WO2017177641A1 - Slit2D2-嵌合抗原受体及其应用 - Google Patents
Slit2D2-嵌合抗原受体及其应用 Download PDFInfo
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- WO2017177641A1 WO2017177641A1 PCT/CN2016/102374 CN2016102374W WO2017177641A1 WO 2017177641 A1 WO2017177641 A1 WO 2017177641A1 CN 2016102374 W CN2016102374 W CN 2016102374W WO 2017177641 A1 WO2017177641 A1 WO 2017177641A1
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Definitions
- the invention relates to the field of tumor therapeutic drugs, in particular to the use of a Slit2D2-chimeric antigen receptor for preventing and/or treating Robo1 high expression tumors.
- the human T lymphocytes recognize the target cells through the T cell receptors on their surface. This recognition is specific, that is, a certain T lymphocyte recognizes only target cells having a specific antigen, and this specific antigen is After intracellular processing, it is presented to T lymphocytes under the action of special molecules.
- antigen-presenting molecules are either present on the surface of antigen presenting cells or present on the surface of target cells.
- cancer cells down-regulate the expression of antigen presenting molecules
- the presented antigens have weak affinity with T cell receptors.
- Chimeric Antigen Receptor consists mainly of two parts, one end of which is located outside the cell and can specifically recognize an antigen on the surface of cancer cells, and the other end of which contains a signal activation element (such as a T cell receptor). Zeta chain) acts to transmit signals to activate T cells.
- T lymphocytes (CART cells) expressing CAR can prevent the T cell receptor from recognizing the restriction of target cells, thereby playing a role in targeting cancer cells.
- Robo1 is a potential new target for solid tumor therapy.
- Robo is a transmembrane receptor protein.
- In mammals, four Robo genes have been cloned. From the perspective of species evolution, the extracellular portion of Robo1, 2, and 3 is very conserved. From Drosophila to humans, it consists of five Ig-like functional regions and three Fibronectin III-type repeats.
- Robos has a short transmembrane region and a long intracellular region; according to the sequence conservation, the intracellular region is divided into four smaller regions, named: CC0, CC1, CC2, CC3.
- the structure of Robo4 is very different from that of the other three family members.
- Robo1 is overexpressed in a variety of cancers, such as hepatocellular carcinoma, breast cancer, colon cancer, pancreatic cancer, prostate cancer, glioma, and the like. Ito et al. showed that Robo1 is abundantly expressed in liver cancer, but only a small amount is expressed in normal tissues, and 84.7% of liver cancer tissue samples are positively expressed. Therefore, Robo1 can be used as a new hepatocyte tumor-associated antigen, which is a kind of Potential therapeutic and diagnostic targets. The results of other people's tests showed that 80% of cancer patients' cancer tissues highly expressed Robo1 mRNA, 45% of patients were normal tissues 4 times, and 15% of patients were 12 times normal tissues.
- Robo1 can provide treatment for colon cancer.
- a potential target By comparing pancreatic ductal carcinoma with benign tissue around it, He et al found that Robo1 is up-regulated in cancer tissues, and this up-regulation may be associated with lymphatic metastasis of pancreatic cancer cells. Huang et al. also showed that Robo1 is involved in the migration of colon cancer.
- Robo1 protein molecules are highly expressed in most tumor cells. Analysis from the http://www.genecards.org/cgi-bin/ database (see Figure 3), low or no expression of Robo1 in normal tissues suggests that Robo1 is a potential new target for tumor therapy.
- the present invention will develop a chimeric antigen receptor targeting the Robo1 antigen molecule, which is expressed in cells and can be used for the treatment of Robo1 highly expressed tumors.
- Another object of the present invention is to provide a chimeric antigen receptor-expressing cell which prevents and/or treats Robo1 highly expressed tumors.
- a first aspect of the invention provides a chimeric antigen receptor comprising an extracellular domain capable of binding an antigen, a transmembrane domain and an intracellular immunostimulatory molecule, wherein said The extracellular domain includes the D2 domain of the Slit2 protein.
- Slit2D2 The Slit2 protein D2 domain of the present invention, referred to as Slit2D2, has:
- amino acid sequence derived therefrom which is 1) substituted and/or deleted and/or added by one or several amino acid residues and having the same function.
- the chimeric antigen receptor consists in turn of a D2 domain, a transmembrane domain and an intracellular immunostimulatory molecule of the Slit2 protein.
- the transmembrane domain comprises one or more of CD28, CD3 epsilon, CD45, CD4, CD5, CD8, CD9, CD16, CD22, CD33, CD37, CD134, CD137, ICOS, CD154 transmembrane domains. .
- the transmembrane domain is a CD8 transmembrane domain.
- the CD8 transmembrane domain of the invention has:
- the intracellular immunocostimulatory molecules include CD3 ⁇ , CD3 ⁇ , CD3 ⁇ , CD3 ⁇ , CD5, CD22, CD79a, CD79b, CD66d, CD2, CD4, CD5, CD28, CD134, CD137, ICOS, CD154, 4-1BB and One or more of the OX40 intracellular domains.
- the intracellular immunostimulatory molecule consists of a 4-1BB and a CD3 cell intracellular domain.
- the 4-1BB intracellular domain of the present invention has:
- amino acid sequence derived therefrom which is 5) substituted and/or deleted and/or added by one or several amino acid residues and having the same function;
- the CD3 cell intracellular domain of the present invention has:
- the chimeric antigen receptor of the present invention consists of the D2 domain of Slit2, CD8 transmembrane domain, the intracellular domain of 4-1BB and the intracellular domains CD3 ⁇ abbreviated Slit2D2-CD8 TM -4- 1BB-CD3 ⁇ , also known as Slit2D2-CAR.
- Slit2D2-CD8 TM -4-1BB-CD3 ⁇ having:
- the substitution and/or deletion and/or addition of the one or several amino acid residues is a substitution and/or deletion and/or addition of no more than 10 amino acid residues.
- the Slit2 protein D2 domain of the present invention is directly linked to the N-terminus of the CD8 transmembrane domain via the C-terminus, or the Slit2 protein D2 domain is directly linked via the N-terminus to the C-terminal end of the CD8 transmembrane domain, ie, the Slit2 protein.
- the D2 domain is directly linked to the CD8 transmembrane domain without any linker peptides in between.
- the present invention also provides a gene encoding a chimeric antigen receptor of the present invention, the chimeric antigen receptor comprising an extracellular domain capable of binding an antigen, a transmembrane domain, and an intracellular immunostimulatory molecule, wherein The extracellular domain includes the D2 domain of the Slit2 protein.
- the Slit2 protein D2 domain of the present invention abbreviated as Slit2D2, has a gene sequence as shown in SEQ ID No: 6.
- the chimeric receptor antigen by the D2 domain of Slit2, CD8 transmembrane domain, the intracellular domain of 4-1BB and the intracellular domains CD3 ⁇ abbreviated Slit2D2-CD8 TM -4-1BB- CD3 ⁇ , wherein the gene sequence of the D2 domain of the Slit2 protein is as shown in SEQ ID No: 6, and the gene sequence of the CD8 transmembrane domain is as shown in SEQ ID No: 7, the 4-1BB
- the gene sequence of the intracellular domain is shown in SEQ ID No: 8
- the gene sequence of the CD3 sputum intracellular domain is shown in SEQ ID No: 9.
