CN115785209A - Lung cancer specific molecular target 06 and application thereof - Google Patents
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- CN115785209A CN115785209A CN202210658402.5A CN202210658402A CN115785209A CN 115785209 A CN115785209 A CN 115785209A CN 202210658402 A CN202210658402 A CN 202210658402A CN 115785209 A CN115785209 A CN 115785209A
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Images
Abstract
The invention discloses a novel lung cancer specific molecular target 06 and application thereof. The specific molecular target and the autoimmune cells of the subject are co-cultured, and the tumor cells are killed in a targeted manner after being back infused into the subject, so that the purpose of treating the tumor can be realized. The DC cell activated by the molecular target is detected by the molecular target monoclonal antibody, and the load positive rate is more than 90 percent. Further, the activated DC cells highly express CD80 and CD86 and are presented to T lymphocytes as CTL or MCTL cells specifically recognizing lung cancer cells. Clinical treatment effects show that PR, CR and objective remission rate of the MCTL single-use and MCTL and chemotherapy drug combined treatment on the lung cancer are superior to those of single-use chemotherapy drugs, and the difference has statistical significance.
Description
Technical Field
The invention relates to the field of immunology, in particular to a novel lung cancer specific molecular target and application thereof.
Background
Malignant tumors are one of the major diseases that seriously affect human health and threaten human life. It is very important for early diagnosis and timely treatment. In the last 20 years, the development of medical diagnosis technology is very rapid, new diagnosis methods are emerging continuously, not only tumors as small as 0.5-1.0 cm can be found, but also the range of the tumors can be judged correctly, and nevertheless, doctors can only make clinical diagnosis on middle and late stage cancers.
Current diagnosis of tumors relies primarily on physical examination, imaging, pathology, and related laboratory tests. The physical examination is an important part of tumor diagnosis, and the local examination of key organs is carried out by combining the medical history on the basis of comprehensive and systematic examination. With the development of medical diagnostic techniques and the updating of diagnostic instruments, various imaging examinations also play an important role in the diagnosis of tumors. Including X-ray fluoroscopy, radiography, tomography, ultrasonography, radionuclide scanning, and selective angiography, among others, can provide a definitive localized diagnosis of tumors. Laboratory tests have an important diagnostic aid for tumors, including enzymatic and immunological tests. The immunological examination is based on that the metabolism and chemical composition of cancer cells are different from those of normal cells, and new antigen substances can appear, such as Alpha Fetoprotein (AFP) appearing in the serum of primary liver cancer patients, serum carcinoembryonic antigen (CEA) of colon cancer, gastric fluid thioglobulin (FSA) of gastric cancer, gastric cancer-associated antigen (GCAA), alpha 2 glycoprotein (alpha 2 GP) and the like.
Surgery treatment, radiotherapy and chemotherapy are conventional treatment means for tumors, but the problems of metastasis and recurrence of the tumors are difficult to break through. For surgery, local treatment is thorough, but the trauma is large, the disease is not effective on tiny and metastatic lesions, and the postoperative recurrence or metastasis rate is high. About 70% of patients with tumors lose surgical opportunity to find the tumor; more than 60% of patients will relapse within 2-5 years after surgery. For radiotherapy and chemotherapy, postoperative radiotherapy and chemotherapy can reduce the recurrence rate of patients, but the clinical application of radiotherapy and chemotherapy is limited because toxic and side effects cannot be tolerated; excessive radiotherapy and chemotherapy damages and destroys the immune system of the patient, and accelerates the death of the tumor patient.
At present, cellular immunotherapy becomes a new tumor treatment scheme, which employs biotechnology and biological agents to perform in vitro sorting, induction, culture and amplification on immune cells collected from a patient body, and then the immune cells are returned to the patient body to directly act on tumor cells or achieve the purpose of treating tumors by stimulating and enhancing the autoimmune function of the body. However, although tumor cell immunotherapy has been recognized as the fourth therapy following three major traditional tumor treatments, it still has the problem of being non-negligible with few tumor-specific antigens.
In the DC-CIK cell technology, dendritic cells (DC cells) are subjected to antigen loading, and most of used antigens are tumor tissue lysates, tumor cell lines or antigens reported at home and abroad. The biggest problem with these antigens is that no specific screening has been performed, i.e. no specific screening has been performed on the normal tissue pool and the tumor tissue pool. On the other hand, these antigens have cross-reactivity and poor specificity, and it is difficult to efficiently amplify and mature DC cells in vitro, and it is thus difficult to induce specific CTLs.
In addition, cellular immunotherapy also has the drawback of long preparation period. This is because, in the early stage, the whole gene in the individual tumor cell needs to be sequenced and analyzed, after finding the mutation site, the corresponding antigen is synthesized, and then culture and feedback of the DC cell are performed. This treatment protocol has high specificity, but it takes a long time to perform gene sequencing and synthesize proteins by gene translation, and it takes about 1 to 2 months from the start of detection to culture of qualified DC cells, and the patient waiting time is long in clinical application.
With the continuous and intensive research on molecular biology and immunology, researchers have recognized that the detection and treatment of tumors have risen to the epitope peptide level, and safe and effective multi-target, high-specificity, individualized tumor targeted therapy technology is becoming the main direction of tumor treatment.
