ(例:マイクロアレイ)、RNAseq等の核酸増幅方法および/または核酸検出方法を利用して同定する。
[実施例10]の1.による同定結果が示された資料(紙媒体または電子データ媒体)に基づき、同定された抗原を認識し結合するCARまたは外因性のTCRを発現するT細胞を含むT細胞製品を、あらかじめ作成されたT細胞製品のリストなどから選択する。
1.CD19/IL15iγδCARTCによる生存日数延長効果
NOD/Shi-scid,IL-2RγKO (NOG) マウス(実験動物中央研究所、雌性、7-8週齢)に5x105個のNalm6細胞(ATCC)を尾静脈移植してNalm6ゼノグラフトマウスを作製した。移植後4日目に、CD19/IL15iγδCARTC(5x106個(cells))を0.1 mLのHBSS-緩衝液に懸濁した懸濁液または等量のHBSS-緩衝液を尾静脈投与した後、生存日数を確認した。CD19陽性Nalm6がん細胞を経尾静脈移植したマウスは、コントロール投与群では3週間以内に全例死亡したのに対して、CD19/IL15iγδCARTC投与群では、少なくとも6週間後まで全例において生存していた(図14)。
NOD/Shi-scid,IL-2RγKO (NOG) マウス(実験動物中央研究所、雌性、7-8週齢)に5x105個のルシフェラーゼ発現Nalm6細胞(ATCC)を尾静脈移植してルシフェラーゼ発現Nalm6ゼノグラフトマウスを作製した。移植後4日目に、[実施例6]の1-2.で得られたCD19/IL15iVγ9Vδ2CARTC (107個(cells))を0.2 mLのHBSS-緩衝液に懸濁した懸濁液または等量のHBSS-緩衝液を尾静脈投与した後、生存日数を確認した。CD19陽性Nalm6がん細胞を経尾静脈移植したマウスは、コントロール投与群では3週間以内に全例死亡したのに対して、CD19/IL15iγδCARTC投与群では、少なくとも6週間後まで全例において生存していた(図15)。
Claims (36)
- T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを含む、T細胞製品の提供システム。
- 前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクが人工多能性幹細胞由来のT細胞を含む、請求項1に記載のシステム。
- 前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクが、少なくとも1種類のHLA遺伝子の発現が抑制されたT細胞を含む、請求項1または2に記載のシステム。
- 前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクから準備したT細胞に、外因性遺伝子を含む核酸を導入するステップを含む、請求項1~3のいずれか一項に記載のシステム。
- 前記外因性遺伝子がCAR遺伝子又は外因性のTCR遺伝子である、請求項4に記載のシステム。
- 前記T細胞製品の種類が2種類以上である、請求項1~5のいずれか一項に記載のシステム。
- さらに、前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクから準備したT細胞を拡大培養するステップを含む、請求項1~6のいずれか一項に記載のシステム。
- 前記T細胞を拡大培養するステップが、CD30アゴニストによって該細胞を刺激する工程を含む、請求項7に記載のシステム。
- さらに、前記拡大培養されたT細胞を含む凍結T細胞製品を製造するステップを含む、請求項7または8に記載のシステム。
- さらに、T細胞製品を収集して、2種類以上のT細胞製品を含むT細胞製品コレクションを構築するステップを含む、請求項6~9のいずれか一項に記載のシステム。
- さらに、被験者の腫瘍に発現している腫瘍特異的抗原又は腫瘍関連抗原を同定するステップを含む、請求項1~10のいずれか一項に記載のシステム。
- さらに、同定された抗原を認識し結合するCAR又は外因性のTCRを発現するT細胞製品を、2種類以上のT細胞製品を含むT細胞製品コレクションから選択するステップを含む、請求項11に記載のシステム。
- T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを構築する工程を含む、T細胞製品の製造方法。
- 前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクが人工多能性幹細胞由来のT細胞を含む、請求項13に記載のT細胞製品の製造方法。
- 前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクが、少なくとも1種類のHLA遺伝子の発現が抑制されたT細胞を含む、請求項13または14に記載のT細胞製品の製造方法。