- Slit2D2-CD8 TM -4-1BB-CD3 ⁇ The gene sequence of Slit2D2-CD8 TM -4-1BB-CD3 ⁇ according to the present invention is shown in SEQ ID NO: 10;
- DNA molecule which hybridizes under stringent conditions to the sequence set forth in SEQ ID NO: 10 and which encodes a protein associated with the prevention and/or treatment of a tumor;
- a DNA molecule having at least 90%, preferably 95% or more, more preferably 98% or more homology with the sequence set forth in SEQ ID NO: 10 and encoding a related protein having a prophylactic and/or therapeutic tumor.
- the present invention also provides a biological material related to a chimeric antigen receptor, comprising a recombinant vector, an expression cassette, a recombinant cell, a recombinant strain, and a recombinant virus comprising the gene encoding the chimeric antigen receptor of the present invention.
- the recombinant vector of the present invention is a recombinant expression vector or a recombinant cloning vector.
- the chimeric antigen receptor (CAR) of the present invention can be artificially synthesized, or can be synthesized by first synthesizing the coding gene thereof.
- the synthetic coding gene of the present invention can easily prepare a base sequence encoding CAR from a predetermined CAR amino acid sequence by a conventional method, and obtain a base sequence encoding an amino acid sequence from an NCBI Ref Seq ID or a GenBenk search number of an amino acid sequence, and can
- the nucleic acids of the invention are prepared using standard molecular biology and/or chemical procedures. For example, a nucleic acid obtained from a cDNA database can be synthesized by a polymerase chain reaction (PCR) by synthesizing a nucleic acid based on a base sequence.
- PCR polymerase chain reaction
- a second aspect of the present invention provides a chimeric antigen receptor-expressing cell which is a gene encoding a chimeric antigen receptor of the present invention introduced into a cell.
- the cells may be derived from cells of mammalian cells (for example, human cells, mice, rats, monkeys), and may be collected, isolated, purified or induced from body fluids, tissues or organs such as blood (peripheral blood, cord blood). Etc) or cells of the bone marrow.
- the cells are T cells or a cell population containing T cells (e.g., PBMC), and more preferably, the T cells are derived from T cells of human peripheral blood.
- the receptor is a chimeric antigen Slit2D2-CD8 TM -4-1BB-CD3 ⁇ , recorded as Slit2D2-CAR, wherein said Slit2D2-CD8 TM -4-1BB-CD3 ⁇ gene sequence in SEQ ID NO :10;
- DNA molecule which hybridizes under stringent conditions to the sequence set forth in SEQ ID NO: 10 and which encodes a protein associated with the prevention and/or treatment of a tumor;
- a DNA molecule having at least 90%, preferably 95% or more, more preferably 98% or more homology with the sequence set forth in SEQ ID NO: 10 and encoding a related protein having a prophylactic and/or therapeutic tumor.
- the chimeric antigen receptor-expressing cell is introduced into a gene encoding Slit2D2-CD8 TM -4-1BB-CD3 ⁇ in T cells, referred to as Slit2D2-CART.
- the present invention also provides a method of producing a chimeric antigen receptor-expressing cell comprising the step of introducing a gene encoding a chimeric antigen receptor of the present invention into a cell.
- introducing a gene encoding a chimeric antigen receptor into a cell specifically comprises the following steps:
- the cells are expressed to express a chimeric antigen receptor in which a Slit2D2 molecule is expressed on the cell surface.
- the cells may be derived from cells of mammalian cells (for example, human cells, mice, rats, monkeys), and may be collected, isolated, purified or induced from body fluids, tissues or organs such as blood (peripheral blood, cord blood). Etc) or cells of the bone marrow.
- the cells are T cells or a cell population containing T cells (e.g., PBMC), and more preferably, the T cells are derived from T cells of human peripheral blood.
- the expression vector may use a viral vector such as a retroviral vector (including an oncogenic retroviral vector, a lentiviral vector, and a pseudotype vector), an adenovirus vector, and a vaccinia, which lacks replication ability and is unable to self-replicate in a transfected cell.
- a viral vector such as a retroviral vector (including an oncogenic retroviral vector, a lentiviral vector, and a pseudotype vector), an adenovirus vector, and a vaccinia, which lacks replication ability and is unable to self-replicate in a transfected cell.
- Viral vector or HSV vector and the like.
- packaging plasmids for packaging retroviral vectors can be selected according to retroviruses, and retrovirus particles can also be prepared using 293 cells or 293T cells having high transfection efficiency.
- the receptor is a chimeric antigen Slit2D2-CD8 TM -4-1BB-CD3 ⁇ , recorded as Slit2D2-CAR, wherein said Slit2D2-CD8 TM -4-1BB-CD3 ⁇ gene sequence in SEQ ID NO :10;
- DNA molecule which hybridizes under stringent conditions to the sequence set forth in SEQ ID NO: 10 and which encodes a protein associated with the prevention and/or treatment of a tumor;
- a DNA molecule having at least 90%, preferably 95% or more, more preferably 98% or more homology with the sequence set forth in SEQ ID NO: 10 and encoding a related protein having a prophylactic and/or therapeutic tumor.
- a chimeric antigen receptor expressing cells comprises a gene encoding Slit2D2-CD8 TM -4-1BB-CD3 ⁇ step of introducing the T cells.
- the method for preparing a chimeric antigen receptor-expressing cell specifically comprises the following steps:
- Isolated human peripheral blood T cells expanded in culture, lentiviral transfection of T cells, cells expressing T Slit2D2-CD8 TM -4-1BB-CD3 ⁇ , wherein the expression of T cell surface molecules Slit2D2, the intracellular 4-1BB - The CD3 ⁇ molecule transmits a T cell activation signal.
- a third aspect of the invention provides a pharmaceutical composition comprising the chimeric antigen receptor of the invention or the chimeric antigen receptor expressing cell of the invention and a pharmaceutically acceptable excipient.
- the pharmaceutical composition of the present invention may be a tablet (including a sugar-coated tablet, a film-coated tablet, a sublingual tablet, an orally disintegrating tablet, an oral tablet, etc.), a pill, a powder, a granule, a capsule.
- the pharmaceutical composition is a note Injection
- the pharmaceutically acceptable excipients of the present invention are preferably pharmaceutically acceptable injectable excipients, such as isotonic sterile saline solutions (sodium dihydrogen phosphate, disodium hydrogen phosphate, sodium chloride, potassium chloride, chlorination). Calcium, magnesium chloride, etc., or a mixture of the above salts, or dried, for example, a freeze-dried composition, suitably formed into an injectable solute by the addition of sterile water or physiological saline.
- injectable excipients such as isotonic sterile saline solutions (sodium dihydrogen phosphate, disodium hydrogen phosphate, sodium chloride, potassium chloride, chlorination). Calcium, magnesium chloride, etc., or a mixture of the above salts, or dried, for example, a freeze-dried composition, suitably formed into an injectable solute by the addition of sterile water or physiological saline.
- a fourth aspect of the present invention provides the use of the chimeric antigen receptor or chimeric antigen receptor-expressing cell of the present invention for preventing and/or treating Robo1 highly expressed tumor.
- a fifth aspect of the present invention provides the use of the chimeric antigen receptor or chimeric antigen receptor-expressing cell of the present invention for preventing and/or treating a drug having a high expression of Robo1 tumor.
- the Robo1 high expression tumor of the present invention includes breast cancer, liver cancer, lung cancer, pancreatic cancer, cervical cancer, ovarian cancer, rectal cancer, gastric cancer, colon cancer, prostate cancer, glioma and the like.