Disclosure of Invention
In order to solve the problems of the prior art, the present invention provides a lung cancer specific polypeptide or oligopeptide capable of stimulating and activating Antigen Presenting Cells (APCs) so that the APC presents specific antigens for lung cancer, and thus the organism can generate immune cells specifically targeting lung cancer cells, thereby realizing specific cellular immunotherapy.
The present inventors have conducted diligent screening, identification and efficacy verification in order to provide lung cancer-specific oligopeptides or polypeptides. Specifically, the inventors of the present invention performed the following operations. Serum from lung cancer patients was enriched and purified. Then, mass spectrum detection is carried out on the enriched and purified serum, and specific oligopeptides or polypeptides aiming at the lung cancer are screened and identified. Furthermore, the inventor hydrolyzes the serum of a tumor patient to obtain a peptide segment, and obtains the amino acid sequence of the peptide segment through ultra-high performance liquid chromatography and mass spectrometry; and comparing the amino acid sequence with a peptide library, and selecting a peptide segment which is not expressed with a negative tissue in the peptide library and is only expressed by the lung cancer tissue as a molecular target, wherein the negative tissue is a non-lung cancer tissue, such as a normal tissue and other tumor tissues, such as a lung cancer tissue, a stomach cancer tissue and a colorectal cancer tissue.
Accordingly, the present invention provides a polypeptide comprising the amino acid sequence: IANITTVW (SEQ ID NO: 6). Illustratively, the polypeptide consists of SEQ ID NO: 6.
Preferably, the polypeptides of the invention are capable of binding to MHC (major histocompatibility complex) and forming a complex polypeptide-MHC. Illustratively, the polypeptides of the invention are capable of binding to HLA molecules and forming complex polypeptide-HLA. Further, the complex is capable of being recognized by T cells. Preferably, the MHC or HLA is present on an Antigen Presenting Cell (APC).
IANITTVW (SEQ ID NO: 6) has 8 amino acid residues. Thus, it will be understood that the polypeptides of the invention should be allowed to have a length in which they bind to mhc i or mhc ii molecules, for example a length of 8 to 45, 8 to 40, 8 to 35, 8 to 30, or 8 to 25 amino acids. For example, the polypeptide may consist of 8 to 18, 8 to 19, 8 to 20, 8 to 18, 8 to 17, 8 to 16, 8 to 15, 8 to 14, 8 to 13, 8 to 12, 8 to 11, 8 to 10, 8 to 9 amino acid residues. In theory, antigenic peptides that bind to MHC molecules can be longer because longer polypeptides contain portions of the MHC-binding motif, with amino acid segments other than the motif flanking or flanking the binding region.
The invention also provides a fusion protein comprising the polypeptide of the invention. Since one of the objects of the present invention is to present the polypeptide of the present invention on APC and further stimulate or induce CTL production. Therefore, the length of the fusion protein should not be too long, since too long a fusion protein will still be cleaved before it can be presented to the APC. Thus, illustratively, the fusion protein will be no more than 100Aa in length, e.g., 45-100, 45-80, 45-60, 45-55Aa, and the like.
The invention also provides a complex comprising an MHC or an HLA, and a polypeptide or fusion protein of the invention.
The present invention also provides a method of stimulating and activating APC cells, comprising the step of contacting the polypeptide of the present invention and the APC cells to be activated, thereby loading the APC cells with the polypeptide as a molecular target.
The present invention also provides an isolated activated APC cell presenting a polypeptide of the present invention or a complex thereof, a polypeptide-HLA complex or a polypeptide-MHC complex on the surface of the cell. Illustratively, the isolated APC is obtained by contacting and culturing the polypeptide of the present invention as a molecular target with the APC cells to be activated.
Since the polypeptide of the invention is a tumor (lung cancer) -specific antigen, the invention also relates to molecules (e.g. antibodies) capable of specifically binding to the polypeptide of the invention for use in the detection of a tumor (lung cancer) -specific antigen in the blood of a subject, for diagnostic purposes, or for therapeutic purposes.
Thus, the invention also provides a method of detecting the risk of a subject having lung cancer, wherein the method comprises the step of contacting the blood or serum of the subject with the molecule (e.g., antibody) that specifically binds to a polypeptide of the invention, e.g., by ELISA.
The present invention also provides a test agent for testing a subject for risk of lung cancer, comprising the molecule (e.g., antibody) that specifically binds to the polypeptide of the present invention.
The invention also provides a T Cell Receptor (TCR) capable of binding to a polypeptide of the invention or a complex thereof.
The invention also provides the use of a polypeptide, fusion protein, complex or tandem polypeptide of the invention for activating an immune cell, such as an APC cell or T cell.
The invention also provides the use of the polypeptide, fusion protein, complex, tandem polypeptide of the invention, for example, in the preparation of a medicament for preventing or treating cancer (e.g., lung cancer).
The invention also provides a pharmaceutical composition or medicament comprising a pharmaceutically acceptable carrier and a peptide, complex, fusion protein, tandem polypeptide, isolated cell (e.g., APC or T cell) of the invention.
Illustratively, the medicament or the pharmaceutical composition is a vaccine.
The present invention also provides a method for preventing or treating a disease (e.g., lung cancer) comprising administering to a subject in need thereof an effective amount of a polypeptide, complex, fusion protein, tandem polypeptide, or cell of the present invention.