- さらに、前記T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクから準備したT細胞に外因性遺伝子を含む核酸を導入する工程を含む、請求項13~15のいずれか一項に記載のT細胞製品の製造方法。
- 前記外因性遺伝子がCAR遺伝子又は外因性のTCR遺伝子である、請求項16に記載のT細胞製品の製造方法。
- さらに、T細胞を拡大培養する工程を含む、請求項13~17のいずれか一項に記載のT細胞製品の製造方法。
- 前記T細胞を拡大培養する工程において、CD30アゴニストによって該細胞を刺激する工程を含む、請求項18に記載のT細胞製品の製造方法。
- T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンク。
- 人工多能性幹細胞由来のT細胞を含む、請求項20に記載のT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンク。
- 少なくとも1種類のHLA遺伝子の発現が抑制されたT細胞を含む、請求項20または21に記載のT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンク。
- 請求項20~22のいずれか一項に記載された2以上の種類のT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを含む、T細胞マスターセルバンクコレクションおよび/またはT細胞ワーキングセルバンクコレクション。
- 以下の工程を含む、T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを構築する方法。
(1)キメラ抗原受容体(CAR)遺伝子を有さない人工多能性幹細胞を、CAR-T療法用のT細胞に分化させる工程、
(2)該分化させたT細胞をストックする工程、及び
(3)該分化させたT細胞の特性解析を行う工程 - 以下の工程を含む、T細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクを構築する方法。
(1)外因性のT細胞受容体(TCR)遺伝子を有さない人工多能性幹細胞を、TCR-T療法用のT細胞に分化させる工程、
(2)該分化させたT細胞をストックする工程、及び
(3)該分化させたT細胞の特性解析を行う工程 - 前記人工多能性幹細胞が外因性のT細胞受容体(TCR)遺伝子を有する、請求項24に記載の方法。
- 前記人工多能性幹細胞が少なくとも1種類のHLA遺伝子を欠失している、請求項24~26のいずれか一項に記載の方法。
- 前記T細胞がCD8αβを発現する、請求項24~27のいずれか一項に記載の方法。
- 請求項24~28のいずれか一項に記載の方法により構築されたT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンク。
- 以下の工程を含む、CAR又は外因性のTCRを発現するT細胞製品を製造する方法。
(1)請求項29に記載のT細胞マスターセルバンクおよび/またはT細胞ワーキングセルバンクから、T細胞を準備する工程、
(2)該準備したT細胞にCAR遺伝子又は外因性のTCR遺伝子を導入する工程、および
(3)該CAR遺伝子又は外因性のTCR遺伝子が導入されたT細胞を拡大培養する工程 - 前記CAR又は外因性のTCRが、腫瘍特異的抗原又は腫瘍関連抗原を認識し結合することを特徴とする、請求項30に記載の方法。
- 前記工程(3)が、T細胞を、CD30アゴニストによって該細胞を刺激する工程を含む、請求項30または31に記載の方法。
- 請求項30~32のいずれか一項に記載の方法により製造されたT細胞製品。
- 請求項33に記載のT細胞製品を収集する工程を含む、2種類以上のT細胞製品を含むT細胞製品コレクションの構築方法。
- 請求項34に記載の方法により構築されたT細胞製品コレクション。
- 以下の工程を含む、被験者に適したT細胞製品を提供する方法。
(1)被験者の腫瘍に発現している腫瘍特異的抗原又は腫瘍関連抗原を同定する工程、および
(2)該同定された抗原を認識し結合するCAR又は外因性のTCRを発現するT細胞製品を、請求項35に記載のT細胞製品コレクションから選択する工程
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MX2022006288A (es) | 2022-06-08 |
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