- the present invention adopts Slit2D2 to construct a chimeric antigen receptor (Slit2D2-CAR), and is used for modifying and transforming cells, in particular, Slit2D2-CAR is used for modifying and engineering T cells to construct Slit2D2-CART cells, with Robo1 molecule as a target antigen, Slit2D2-CART cells are used to kill tumor cells and used as cell drugs for the treatment of tumor diseases.
- Slit2D2-CAR is used for modifying and engineering T cells to construct Slit2D2-CART cells, with Robo1 molecule as a target antigen
- Slit2D2-CART cells are used to kill tumor cells and used as cell drugs for the treatment of tumor diseases.
- the transformed cells especially T cells, can specifically recognize and kill tumors, and have more efficient tumor killing activity.
- Figure 1 is a schematic diagram of the three-stage structure of the Slit2/Robo1 interaction
- Figure 3 shows the expression analysis of the Robo1 gene in tissues
- Figure 4 is a schematic diagram of the PRRSLIN-Slit2D2 lentiviral expression vector of the present invention.
- Figure 5 is a diagram showing the flow detection results of the engineered cell line MCF7/ROBO1 with high expression of Robo1;
- Figure 6 is a result of the Slit2D2 CAR-T in vitro killing experiment of the present invention.
- Figure 7 is a graph showing the in vitro killing effect of Slit2D2 CAR-T cells against MCF-7/ROBO1 under different target ratio conditions of the present invention
- Figure 8 is a graph showing the in vitro killing effect of Slit2D2 CAR-T cells against SMCC-7721 tumor cells under different target-to-target conditions.
- chimeric antigen receptor refers to a fusion protein comprising an extracellular domain capable of binding an antigen, a transmembrane domain and an intracellular immunostimulatory molecule
- CAR Chimeric Antigen Receptor
- CIR chimeric immunoreceptor
- an extracellular domain capable of binding an antigen means any oligopeptide or polypeptide that binds to a particular antigen.
- Transmembrane domain refers to a polypeptide derived from any membrane-bound or transmembrane protein or a synthetic polypeptide comprising predominantly hydrophobic residues such as leucine and valine.
- Intracellular immune costimulatory molecule refers to any oligopeptide or polypeptide known to function in a cell as a transmitting signal to cause activation or inhibition of a biological process.
- domain refers to a region having a specific structure and an independent function in a biological macromolecule, for example, the Slit2 protein D2 domain refers to a second structure of four leucine-rich repeats in the Slit2 protein. area.
- Slit2 protein in the present invention refers to a neurotransmitter, an evolutionarily highly conserved secreted extracellular matrix glycoprotein having a molecular weight of about 200 kD, which guides axon growth and neuronal migration, and its structure From the N-terminal extracellular secretion signal peptide, four leucine-rich repeats (LRRs), also named D1-D4 domain, multiple epidermal growth factor (EGF)-like The repeat sequence (7 in Drosophila, 9 in vertebrate), a laminin G-like domain and a cysteine-rich C-terminal domain.
- LRRs leucine-rich repeats
- EGF epidermal growth factor
- Robot1 in the present invention is a single-channel transmembrane receptor protein which is a receptor for Slit protein, and its extracellular region includes five immunoglobulin conserved regions and three fibronectin type III repeats. Internal area includes CC0, CC1, CC2 and CC3 Four conservative areas.
- prevention or “treatment” in the present invention includes therapeutic or prophylactic treatment or measures with the goal of preventing or slowing down a targeted pathological condition or disorder.
- a subject is successfully "prevented” if, after receiving a therapeutic amount of the fusion protein of the invention according to the method of the invention, the subject exhibits a decrease or disappearance of one or more signs and symptoms of a particular disease that is observable and/or measurable "or "treatment.”
- Slit2 sequence [GenBank: EAW92793.1] analysis design, construct the second domain of Slit2, Slit2D2 (Hohenester2008), and search the GenBank database for the known human CD8 TM transmembrane region gene sequence, human 4- 1BB intracellular region gene sequence and CD3 sputum intracellular region gene sequence, and the sequence of each gene sequence is shown in SEQ ID NO: 6-9 of the sequence listing.
- Slit2D2-CAR Slit2D2-CAR
- Slit2D2-CD8 TM gene sequence -4-1BB-CD3 ⁇ PRRSLIN connected to the vector by digestion transformation, gene upstream of EP-1 ⁇ promoter.
- the vector was transformed into Stbl3 Escherichia coli strain, then transferred to a solid medium containing ampicillin for propagation, screened, positive clones were obtained, plasmids were extracted, and clones were identified by enzyme digestion.
- the vector was confirmed to be successfully constructed by sequencing, and PRRSLIN-Slit2D2 was obtained slowly. See Figure 3 for a schematic representation of the construction of the viral expression vector and lentiviral expression vector.
- Solution A 6.25 mL 2 x HEPES buffer buffer (the amount of packaging with 5 large dishes is the best).
- Solution B A mixture of the following plasmids was separately added: 112.5 ⁇ g pRRLSIN-EF-PD1 (target plasmid); 39.5 ⁇ g pMD2.G (VSV-G envelop); 73 ⁇ g pCMVR8.74 (gag, pol, tat, rev); 625 ⁇ L 2M Calcium ion solution. Total volume of solution A: 6.25 mL.
- the fresh medium was replaced, the culture was continued, and the virus-containing supernatant was collected after 48 hours and 72 hours, respectively.
- fluorescence microscopy more than 95% of the cells showed green fluorescence.
- the filtered lentivirus-containing supernatant was transferred to a centrifuge tube, carefully layered with 20% sucrose (8 mL of sucrose per 8 mL of supernatant) at the bottom of the tube, and the tube was equilibrated with PBS at 25,000 rpm ( 82,700g), centrifuge at 2 °C for 2h; carefully remove the centrifuge tube, pour off the supernatant, invert the centrifuge tube to remove residual liquid; add 100 ⁇ L PBS, seal the centrifuge tube, place at 4 ° C for 2h, gently vortex every 20min
- the virus supernatant was collected by centrifugation at 500 g for 1 min (25 ° C); after cooling on ice, it was
- PBMC peripheral blood mononuclear cells
- V-VIVO15 added autologous AB (FBS) concentration of 5%, interleukin-2 (IL-2) concentration of 40 ng / mL, and the isolated PBMC was diluted to 2 ⁇ with the culture medium. 10 6 /mL, 50 ⁇ L flow detection of the purity of T cells in PBMC.
- FBS autologous AB
- IL-2 interleukin-2
- MCF7 cells 5 ⁇ 10 5 MCF7 cells were inoculated into 6-well plates one day before infection, and the packaged 500 ⁇ L PD was added when the cells grew to 80% the next day. -L1 virus was placed in a 6-well plate, control cells were set at the same time (no virus added), and the cells were changed after 12-16 hours. After 3 days of infection, the positive cells of Robo1 were sorted by flow.
- the killing effect of Slit2D2-CART cells on engineered cell line MCF-1/ROBO1 and Robo1-expressing hepatoma cell line SMCC7721 was detected by LDH release method, and LDH release was detected by ELISA.
- target cells to a 96-well cell culture plate and add 100 ⁇ L per well. Three wells were used as effector cells (Slit2D2-CART cells) to naturally release control wells, and no target cells were added, and only 100 ⁇ L of culture medium was added.