The invention also provides a cytotoxic T Cell (CTL) specifically aiming at the lung cancer, which comprises the step of co-culturing the APC cell loaded with the molecular target and the T cell so as to obtain the cytotoxic T Cell (CTL) specifically aiming at the lung cancer.
The present invention also provides a cell composition comprising the activated APC cell of the present invention and a T cell or CTL cell.
The invention also provides another cell composition comprising the activated APC cell and CIK cell of the invention.
Since the activated APC cells of the present invention are capable of presenting molecular targets specific for lung cancer, they can be used as therapeutic or prophylactic vaccines against lung cancer. Thus, the invention also provides a therapeutic or prophylactic vaccine against lung cancer comprising a peptide, complex, fusion protein, tandem polypeptide, isolated cell (e.g. activated APC cell) according to the invention, and optionally an adjuvant, e.g. coupled to KLH and/or in combination with the immune adjuvant GM-CSF.
Further, the present invention also provides a method for preventing or treating lung cancer, which comprises administering the vaccine of the present invention into a subject.
In order to avoid the attack of the organism immune system, the cancer cells usually undergo genetic mutation and evolve new functions, thereby generating drug resistance. To prevent "escape" of cancer cells against a single molecular target, it is contemplated that molecular targets may be added to improve efficacy. In this regard, the present invention provides multi-target solutions that combine the molecular targets of the present invention for lung cancer with other molecular targets for lung cancer.
In particular, the molecular targets of the invention may be combined with one or more of the lung cancer specific molecular targets selected from the group consisting of the following polypeptides for the prevention and treatment of lung cancer:
a polypeptide comprising the amino acid sequence of AETTGLIKL (SEQ ID NO: 1);
a polypeptide comprising the amino acid sequence of LESLAVIL (SEQ ID NO: 2);
a polypeptide comprising the amino acid sequence of EVLSIMGVL (SEQ ID NO: 3);
a polypeptide comprising the amino acid sequence of FLLSGLGGL (SEQ ID NO: 4);
a polypeptide comprising the amino acid sequence of GEFLAFQTVHL (SEQ ID NO: 5);
a polypeptide comprising the amino acid sequence of LLDAGFAV (SEQ ID NO: 7);
a polypeptide comprising the amino acid sequence of RSSSLPSW (SEQ ID NO: 8);
a polypeptide comprising the amino acid sequence of SLSEVVVPM (SEQ ID NO: 9);
a polypeptide comprising the amino acid sequence of YLCGSYFVL (SEQ ID NO: 10).
Accordingly, the present invention provides a polypeptide combination comprising a polypeptide comprising SEQ ID NO:6 and polypeptides consisting of a polypeptide comprising SEQ ID NOs: 1. 2, 3, 4, 5, 7, 8, 9 or 10, or any 1, any 2, any 3, any 4, any 5, any 6, any 7, any 8 or any 9 of the polypeptides. Illustratively, the polypeptide combination of the invention comprises a polypeptide comprising SEQ ID NO:6 and polypeptides comprising SEQ ID NOs: 7; comprises the amino acid sequence shown in SEQ ID NO:6 and polypeptides comprising SEQ ID NOs: 8; comprises the amino acid sequence shown in SEQ ID NO:6 and polypeptides comprising SEQ ID NOs: 9. Further exemplary, the polypeptide combination of the invention comprises SEQ ID NO:6 and SEQ ID NOs:1-5, 7-10, such as SEQ ID NO:6 and SEQ ID NO:7, SEQ ID NO:6 and SEQ ID NO:9, SEQ ID NO:6 and SEQ ID NO:10, and so on.
The invention also provides a tandem polypeptide comprising a polypeptide sequence of SEQ ID NOs: 1. 2, 3, 4, 5, 6, 7, 8, 9 or 10, or comprises at least two repeating units of 1 polypeptide, for example 2, 3, 4, 5, 6, 7, 8 or 9 of SEQ ID NO:6 are connected in series. Adjacent polypeptides in the tandem polypeptide may be linked directly or via a linker.
Further, the present invention also provides a method of stimulating and activating APC cells, comprising the step of contacting the polypeptide, the combination of polypeptides or the tandem polypeptide of the present invention with APC cells to be activated, thereby loading the APC cells with the polypeptide or the combination of polypeptides as a molecular target.
The present invention also provides an activated APC cell obtained by contacting and culturing the polypeptide, the combination of polypeptides, or the tandem polypeptide of the present invention as a molecular target with an APC cell to be activated.
The invention also provides a cytotoxic T Cell (CTL) specific for lung cancer, which comprises the step of co-culturing the APC cell loaded with the single molecular target or the molecular target combination (multi-molecular target) and lymphocytes to obtain a single-target cytotoxic T cell or a multi-target cytotoxic T cell (MCTL) specific for lung cancer.
The invention also provides cellular compositions comprising single or multiple molecule target activated APC cells and immune cells of the invention.
The invention also provides another cell composition, which comprises the single-molecule target activated or multi-molecule target activated APC cell and CIK cell.
Also, since the single-or multi-molecular-target activated APC cells of the present invention can present a lung cancer-specific molecular target, they can be used as a therapeutic or prophylactic vaccine against lung cancer. Accordingly, the present invention also provides a therapeutic or prophylactic vaccine against lung cancer comprising a single molecular target or a multiple molecular target of the invention, or comprising single or multiple target activated APC cells.