- effector cells Add 100 ⁇ L of effector cells to each well.
- the ratio of effector cells to target cells is 50:1; 25:1; 10:1; 5:1; 1:1. Self However, the release wells were not added with effector cells, only 100 ⁇ L of the culture solution was added, and the effector cells were incubated with the target cells for 6 hours, and three replicate wells were placed in each experiment.
- Killing rate experimental group LDH (OD) / maximum LDH release group (OD).
- Fig. 6 The results of in vitro killing experiments of Slit2D2CAR-T are shown in Fig. 6.
- the in vitro killing effect of Slit2D2 CAR-T cells on MCF-7/Robo1 and SMCC-7721 tumor cells under different effect ratios is shown in Fig. 7.
- the experimental results showed that the prepared Slit2D2CAR-T cells could significantly kill the target cell lines MCF-7/Robo1 and SMCC7721 with high expression of Robo1.
- the different ratios of effector cells Slit2D2CAR-T were incubated with the target cells for 4 hours. As the effector cell:target cell ratio increased, cell killing efficiency also increased (see Figures 7-8), and microscopic imaging showed significant death of tumor cells (see Figure 6).
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Abstract
一种嵌合抗原受体(CAR)及编码所述CAR的基因,所述CAR包括能够结合抗原的胞外结构域、跨膜结构域和胞内免疫共刺激分子,其中胞外结构域包括Slit2蛋白的D2结构域。一种嵌合抗体表达细胞,将编码所述CAR的基因引入细胞中,从而在细胞表面表达所述CAR。所述的嵌合抗原受体或嵌合抗原受体表达细胞可作为细胞药物用于肿瘤类疾病的治疗。采用该嵌合抗原受体用于改造细胞尤其是T细胞,使改造后的T细胞能够特异性识别和杀伤肿瘤,且具备更高效的肿瘤杀伤活性。
Description
本发明涉及肿瘤治疗药物领域,尤其涉及Slit2D2-嵌合抗原受体在预防和/或治疗Robo1高表达肿瘤的药物中的应用。
人体的T淋巴细胞是通过其表面的T细胞受体来识别靶细胞的,这一识别具有特异性,即某一个T淋巴细胞只识别具有特定抗原的靶细胞,而且这种特定的抗原是在细胞内加工后,在特殊分子的作用下呈递给T淋巴细胞的。这种起抗原呈递作用的分子或者存在于抗原呈递细胞表面或者存在于靶细胞表面。至少有两方面的因素导致体内的T淋巴细胞不能很好地识别癌细胞:(1)癌细胞下调抗原呈递分子的表达,(2)被呈递的抗原与T细胞受体亲和力很弱。虽然癌症患者体内存在癌细胞高度特异性的T淋巴细胞,但是数量太少起不到治疗癌症的作用。基于这种情况,科学家提出了构建嵌合T细胞受体(现在一般称为嵌合抗原受体)的概念。嵌合抗原受体(Chimeric Antigen Receptor,CAR)主要由两部分构成,一端位于细胞外能够特异性识别癌细胞表面的某一抗原,另一端位于胞内含有信号激活元件(如T细胞受体的Zeta链),起传递信号激活T细胞的作用。这样表达CAR的T淋巴细胞(CART细胞)就能避免T细胞受体识别靶细胞的限制,从而起到靶向癌细胞的杀伤作用。
目前,CART治疗的临床试验正在迅速增长,其中大部分是对B细胞恶性肿瘤治疗的评估。大多数B细胞恶性肿瘤和正常B细胞表达CD19抗原,但是其他类型的细胞没有CD19,因此CD19是一个很好的治疗靶点。不同的临床试验所采用的CD19CART细胞在组成上有一定差别,临床设计上也不一样,不过都报道了显著的效果,复发性或难治性淋巴细胞白血病的治疗能达到60-90%的反应率,一部分患者达到持续的缓解,最长的达到2年。虽然目前还不知道CD19CART治疗能达到多长时间的持续缓解,但是可以肯定的是这种免疫治疗已经给一些患者带来了以前所达不到的效果。
除了血液系统肿瘤外,研究者们一直在努力将CART治疗扩展到实体瘤。临床试验显示,GD2特异性的CART对神经母细胞瘤有一定的疗效,而aFR特异性的CART细胞对卵巢癌,CAIX特异性的CART细胞对肾细胞癌和PSMA特异性的CART细胞对前列腺癌没有显示出治疗效果。宾州大学的Carl H June等在2015年美国临床肿瘤学年会上报告了用间皮素特异性的CART细胞治疗难治的和转移的胰腺导管腺癌的结果,结果显示患者对CART细胞具有很好的耐受性,没有出现细胞因子综合征,周血中能短时期内检测到CART细胞,有2名患者病情得到稳定。因此,CART治疗实体瘤还处于早期阶段,还有许多问题需要解决。
Robo1是实体肿瘤治疗潜在新靶点,Robo是一次跨膜的受体蛋白,在哺乳动物中,已经克隆到4个Robo基因。从物种进化的角度看,Robo1,2,3的胞外部分非常的保守,从果蝇到人类都是由5个Ig样功能区和3个FibronectinIII型重复序列组成。Robos有很短的跨膜区域和一个较长的胞内区;按照序列的保守性,胞内区被划分为4个更小的区域,分别命名为:CC0,CC1,CC2,CC3。Robo4的结构与其它三个家族成员有很大的不同,它的胞外只有2个Ig样功能区和3个Fibronectin III型重复序列;胞内也只有CC0和CC2两个区域。Robos胞外的IgG domains被认为是与配体Slit结合所必需的,较长的胞内区域则和一些重要的信号分子相互作用,参与Slit/Robo下游的信号转导,从而完成刺激信号由细胞外部到内部骨架的传递。目前,已完成Slit2与Robo相互作用区域蛋白质的机构解析,发现Slit2的第二个结构域D2与Robo1的Ig1结合,进而启动信号传导。Slit2/Rono1相互作用三级结构解析参见附图1。