Further, the present invention also provides a method for preventing or treating lung cancer, comprising administering the multi-molecular target-activated APC cells of the invention or the cell composition of the invention into a subject.
Indeed, based on the polypeptides of the invention and their related complexes, fusion proteins, tandem proteins, cells, etc., one skilled in the art can apply them in various ways. Illustratively, complexes of the invention can be used to screen for TCRs that bind thereto, comprising the steps of:
(i) Contacting a candidate TCR molecule with a polypeptide-MHC complex of the invention;
(ii) (ii) screening for TCR molecules which bind to the polypeptide-MHC complex of (i).
The molecular target for lung cancer in the invention is obtained by a large amount of screening and statistical analysis, so the molecular target has extremely remarkable representativeness for lung cancer. Therefore, the invention has the obvious advantages of simple operation, short treatment period and outstanding treatment effect on the treatment or prevention of the lung cancer.
Compared with the DC-CIK technology, the invention has the characteristics of high specificity and strong targeting property. The DC-CIK stimulates APC (APC) cells by utilizing tumor-associated antigens such as tumor cell lysate, homogenate and the like, the associated antigens have no cross reaction with normal tissues, inflammatory tissues and the like after being screened by a tissue bank, and the antigens are holoproteins and directly influence the presenting efficiency of the DC. CTL or MCTL applies small molecular polypeptide antigens screened by a target peptide library to accurately position tumor cells, and the small molecular polypeptides meet the antigen presentation requirements of APC (antigen-coupled plasma) cells, thereby greatly improving the presentation efficiency and enhancing the killing effect of immune cells on the tumor cells.
The invention successfully screens, identifies and verifies the tumor specific antigen (molecular target) in the body of the subject, synthesizes the therapeutic target in vitro, co-cultures the therapeutic target with the autoimmune cells of the subject, and kills the tumor cells in a targeted manner after the therapeutic target is back infused into the body of the subject, thereby realizing the purpose of treating the tumor.
In a specific embodiment of the present invention, the DC cells activated by the molecular target of the present invention have a positive loading rate of greater than 90% when detected by the target mab. Further, the activated DC cells highly express CD80 and CD86 and present T lymphocytes as CTLs or MCTL cells specifically recognizing lung cancer cells. Clinical treatment effects show that PR, CR and objective remission rate of the single MCTL treatment and the combination treatment of the MCTL and the chemotherapeutic medicament for treating the lung cancer are superior to those of the single chemotherapeutic medicament, and the difference has statistical significance.
The therapeutic vaccine of the invention is co-cultured with autoimmune cells of a subject, can kill tumor cells accurately in positioning and directly at multiple targets, and can enhance the immune response of an organism by acting on an immune system, thereby finally prolonging the life cycle of the patient and improving the life quality.
Defining:
therapeutic vaccines: in organisms infected with pathogenic microorganisms or suffering from certain diseases, natural, artificially synthesized or expressed by gene recombination technology for treating or preventing disease progression is achieved by inducing specific immune responses.
MCTL (Multi-target Cytotoxic T Lymphocyte): multi-target cytotoxic T cells
CTL (Cytotoxic T Lymphocyte) Cytotoxic T cell
DC-SCT (Specific Cluster Target of Dendritic Cell): specific dendritic cell cluster target
DC (Dendritic Cell): dendritic cell
CIK (Cytokine-Induced Killer): cytokine-induced killer cells
PBMC (Peripheral blood mononary cell): peripheral blood mononuclear cells
It is to be understood that within the scope of the present invention, the above-described features of the present invention and those specifically described below (e.g., in the examples) may be combined with each other to form new or preferred embodiments. This will not be repeated.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below.
FIG. 1 is a graph of the amino acid sequence of SEQ ID NO:6 polypeptide FACS results, wherein: a represents a CD80 flow cytometry result chart of the added polypeptide; b represents the CD86 flow cytometry result chart of the added polypeptide; c represents a CD80 flow cytometry result chart without added polypeptide; d represents the CD86 flow cytometry result without added polypeptide.
Figure 2 is a result of MCTL polypeptide stimulation of lymphocyte proliferation, where a and B: the absorbance at 450nm was measured at different time points for each group of lymphocytes.
FIG. 3 is a graph of the killing efficiency of CIK cells on tumor cells in each group at different time points, where: a represents the killing efficiency of each group of CIK cells to tumor cells after incubation for 18 hours at different target/effect cell ratios; b represents the killing efficiency of the CIK cells of each group on the tumor cells after the CIK cells are incubated for 24 hours at different target/effect cell ratios.
FIG. 4 shows the results of the analysis of the proliferative capacity of tumor cells.
FIG. 5 shows the results of analysis of the cytokine IL-2 level.
FIG. 6 shows the results of the analysis of the cytokine IFN-r level.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
It will be appreciated that oligo-and polypeptides are alternative in the present invention, as oligo-and polypeptides do not have a strict boundary for distinction to those skilled in the art.
It will be clearly understood that the present invention encompasses variants of polypeptides, such as amino acid sequences having 1, 2 or 3 amino acid substitutions, deletions or insertions in any of SEQ ID NO's 1-10.
Illustratively, the substitution refers to the substitution of an amino acid residue with another amino acid residue at the same position, preferably between amino acids of the same nature, such as between hydrophobic amino acids. The inserted amino acid residues may be inserted at any position, and the inserted amino acid residues may be adjacent in whole or in part, or none between the inserted amino acids. An amino acid deletion may be a deletion of 1, 2 or 3 amino acid residues, preferably 1 or 2 amino acid residues, at any position.