组织病理学检测显示Robo1在多种癌症中过表达,如肝细胞癌、乳腺癌、结肠癌、胰腺癌、前列腺癌、神经胶质瘤等。Ito等人的研究显示Robo1在肝癌中大量表达,而在正常组织中只有少量表达,且84.7%的肝癌组织样本为阳性表达,因此Robo1可以作为一种新的肝
细胞肿瘤相关抗原,是一种潜在的治疗和诊断靶标。等人的检测结果显示,80%的结肠癌患者的癌组织高度表达Robo1mRNA,45%的患者是正常组织4倍,15%的患者是正常组织的12倍,因此Robo1可以为结肠癌的治疗提供了一个潜在靶点。通过比较胰腺导管癌和其周围良性组织,He等人发现Robo1在癌组织中表达上调,而这种表达上调可能与胰腺癌细胞的淋巴转移相关。Huang等人的研究也表明Robo1与结肠癌的迁移有关。从http://xenobase.crownbio.com/XenoBase/index.aspx数据库中分析显示(参见附图2),大部分肿瘤细胞中高表达Robo1蛋白分子。从http://www.genecards.org/cgi-bin/数据库中分析(参见图3),在正常组织中低表达或不表达Robo1分子,提示Robo1是一个潜在的肿瘤治疗的新靶点。
本发明将开发一种针对Robo1抗原分子的嵌合抗原受体,将其表达于细胞中,可以用于Robo1高表达肿瘤的治疗。
发明内容
本发明的一个目的是提供一种预防和/或治疗Robo1高表达肿瘤的嵌合抗原受体。
本发明的另一个目的是提供一种预防和/或治疗Robo1高表达肿瘤的嵌合抗原受体表达细胞。
本发明的还一目的是提供一种预防和/或治疗Robo1高表达肿瘤的药物。
因此,本发明的第一方面提供了一种嵌合抗原受体,所述嵌合抗原受体包括能够结合抗原的胞外结构域、跨膜结构域和胞内免疫共刺激分子,其中所述胞外结构域包括Slit2蛋白的D2结构域。
本发明所述的Slit2蛋白D2结构域,简称Slit2D2,具有:
1)如SEQ ID No:1所示的氨基酸序列,或
2)将1)经过一个或几个氨基酸残基的取代和/或缺失和/或添加且具有相同功能的由其衍生的氨基酸序列。
优选的,所述嵌合抗原受体依次由Slit2蛋白的D2结构域、跨膜结构域和胞内免疫共刺激分子组成。
优选的,所述跨膜结构域包括CD28、CD3ε、CD45、CD4、CD5、CD8、CD9、CD16、CD22、CD33、CD37、CD134、CD137、ICOS、CD154跨膜结构域中的一种或多种。
优选的,所述跨膜结构域为CD8跨膜结构域。
本发明所述的CD8跨膜结构域具有:
3)如SEQ ID No:2所示的氨基酸序列,或
4)将3)经过一个或几个氨基酸残基的取代和/或缺失和/或添加且具有相同功能的由其衍生的氨基酸序列。
优选的,所述胞内免疫共刺激分子包括CD3ζ、CD3γ、CD3δ、CD3ε、CD5、CD22、CD79a、CD79b、CD66d、CD2、CD4、CD5、CD28、CD134、CD137、ICOS、CD154、4-1BB和OX40胞内结构域中的一种或多种。
优选的,所述胞内免疫共刺激分子由4-1BB和CD3ζ胞内结构域组成。
本发明所述的4-1BB胞内结构域具有:
5)如SEQ ID No:3所示的氨基酸序列,或
6)将5)经过一个或几个氨基酸残基的取代和/或缺失和/或添加且具有相同功能的由其衍生的氨基酸序列;
本发明所述的CD3ζ胞内结构域具有:
7)如SEQ ID No:4所示的氨基酸序列,或
8)将7)经过一个或几个氨基酸残基的取代和/或缺失和/或添加且具有相同功能的由其衍生的氨基酸序列。
优选的,本发明所述的嵌合抗原受体由Slit2蛋白的D2结构域、CD8跨膜结构域、4-1BB胞内结构域和CD3ζ胞内结构域组成,简称Slit2D2-CD8TM-4-1BB-CD3ζ,也称为Slit2D2-CAR。
本发明所述的Slit2D2-CD8TM-4-1BB-CD3ζ具有:
9)如SEQ ID No:5所示的氨基酸序列,或
10)将9)经过一个或几个氨基酸残基的取代和/或缺失和/或添加且具有相同功能的由其衍生的氨基酸序列。
优选的,所述的嵌合抗原受体中,所述一个或几个氨基酸残基的取代和/或缺失和/或添加为不超10个氨基酸残基的取代和/或缺失和/或添加。
本发明所述的Slit2蛋白D2结构域通过C末端与CD8跨膜结构域的N末端直接连接,或Slit2蛋白D2结构域通过其N末端与的CD8跨膜结构域C末端直接连接,即Slit2蛋白D2结构域与CD8跨膜结构域直接连接,中间没有任何连接肽。
本发明还提供一种编码本发明所述嵌合抗原受体的基因,所述嵌合抗原受体包括能够结合抗原的胞外结构域、跨膜结构域和胞内免疫共刺激分子,其中所述胞外结构域包括Slit2蛋白的D2结构域。本发明所述的Slit2蛋白D2结构域,简称Slit2D2,其基因序列如SEQ ID No:6所示。
优选的,所述的嵌合抗原受体由Slit2蛋白的D2结构域、CD8跨膜结构域、4-1BB胞内结构域和CD3ζ胞内结构域组成,简称Slit2D2-CD8TM-4-1BB-CD3ζ,其中,所述的Slit2蛋白D2结构域的基因序列如SEQ ID No:6所示,所述的CD8跨膜结构域的基因序列如SEQ ID No:7所示,所述的4-1BB胞内结构域的基因序列如SEQ ID No:8所示,所述的CD3ζ胞内结构域的基因序列如SEQ ID No:9所示。
本发明所述的Slit2D2-CD8TM-4-1BB-CD3ζ的基因序列如SEQ ID NO:10所示;
或者,在严格条件下与SEQ ID NO:10所示的序列杂交且编码具有预防和/或治疗肿瘤的相关蛋白的DNA分子;
或者,与SEQ ID NO:10所示的序列具有至少90%以上,优选为95%以上,更优选为98%以上同源性且编码具有预防和/或治疗肿瘤的相关蛋白的DNA分子。
本发明还提供了一种与嵌合抗原受体相关的生物材料,包括含有本发明所述编码嵌合抗原受体的基因的重组载体、表达盒、重组细胞、重组菌、重组病毒。优选的,本发明所述的重组载体为重组表达载体或重组克隆载体。
本发明所述的嵌合抗原受体(CAR)可人工合成,也可先合成其编码基因,再进行生物表达得到。本发明合成编码基因可通过常规方法,从指定CAR的氨基酸序列,容易地制备编码CAR的碱基序列,由氨基酸序列的NCBI Ref Seq ID或GenBenk检索号得到编码氨基酸序列的碱基序列,并且可使用标准分子生物学和/或化学程序制备本发明的核酸。例如,可根据碱基序列合成核酸,将得自cDNA数据库的DNA片段通过聚合酶链式反应(PCR)制备本发明的核酸。
本发明的第二方面是提供一种嵌合抗原受体表达细胞,所述嵌合抗原受体表达细胞为在细胞中引入了本发明所述的编码嵌合抗原受体的基因。
本发明中,细胞可来自哺乳动物的细胞(例如人细胞、小鼠、大鼠、猴)的细胞,可使用采集、分离、纯化或诱导自体液、组织或器官例如血(外周血、脐带血等)或骨髓的细胞。优选的,细胞是T细胞或含有T细胞的细胞群(例如PBMC),更优选的,T细胞来源于人外周血的T细胞。
优选的,所述嵌合抗原受体为Slit2D2-CD8TM-4-1BB-CD3ζ,记为Slit2D2-CAR,其中,所述的Slit2D2-CD8TM-4-1BB-CD3ζ的基因序列如SEQ ID NO:10所示;
或者,在严格条件下与SEQ ID NO:10所示的序列杂交且编码具有预防和/或治疗肿瘤的相关蛋白的DNA分子;
或者,与SEQ ID NO:10所示的序列具有至少90%以上,优选为95%以上,更优选为98%以上同源性且编码具有预防和/或治疗肿瘤的相关蛋白的DNA分子。
优选的,所述嵌合抗原受体表达细胞为在T细胞中引入编码Slit2D2-CD8TM-4-1BB-CD3ζ的基因,记为Slit2D2-CART。
本发明还提供了一种制备嵌合抗原受体表达细胞的方法,包括将本发明所述的编码嵌合抗原受体的基因引入细胞中的步骤。
本发明中,将编码嵌合抗原受体的基因引入细胞中具体包括如下步骤:
合成和扩增嵌合抗原受体基因,将所述基因克隆至表达载体上;
利用包装质粒和表达载体转染细胞;
使细胞表达嵌合抗原受体,其中,在细胞表面表达Slit2D2分子。
本发明中,细胞可来自哺乳动物的细胞(例如人细胞、小鼠、大鼠、猴)的细胞,可使用采集、分离、纯化或诱导自体液、组织或器官例如血(外周血、脐带血等)或骨髓的细胞。优选的,细胞是T细胞或含有T细胞的细胞群(例如PBMC),更优选的,T细胞来源于人外周血的T细胞。
本发明中,表达载体可使用缺乏复制能力、无法在转染细胞中自我复制的病毒载体例如逆转录病毒载体(包括致癌逆转录病毒载体、慢病毒载体和假型载体)、腺病毒载体、痘苗病毒载体或HSV载体等。本发明中可根据逆转录病毒选择广泛市售的多种类的可用于包装逆转录病毒载体的包装质粒,也可使用具有高转染效率的293细胞或293T细胞制备逆转录病毒颗粒。
优选的,所述嵌合抗原受体为Slit2D2-CD8TM-4-1BB-CD3ζ,记为Slit2D2-CAR,其中,所述的Slit2D2-CD8TM-4-1BB-CD3ζ的基因序列如SEQ ID NO:10所示;
或者,在严格条件下与SEQ ID NO:10所示的序列杂交且编码具有预防和/或治疗肿瘤的相关蛋白的DNA分子;
或者,与SEQ ID NO:10所示的序列具有至少90%以上,优选为95%以上,更优选为98%以上同源性且编码具有预防和/或治疗肿瘤的相关蛋白的DNA分子。
优选的,制备嵌合抗原受体表达细胞的方法包括将编码Slit2D2-CD8TM-4-1BB-CD3ζ的基因引入T细胞中的步骤。
在本发明一个具体的实施方式中,制备嵌合抗原受体表达细胞的方法具体包括如下步骤:
合成和扩增Slit2D2-CD8TM-4-1BB-CD3ζ基因,所述基因序列如SEQ ID NO:10所示,将所述基因克隆至慢病毒表达载体上;
利用慢病毒包装质粒和慢表达载体转染293T细胞,包装和制备慢病毒;
分离人外周血T细胞,培养扩增,利用慢病毒转染T细胞,使T细胞表达Slit2D2-CD8TM-4-1BB-CD3ζ,其中,在T细胞表面表达Slit2D2分子,胞内由4-1BB-CD3ζ分子传递T细胞活化信号。
本发明的第三方面提供了一种药物组合物,包括本发明所述的嵌合抗原受体或本发明所述的嵌合抗原受体表达细胞以及药学上可接受的辅料。
本发明所述的药物组合物可以为片剂(包括糖衣片剂,膜包衣片剂,舌下片剂,口腔崩解片,口腔片剂等等),丸剂,粉剂,颗粒剂,胶囊剂(包括软胶囊,微胶囊),锭剂,糖浆剂,液体,乳剂,混悬剂,控制释放制剂(例如,瞬时释放制剂,缓释制剂,缓释微囊),气雾剂,膜剂(例如,口服崩解膜剂,口腔粘膜-粘附膜剂),注射剂(例如,皮下注射,静脉注射,肌内注射,腹膜内注射),静脉滴注剂,透皮吸收制剂,软膏剂,洗剂,粘附制剂,栓剂(例如,直肠栓剂,阴道栓剂),小药丸,鼻制剂,肺制剂(吸入剂),眼睛滴剂等等,口服或胃肠外制剂(例如,静脉内,肌内,皮下,器官内,鼻内,皮内,滴注,脑内,直肠内等给药形式,给药至肿瘤的附近和直接给药至病变处)。优选的,所述的药物组合物为注
射剂。
本发明所述的药学上可接受的辅料优选为药学上可接受的注射剂辅料,例如等渗的无菌盐溶液(磷酸二氢钠、磷酸氢二钠、氯化钠、氯化钾、氯化钙、氯化镁等,或上述盐的混合物),或干燥的例如是冷冻干燥的组合物,其适当地通过加入无菌水或生理盐水形成可注射溶质。
本发明第四方面提供一种本发明所述嵌合抗原受体或嵌合抗原受体表达细胞在预防和/或治疗Robo1高表达肿瘤中的应用。
本发明第五方面提供一种本发明所述嵌合抗原受体或嵌合抗原受体表达细胞在预防和/或治疗Robo1高表达肿瘤的药物中的应用。
本发明所述Robo1高表达肿瘤包括乳腺癌、肝癌、肺癌、胰腺癌、宫颈癌、卵巢癌、直肠癌、胃癌、结肠癌、前列腺癌、神经胶质瘤等。
本发明采用Slit2D2构建嵌合抗原受体(Slit2D2-CAR),并用于修饰和改造细胞,尤其是将Slit2D2-CAR用于修饰和改造T细胞从而构建Slit2D2-CART细胞,以Robo1分子为靶抗原,利用Slit2D2-CART细胞杀伤肿瘤细胞,并作为细胞药物用于肿瘤类疾病的治疗。采用本发明嵌合抗原受体,使改造后的细胞尤其是T细胞能够特异性识别和杀伤肿瘤,且具备更高效的肿瘤杀伤活性。
图1Slit2/Robo1相互作用三级结构解析示意图;
图2Robo1基因在肿瘤细胞中的表达分析;
图3Robo1基因在组织中的表达分析;
图4为本发明PRRSLIN-Slit2D2慢病毒表达载体示意图;
图5为本发明高表达Robo1的工程细胞株MCF7/ROBO1流式检测结果图;
图6为本发明Slit2D2CAR-T体外杀伤实验结果;
图7为本发明不同效靶比条件下Slit2D2CAR-T细胞对MCF-7/ROBO1的体外杀伤效果图;
图8为本发明不同效靶比条件下Slit2D2CAR-T细胞对SMCC-7721肿瘤细胞的体外杀伤效果图。
本发明中术语“嵌合抗原受体(CAR)”是指包含能够结合抗原的胞外结构域、跨膜结构域和胞内免疫共刺激分子的融合蛋白,“嵌合抗原受体(CAR)”也称为“嵌合受体”、“T-body”或“嵌合免疫受体(CIR)”,“能够结合抗原的胞外结构域”是指可结合特定抗原的任何寡肽或多肽。“跨膜结构域”是指衍生自自任何膜结合蛋白或跨膜蛋白的多肽或者主要包含疏水性残基例如亮氨酸和缬氨酸的人工合成的多肽。“胞内免疫共刺激分子”是指已知在细胞中作为传输信号以引起生物过程的活化或抑制的结构域起作用的任何寡肽或多肽。
本发明中术语“结构域”是指是生物大分子中具有特异结构和独立功能的区域,例如Slit2蛋白D2结构域是指Slit2蛋白中4个富含亮氨酸的重复序列中的第二结构域。