Further illustratively, substitutions may occur between any amino acid. Conservative amino acid substitutions are preferred. The term "conservative amino acid substitution" refers to the replacement of an amino acid residue by another amino acid residue having a side chain with similar properties. Amino acid residues are divided into families according to side chains. Examples of side chains include: basic side chains (e.g., lysine, arginine, and histidine), acidic side chains (e.g., aspartic acid and glutamic acid), uncharged polar side chains (e.g., asparagine, glutamine, serine, threonine, tyrosine, and cysteine), nonpolar side chains (e.g., glycine, alanine, valine, leucine, isoleucine, proline, phenylalanine, methionine, and tryptophan), beta-branched side chains (e.g., threonine, valine, and isoleucine), aliphatic side chains (e.g., glycine, alanine, valine, leucine, isoleucine, serine, and threonine), aromatic side chains (e.g., tyrosine, phenylalanine, and tryptophan), amide side chains (e.g., asparagine and glutamine), and sulfur-containing side chains (e.g., cysteine and methionine). Conservative amino acid substitutions are preferably substitutions between amino acid residues within the same family. Examples of conservative amino acid substitutions include the substitution of a glutamic acid residue for an aspartic acid residue, a phenylalanine residue for a tyrosine residue, a leucine residue for an isoleucine residue, an isoleucine residue for a valine residue, an alanine residue for a serine residue, and a histidine residue for an arginine residue.
For a variant of a polypeptide, it can be verified whether the variant is an active variant. For example, a variant polypeptide can be contacted with an APC (e.g., a DC cell) and the APC cell can then be assayed for target monoclonal antibodies, e.g., if CD80, CD86 is highly expressed on the APC cell, the variant is an active variant.
Tandem polypeptides, e.g., comprising two or more of SEQ ID NOs:1-10 or variants thereof, or at least 2 repeat units of one polypeptide, are also encompassed by the invention. It is noted that the polypeptide of the present invention may be contacted with the APC in the form of a tandem polypeptide in order to present the tumor-specific antigen on the APC.
It is known to those skilled in the art that the polypeptides of the invention may be post-translationally modified at one or more positions between the amino acid sequences, e.g., acetylated, phosphorylated, etc. Further, the polypeptide may be artificially modified, for example, by substituting amino acid residues thereof with amino acid analogs or mimetics. Further, one or more substances, such as amino acids, peptides, and the like, may be added to the N-terminus and/or C-terminus of the polypeptide. For example, a histidine tag may be added, or a fusion protein may be formed with the protein. Detectable labels may also be bound to the polypeptide. When such a substance binds to a polypeptide, the substance can be processed, for example, with a biological enzyme or by intracellular processing, to produce the polypeptide. Such agents may modulate the solubility of the polypeptide, improve the stability (e.g., protease resistance) of the peptide, allow specific delivery of the polypeptide to a desired tissue or organ, or enhance uptake of the polypeptide by antigen presenting cells. Such a substance may also be a substance that increases the ability of the peptide to induce CTLs, for example, another peptide that activates T cells.
It is well known to those skilled in the art that tumor antigens are enzymatically cleaved into polypeptide fragments by proteases in antigen presenting cells, and are bound to Major Histocompatibility Complex (MHC) to form polypeptide-MHC complexes, which are presented on the surface of APC cells. The polypeptide-MHC complex further binds to the surface of lymphocytes, stimulating and activating the lymphocytes into cytotoxic T Cells (CTLs).
Accordingly, the present invention provides a polypeptide-MHC complex comprising a polypeptide according to the present invention or a variant thereof. The MHC molecule may be an MHC class I molecule or an MHC class ii molecule. inbase:Sub>A preferred embodiment, the MHC molecules are HLA-A, HLA-B and HLA-C, or HLA-DR, HLA-DQ and HLA-DP. Further, the MHC molecule may also be an MHC class III molecule.
The invention also provides molecules and cells that bind to the above polypeptides, tandem polypeptides, or complexes.
Methods for producing polypeptide-MHC complexes of the invention are known to those skilled in the art, for example, by binding a polypeptide to an HLA molecule.
The polypeptide-MHC complex of the invention can be used to screen for or detect molecules that bind to it, such as T Cell Receptors (TCRs).
During cellular immunity, antigens are usually presented to the cell surface along with MHC complexes. Thus, the invention also provides an isolated cell capable of presenting a polypeptide or polypeptide-MHC complex of the invention to its surface. Illustratively, the cell is an immune cell, e.g., an APC, such as a DC (dendritic cell), or a B cell, or a T2 cell. Preferably, the cells presenting the polypeptide or polypeptide-MHC complex of the invention are isolated. The cell may not naturally present the complex of the invention. Cells presenting the polypeptide-MHC complex of the invention can be used to isolate T cells activated by the polypeptide or complex and further sorted for ex vivo propagation for reinfusion into a subject and T cell receptors.
In a specific embodiment, the method of obtaining an isolated T cell comprises contacting a T cell with a polypeptide or polypeptide-MHC complex of the invention or a cell presenting the same. Using the labeled antibody, the activated T cells can be sorted by flow cytometry (FACS), and the sorted cells can be cultured by in vitro proliferation.