本发明中术语“Slit2蛋白”是指神经迁移蛋白,是一种在进化上高度保守的分泌型细胞外基质糖蛋白,分子量约为200kD,对轴突生长和神经元迁移起导向作用,其结构由N端的胞外分泌信号肽,4个富含亮氨酸的重复序列(leucine-rich repeat,LRRs),也被命名为D1-D4结构域,多个表皮生长因子(epidermal growth factor,EGF)样的重复序列(在果蝇中是7个,在脊椎动物中是9个),一个laminin G样结构域和一个富含半胱氨酸的C端结构域组成。
本发明中术语“Robo1”是一种单通道的跨膜受体蛋白,为Slit蛋白的受体,其胞外区包括5个免疫球蛋白保守区和3个纤连蛋白III型重复序列,胞内区包括CC0,CC1,CC2和CC3
四个保守的区域。
本发明中术语“预防”或“治疗”包括治疗性或预防性处理或措施,目标是预防或减慢靶向的病理性状况或病症。如果根据本发明的方法接收治疗量的本发明所述融合蛋白后,对象表现出可观察和/或可测量的特定疾病一个或多个体征和症状的减少或消失,则该对象被成功“预防”或“治疗”。
以下所提供的实施例,可以更详细地解释本发明内容。但是,本发明的内容并不限于以下实施例所阐述的内容。
实施例1慢病毒表达载体制备
1.根据已知的Slit2序列[GenBank:EAW92793.1]分析设计构建Slit2的第二个结构域Slit2D2(Hohenester2008),从GenBank数据库中搜寻已知的人CD8TM跨膜区基因序列、人4-1BB胞内区基因序列和CD3ζ胞内区基因序列,各基因序列表参见序列表SEQ ID NO:6-9。
2.将上述基因序列依次按人Slit2D2基因、CD8TM膜区基因、人4-1BB胞内区基因和CD3ζ胞内区基因进行连接,在各序列连接处引入不同的酶切位点,形成完整的Slit2D2-CD8TM-4-1BB-CD3ζ(简称Slit2D2-CAR)基因序列信息,其序列参见序列表SEQ ID NO:10。
3.将Slit2D2-CD8TM-4-1BB-CD3ζ的基因序列通过酶切转化连接到PRRSLIN载体中,基因上游为EP-1α启动子。将载体转化到Stbl3大肠杆菌菌株后,转种到含有氨苄青霉素的固体培养基中进行繁殖,筛选,获得阳性克隆,提取质粒,酶切鉴定克隆,通过测序确认载体构建成功,获得PRRSLIN-Slit2D2慢病毒表达载体,慢病毒表达载体构建示意图参见附图3。
实施例2慢病毒制备
1.转染前24小时,以每皿约8×106将293T细胞接种至15cm培养皿中。确保转染时细胞在80%左右的汇合度且均匀分布于培养皿中。
2.准备溶液A和溶液B
溶液A:6.25mL 2×HEPES buffer缓冲液(采用5个大皿一起包装的量,效果最好)。
溶液B:分别加入以下质粒的混合物:112.5μg pRRLSIN-EF-PD1(target plasmid);39.5μg pMD2.G(VSV-G envelop);73μg pCMVR8.74(gag,pol,tat,rev);625μL 2M钙离子溶液。溶液A总体积:6.25mL。
3.充分混匀溶液B,轻轻涡旋溶液A的同时,逐滴加入溶液A,静置5-15分钟。轻轻涡旋上述A和B的混合溶液,逐滴加入含293T细胞的培养皿中,轻轻前后晃动培养皿使DNA与钙离子的混合物均匀分布。(不要旋转培养皿)放置于培养箱中培养16-18小时。
更换新鲜培养基,继续培养,分别在48小时和72小时后收集含病毒的上清液。采用荧光显微镜观察,95%以上的细胞显示绿色荧光。
在转速500g,温度25℃下离心10min,使用PES膜(0.45μm)过滤;以70%乙醇消毒离心管(贝克曼库尔特ultra-clear SW28centrifuge tubes),并置于紫外灯下消毒30min;将已过滤的含慢病毒的上清液转移至离心管中,在离心管底部小心铺上一层20%蔗糖(每8mL上清液加1mL蔗糖),以PBS平衡离心管,在转速25,000rpm(82,700g),温度4℃下离心2h;小心取出离心管,倒掉上清液,倒置离心管去掉残余液体;加入100μL PBS,密封离心管,在4℃放置2h,每20min轻轻涡旋一次,500g离心1min(25℃),收集病毒上清;冰上冷却后,置于-80℃保存。
实施例3Slit2D2-CART细胞制备
1.取0.5mL血进行快速的病原微生物检测,排除HBV、HCV、HDV和HEV、HIV-1/2、梅毒螺旋体及寄生虫等微生物感染;无菌条件下,用肝素瓶采血50mL(肝素抗凝),立即(4℃,24小时内)送至细胞制备实验室,保证此过程无病原微生物污染。得到患者血液后,在GMP制备室,用酒精棉球擦拭肝素瓶表面进行消毒后放入生物安全柜。
2.预先打开2个50mL离心管,将血液转入两个50mL离心管中,旋紧;将上述装好血
液的两个50mL离心管放入离心机离心,400g(2000rpm)离心10min,室温离心后收集上层血浆,留下沉淀层;收集的自体血浆经56℃,30min灭活,4℃放置15min后,900g,离心30min(4℃),取上清备用。
3.将上述富集的血细胞用生理盐水稀释至30mL/管,打开2个新的50mL离心管,每个离心管分别加入15mL人淋巴细胞分离液,用移液管把稀释后的血细胞液缓缓加入到盛有人淋巴分离液的离心管中,旋紧。注意血液要加到淋巴分离液的上层,勿打破人淋巴分离液的界面。将加好的血细胞液放入离心机,调至最小的升降速率,400g(2000rpm)离心20min(常温)。收集两管的中层白细胞层于一支15mL无菌离心管中,加入5mL生理盐水,洗两次(400g,离心10min),得外周血单核细胞(PBMC)。
4.配置完全生长培养基,V-VIVO15添加自体AB(FBS)浓度为5%,白细胞介素-2(IL-2)浓度为40ng/mL,将分离得到的PBMC用培养基稀释成2×106/mL,取50μL流式检测PBMC中T细胞的纯度。
5.Day 0,配置缓冲液(在PBS缓冲液中添加1%的胎牛血清(FBS)),选用微珠作为细胞培养载体,将微珠振荡30s或手动上下摇匀5min,按照微珠与T细胞的用量比为3:1取CD3/CD28微珠置于1.5mL EP管中,添加1mL缓冲液清洗微珠,之后使用磁铁从EP管向外吸微珠1min,弃洗液,重复两次,再使用培养基将微珠重悬到原体积,将细胞和微珠混合后按2×106PBMC/mL加到合适的培养瓶中。
6.Day 2将细胞密度调整至3-5×106/mL,按病毒载体与细胞的比例为1:5添加实施例1制备得到的PRRSLIN-Slit2D2慢病毒表达载体,同时添加聚凝胺(polybrene)4μg/mL和40ng/mL IL-2。4h之后,补加新鲜的完全培养基将细胞密度调整至1×106/mL继续培养。将所有的细胞离心,加入新鲜的培养基,继续培养。
7.每隔2-3天进行半量换液,维持细胞密度在0.5-1×106/mL。
8.Day 10-12,细胞数量达到109级别,在400g下离心5min得到免疫细胞,再用预冷的PBS洗涤两遍(400g,5min)。
9.用血球计数板计数,流式细胞仪检测细胞类群,CART细胞比例。每天观察培养基的颜色变化、细胞密度、细胞形态并作相应记录。逐步扩大培养过程中,加入总体积所需的白细胞介素-2。
实施例4:工程细胞株的构建及检测
1.用于构建高表达Robo1工程细胞株的慢病毒的制备(具体制备方法见实施例2中的方法)。
2.人乳腺癌(MCF7)细胞的侵染:侵染前一天,接种5×105个MCF7细胞于6孔板中,待第二天细胞长到80%时,加入包装好的500μL的PD-L1病毒于6孔板中,同时设置对照细胞(不添加病毒),12-16小时后换液,侵染3天后,流式分选Robo1的阳性细胞。
3.工程细胞株的检测:取分选的Robo1的阳性细胞2×105个,在转速400g下离心5min,再用预冷的PBS洗涤两遍,加入2.5μL的Robo1的抗体(Biolegend)避光孵育20min,离心,再用预冷的PBS洗涤1遍,100μL PBS重悬细胞,流式检测Robo1的表达,检测结果参见附图5,实验结果证明工程细胞株构建成功,可作为靶细胞用于后续杀伤实验。
实施例5Slit2D2-CART细胞体外活性检测
采用LDH释放法检测Slit2D2-CART细胞对工程细胞株MCF-1/ROBO1和高表达Robo1的肝癌细胞系SMCC7721细胞的杀伤效应,通过ELISA方法检测LDH释放。
1.用含5%小牛血清的RPMI-1640培养液将靶细胞调整到5×104/mL。
2.在96孔细胞培养板中加入靶细胞,每孔加100μL。取3个孔作为效应细胞(Slit2D2-CART细胞)自然释放对照孔,不加靶细胞,仅加100μL培养液。
3.向各孔加100μL效应细胞,效应细胞与靶细胞的比例50:1;25:1;10:1;5:1;1:1。自
然释放孔不加效应细胞只加100μL培养液,效应细胞与靶细胞共孵育6小时,每个实验置三个复孔。
4.最大释放孔中(阳性对照)加10μL Lysis Solution(10×),孵育45min-60min,每个实验置三个复孔。
5.取上述3和4中待测样品和对照样品各50μL,加入新鲜的96孔酶标板中,再加入反应液和底物,避光30min。
6.加入50μL终止液。
7.在酶联检测仪上测定各孔的光密度(OD值),检测波长490nm或492nm,在1小时内测完。
8.特异性杀伤效率计算
杀伤率=实验组LDH(OD)/最大LDH释放组(OD)。
计算公式:杀伤效率=(实验组-效应自然释放-靶自然释放)/(靶最大释放-靶自然释放)×100%
Slit2D2CAR-T体外杀伤实验结果参见附图6,不同效靶比条件下Slit2D2CAR-T细胞对MCF-7/Robo1和SMCC-7721肿瘤细胞的体外杀伤效果图参见附图7。由实验结果显示,制备的Slit2D2CAR-T细胞能够显著杀伤高表达Robo1的靶细胞株MCF-7/Robo1和SMCC7721,不同比例的效应细胞Slit2D2CAR-T与靶细胞共孵育4小时后,ELISA实验结果显示,随着效应细胞:靶细胞比例的增加,细胞杀伤效率也逐渐增加(参见附图7-8),显微成像显示肿瘤细胞发生明显死亡(参见附图6)。
Claims (12)
- 一种嵌合抗原受体,所述嵌合抗原受体包括能够结合抗原的胞外结构域、跨膜结构域和胞内免疫共刺激分子,其中,所述胞外结构域包括Slit2蛋白的D2结构域,所述Slit2蛋白的D2结构域具有:1)如SEQ ID No:1所示的氨基酸序列,或2)将1)经过一个或几个氨基酸残基的取代和/或缺失和/或添加且具有相同功能的由其衍生的氨基酸序列。
- 如权利要求1所述的嵌合抗原受体,其特征在于:所述跨膜结构域包括CD28、CD3ε、CD45、CD4、CD5、CD8、CD9、CD16、CD22、CD33、CD37、CD134、CD137、ICOS、CD154跨膜结构域中的一种或多种;和/或,所述胞内免疫共刺激分子包括CD3ζ、CD3γ、CD3δ、CD3ε、CD5、CD22、CD79a、CD79b、CD66d、CD2、CD4、CD5、CD28、CD134、CD137、ICOS、CD154、4-1BB和OX40胞内结构域中的一种或多种。
- 如权利要求2所述的嵌合抗原受体,其特征在于:所述嵌合抗原受体由Slit2蛋白的D2结构域、CD8跨膜结构域、4-1BB胞内结构域和CD3ζ胞内结构域组成,记为Slit2D2-CD8TM-4-1BB-CD3ζ,所述的Slit2D2-CD8TM-4-1BB-CD3ζ具有:9)如SEQ ID No:5所示的氨基酸序列,或10)将9)经过一个或几个氨基酸残基的取代和/或缺失和/或添加且具有相同功能的由其衍生的氨基酸序列。
- 一种编码嵌合抗原受体的基因,所述嵌合抗原受体包括能够结合抗原的胞外结构域、跨膜结构域和胞内免疫共刺激分子,其中,所述胞外结构域包括Slit2蛋白的D2结构域,所述Slit2蛋白的D2结构域基因序列如SEQ ID No:6所示。
- 如权利要求4所述的编码嵌合抗原受体的基因,其特征在于:所述的嵌合抗原受体由Slit2蛋白的D2结构域、CD8跨膜结构域、4-1BB胞内结构域和CD3ζ胞内结构域组成,记为Slit2D2-CD8TM-4-1BB-CD3ζ,其中,所述Slit2D2-CD8TM-4-1BB-CD3ζ的基因序列如SEQ ID NO:10所示;或者,在严格条件下与SEQ ID NO:10所示的序列杂交且编码具有预防和/或治疗肿瘤的相关蛋白的DNA分子;或者,与SEQ ID NO:10所示的序列具有至少90%以上或95%以上或98%以上同源性且编码具有预防和/或治疗肿瘤的相关蛋白的DNA分子。
- 包含如权利要求4或5所述编码嵌合抗原受体的基因的重组载体、表达盒、重组细胞、重组菌或重组病毒。
- 一种嵌合抗原受体表达细胞,所述嵌合抗原受体表达细胞为在细胞中引入了如权利要求4或5所述的编码嵌合抗原受体的基因。
- 如权利要求7所述的嵌合抗原受体表达细胞,其特征在于:所述细胞为T细胞或含有T细胞的细胞群。
- 一种制备嵌合抗原受体表达细胞的方法,包括将权利要求4或5所述的编码嵌合抗原受体的基因引入细胞中的步骤,其中,所述将编码嵌合抗原受体的基因引入细胞中的步骤包括:合成和扩增如权利要求4或5所述的编码嵌合抗原受体的基因,将所述基因克隆至表达载体上;利用包装质粒和表达载体转染细胞;使细胞表达嵌合抗原受体,其中,在细胞表面表达Slit2D2分子。
- 如权利要求9所述的制备嵌合抗原受体表达细胞的方法,其特征在于:所述细胞为T细胞或含有T细胞的细胞群。
- 一种药物组合物,其特征在于:包括如权利要求1-3任一项所述的嵌合抗原受体或者 如权利要求7或8所述的嵌合抗原受体细胞,以及药学上可接受的辅料。
- 如权利要求1-3任一项所述的嵌合抗原受体或者如权利要求7或8所述的嵌合抗原受体细胞在制备预防和/或治疗Robo1高表达肿瘤药物中的应用。
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