The invention also provides nucleic acid molecules comprising nucleic acid molecules encoding a polypeptide, polypeptide variant, tandem polypeptide, e.g., cDNA, of the invention. The nucleic acids may be synthesized by synthetic methods known in the art. Due to the degeneracy of the genetic code, one skilled in the art will appreciate that different nucleic acid sequences may encode the same amino acid sequence.
Based on the nucleic acid, the invention also provides a vector. The vector comprises the nucleic acid sequence of the invention. Illustratively, the vector is an expression vector, such as a plasmid, phage, virus, or the like. Suitable phage and viral vectors include lambda-phages, EMBL-phages, simian virus, bovine verruca virus, epstein-Barr virus, oncolytic virus, murine sarcoma virus, murine breast cancer virus, lentiviruses, and the like.
The invention also provides a host cell comprising a vector or nucleic acid of the invention, such cell may be a mammalian cell, expressing a peptide of the invention.
The invention also provides molecules (e.g., TCRs and antibodies) that can be used as immunotherapeutic or diagnostic agents. The molecule may be bound to a peptide or to a complex formed between a peptide and an MHC molecule.
The TCRs of the invention may be in any form known in the art, e.g., heterodimers, or as single chains.
In the context of the present invention, "antibody" refers to immunoglobulin molecules and immunologically active portions of immunoglobulin molecules, i.e., molecules that contain specific binding sites, which may be wholly natural, or partially or wholly artificial. The term "antibody" includes antibody fragments, including immunoglobulin binding regions that are or are homologous to antibody binding regions, derivatives, functional equivalents, and homologous, humanized antibodies thereof. It may be all natural, partially or wholly artificial. A humanized antibody may be a modified antibody comprising the variable regions of a non-human antibody (e.g., mouse) and the constant regions of a human antibody.
Examples of antibodies may be isotypic immunoglobulins (e.g., igG, igE, igM, igD, and IgA) and their isotypic subclasses; fragments include antigen binding regions, such as Fab, scFv, fv, dAb, fd; and diabodies. The antibody may be a polyclonal or monoclonal antibody, preferably a monoclonal antibody.
In the present invention, the TCR and antibody may be present on the surface of a cell, such as a T cell. The invention therefore also provides an isolated T cell which binds to a complex of the invention.
The invention also provides the use of the polypeptide and its variants, polypeptide combinations, polypeptide-MHC complexes, tandem polypeptides, cells, binding molecules, for example for the preparation of a medicament for the prevention or treatment of cancer.
The invention also provides a pharmaceutical composition comprising a pharmaceutically acceptable carrier and the peptide, polypeptide combination, polypeptide-MHC complex, tandem polypeptide, cell, binding molecule or cell.
For the pharmaceutical composition of the present invention, the dosage form may be any suitable administration route, such as injection (including subcutaneous, intramuscular, intraperitoneal or intravenous injection), inhalation or oral, or nasal, or anal routes. The compositions may be prepared by any method known in the art of pharmacy, for example, by mixing the active ingredient with the carrier or excipient under sterile conditions.
The polypeptides, combinations of polypeptides, tandem polypeptides, complexes or cells of the invention may be provided in the form of a vaccine composition. The vaccine composition can be used for treating or preventing cancer, wherein the vaccine composition can further comprise an adjuvant.
In the present invention, the Antigen Presenting Cell (APC) is selected from, for example, a monocyte-derived cell, a macrophage, and a Dendritic Cell (DC), and is preferably a DC cell.
The antigen presenting cell is preferably a Dendritic Cell (DC).
Major Histocompatibility Complex (MHC) is a complex of genes encoding Human Leukocyte Antigen (HLA) genes. HLA genes are expressed as protein heterodimers displayed on the surface of human cells to circulating T cells. HLA genes are highly polymorphic, allowing them to fine tune the adaptive immune system.
MHC molecules fall into three classes: MHC I, MHC II and MHC III. The MHC class I molecule consists of an alpha heavy chain and beta-2-microglobulin; MHC class II molecules consist of one alpha and one beta chain. The MHC molecule structure comprises a binding groove for non-covalent interaction with a peptide; MHC iii encodes primarily complement components such as Tumor Necrosis Factor (TNF) and heat shock protein 70 (HSP 70).
MHC class I molecules are expressed on most nucleated cells. They present mainly endogenous proteins, defective ribosomal products (DRIP) and peptides generated by cleavage of larger peptides. However, exogenously derived peptides are also often found on MHC class I molecules. MHC class II molecules are found predominantly on Antigen Presenting Cells (APCs) and present predominantly, for example, peptides of exogenous or transmembrane proteins that are occupied by APCs during endocytosis and subsequently processed.
The complex of peptide and MHC class I is recognized by CD8 positive T cells bearing the corresponding T Cell Receptor (TCR), while the complex of peptide and MHC class II molecules is recognized by CD4 positive helper T cells bearing the corresponding TCR.
CD4 + T helper cells play an important role in the induction and maintenance of an effective response by CD8 positive cytotoxic T cells. At the tumor site, T helper cells maintain a cytokine milieu that is beneficial to cytotoxic T Cells (CTLs) and attract effector cells such as CTLs, natural Killer (NK) cells, macrophages, and granulocytes.
In the absence of inflammation, MHC class II molecule expression is primarily restricted to immune system cells, particularly Antigen Presenting Cells (APCs). Expression of MHC class II molecules is found in tumor cells of cancer patients.
For the peptides or variants of the invention, they may be further modified to increase stability and/or to bind to MHC molecules, thereby eliciting a stronger immune response. Methods for modifying peptide sequences are well known in the art, e.g., the introduction of trans-peptide bonds and non-peptide bonds, and the like.
The term "isolated" means that a substance is removed from its original environment (e.g., the natural environment if it occurs naturally). For example, a native nucleotide or polypeptide in a living animal is not isolated, but a nucleotide or polypeptide isolated from some or all of the coexisting materials in the native system is isolated. Such polynucleotides may be part of a vector and/or such polynucleotides and polypeptides may be part of a composition, and as the vector or composition is not part of its natural environment, it remains isolated.
The invention screens and identifies a positive molecular target, namely a tumor specific antigen, in a lung cancer subject from peripheral blood. The positive molecular target and immune cells of a subject are subjected to in-vitro co-culture and then are returned to the body of the subject, so that in-vivo tumor cells are killed pertinently.
Example 1: screening of specific molecular targets for lung cancer
In order to screen out a specific molecular target for lung cancer, the following operations are performed.
(1) Enriching, purifying and collecting serum after collecting the serum of a subject:
enrichment: adding an equal volume of cell-enriched solution to the serum of the subject, and uniformly mixing;
and (3) purification: adding the mixed solution into an Oasis Prime HLB SPE column for filtration and purification;
eluting and collecting: after the filtrate had completely passed through the column, about 20. Mu.l of each eluate was collected using the target adsorbed on the elution column.
(2) And (3) performing liquid phase mass spectrometry detection on the processed serum sample: after a sample enters the high performance liquid chromatography, different substances sequentially enter an ion source of the mass spectrum according to time sequence through effective separation of a chromatographic column, various charged molecules formed by ionizing and fragmenting substances to be detected entering the ion source sequentially reach a mass spectrum detector TOF according to different mass-to-charge ratios, signals of the detector are analyzed, and specific data such as the molecular weight of each molecule are obtained. And finally, specific molecular targets aiming at the lung cancer are identified by comparing the molecular targets with a target database.
AETTGLIKL(SEQ ID NO:1);
LESLAVIL(SEQ ID NO:2);
EVLSIMGVY(SEQ ID NO:3);
FLLSGLGGL(SEQ ID NO:4);
GEFLAFQTVHL(SEQ ID NO:5);
IANITTVW(SEQ ID NO:6);
LLDAGFAV(SEQ ID NO:7);
RSSSLPSW(SEQ ID NO:8);
SLSEVVVPM(SEQ ID NO:9);
YLCSGSSYFVL(SEQ ID NO:10)。
(3) And synthesizing and purifying the target by using a polypeptide synthesis platform to obtain the therapeutic molecular target for the next treatment of the patient.
Example 2: cell culture
Collecting 80-120ml of peripheral blood according to clinical blood collection requirements, and separating mononuclear cells (PBMC) in the blood by using a lymphocyte separation solution through a density gradient centrifugation method. Based on the PBMC counts, cells were adjusted to approximately 1X 10 with culture medium 7 Inoculating each cell/ml into a culture bottle, inoculating 10-15ml of culture solution into each bottle, and incubating in a carbon dioxide incubator at 37 ℃;5% of CO 2 (ii) a Incubate for 30min.
Dendritic cells were prepared by collecting adherent cells from PBMC flasks. Meanwhile, T cells were prepared separately from the same subject by Ficoll-Paque density gradient centrifugation or magnetic cell sorting. The dendritic cells are cultured with the polypeptide, then mixed with T cells, and the T cells are recovered. Activation or induction of T cells can be confirmed, for example, by proliferative activity of T cells or cytokine release from T cells.
Specifically, the collected dendritic cells are added into a DC cell culture solution containing a single (any one of SEQ ID Nos: 1-10) or a plurality of molecular targets (SEQ ID Nos: 1-10) and are placed in a carbon dioxide incubator for culture at 37 ℃;5% of CO 2 Wherein the content of each peptide is 5 mug/mL.
And (3) harvesting the activated DC cells, adding the activated DC cells into the suspension T cells for culture, namely obtaining single-target killing T cells or multi-target killing T cells (MCTL cells), and optionally further culturing and proliferating the single-target killing T cells or the MCTL cells.
Example 3: activation of DC cells by molecular targets
Collecting human peripheral blood, extracting PBMC cells, and culturing with autologous plasma-containing RPM1640 culture solution at 37 deg.C and 5% CO 2 Standing and culturing for 30min under the condition, separating human peripheral blood DC cells by a wall-adhering method, and removing non-adherent cells. Experimental groups used fresh CellGenix dendritic cell culture medium containing target polypeptide, 37 ℃ and 5% CO 2 The culture of DC cells was performed, and after 5 days of culture, flow detection was performed on the harvested cells.
Verification was performed for each of 10 single peptides (5. Mu.g/mL) and 10 mixtures of peptides (5. Mu.g/mL, with the same content of each peptide), while setting a control group containing fresh CellGenix dendritic cell medium without the target polypeptide at 37 ℃ and 5% CO 2 The DC cells were cultured for 5 days, and then the cells were harvested for flow detection.
The results show that: the activation rate of the loaded DC cells is increased after the target is added, the CD80 and CD86 are highly expressed, and the CD80 and CD86 expression of the DC cells without the target (control) is low (see the following table).
Table 1: activation of DC cells by each molecular target alone
Exemplarily, the FACS results are shown in FIG. 1 for SEQ ID NO 6.
Example 4
Peripheral blood was provided to 4 lung cancer patients, completing the following study.
Separating and culturing human peripheral blood DC cells by adherence method using autologous plasma-containing RPM1640 culture solution at 37 deg.C and 5% 2 Static culture of PBMC under conditions to remove non-adherent cells (for subsequent CIK cell culture) using fresh CellGenix dendritic cell culture medium containing TNF-a, GM-CSF and IL-4 at 37 ℃ and 5% CO 2 Culturing, and supplementing liquid and cytokine every 2-3 days.
Mixed peptides (SEQ ID Nos: 1-10) (MCTL tumor polypeptide) were added to the experimental group DC cell culture system at a concentration of 5. Mu.g/mL for each peptide. In vitro culture of CIK cells, specific MCTL tumor polypeptides are not added, and the rest is culture of MCTL.
After 5 days of culture of the peripheral blood DC cells, mixing the cells according to the proportion of DC: CIK =1:
experimental groups: DC cells (stimulated by MTCL tumor polypeptides) + CIK cells co-cultured (peptide-DC-CIK);
control group 1: DC cells (without MTCL tumor polypeptide stimulation) + CIK cell co-culture (DC-CIK);
control group 2: a pure CIK Cell (CIK) cell,
wherein (1) the cell proliferation conditions are detected by a CCK-8 method at the 0d, the 2d, the 4d and the 6d respectively; (2) The killing effect of different groups of cells on tumor cell strains is detected by a CCK8 method at 18h and 24h respectively (a target effect ratio of 1. An independent effector cell group and an independent target cell group are simultaneously arranged, and each group is provided with 3 multiple holes.
The experimental results are as follows:
(1) The proliferation of lymphocytes by mixed peptides (MCTL polypeptides) was measured in vitro by the CCK-8 method at 0d, 2d, 4d, 6d, respectively. As shown in fig. 2 (a-B), the proliferation of both the experimental group and the control group was significant, but the absorbance of the mixed peptide group was significantly higher at d4 (z = -3.79, p-woven 0.001) and d6 (z = -2.95, p-woven 0.01) than that of the CIK-only group, and the results were statistically different. Suggesting that the mixed peptide can stimulate the proliferation of lymphocytes. (2) The killing efficiency results for different groups at different target/effect ratios show: observing the killing efficiency of the experimental group and the control group 1 and the control group 2 at 18h and 24h, the mixed peptide group showed a trend higher than that of the other two control groups, as shown in fig. 3A-B.
Example 5: in vitro evaluation of the killing function and activity of polypeptide-induced immunocytes on lung adenocarcinoma cells
5 lung adenocarcinoma cell lines (NCI-H2228, NCI-H522, HCC78, NCI-H23, and NCI-H358) were selected as target cells, and the in vitro killing activity of the MCTL cells prepared in example 2 was evaluated from three points of cell proliferation, cytokine, and apoptosis.
The results show that: MCTL cells have killing effect on 5 strains of lung adenocarcinoma, wherein the killing efficiency on NCI-H2228 is highest, and moreover, human IL-2 and Human IFN-gamma are released when effector cells act together with target cells, and Human IL-10 is not released.
Tumor cell proliferation capacity analysis: after the effector cells and 5 different target cells act together for 48 hours, the killing effect of the effector cells on the target cells is analyzed through the cell proliferation capacity. The results are shown in FIG. 4: when the effective target ratio is 40; when the effective target ratio is 20.
Cytokine level analysis: after the effector cells and 5 different target cells act together for 24 hours, cell culture supernatant is harvested to detect the content of Human IFN-r, human IL-2 and Human IL-10, and the killing function of the effector cells is analyzed.
The results are shown in FIGS. 5 and 6: aiming at 5 target cells NCI-H2228, NCI-H522, HCC78, NCI-H23 and NCI-H358, the release level of Human IL-2 is higher when effector cells act on NCI-H23 and NCI-H2228; when the effector cells act on different target cells, the release amount of the Human IFN-gamma is different, and when the effector cells act on the target cells NCI-H2228, NCI-H522, HCC78 and NCI-H358, the release level of the Human IFN-gamma is basically maintained to be about 100 pg/ml; when effector cells were incubated with NCI-H23 at a potency-to-target ratio of 40. In addition, when effector cells and target cells act, culture supernatant was not detected by hIL-10.
Therefore, the cell therapy product has killing effect on 5 strains of lung adenocarcinoma. In addition, effector cells will release certain levels of hIL-2 and hIFN- γ inflammatory factors when they interact with target cells, but not hIL-10 inhibitory factors.
Example 6 clinical test
MCTL cells were prepared from the patient according to the method of example 2 and used in a second line treatment for advanced NSCLC in combination with tereprimab (anti-PD-1 mab). Patients treated systemically received 12 cycles of tereprimab treatment, 9 cycles of MCTL cell treatment every 3 weeks, followed by tereprimab and MCTL cell maintenance therapy until disease progression or intolerable toxicity occurred.
From 6 months in 2019 to 10 months in 2020, 14 patients aged 43-70 years (median age 59 years) were recruited. The squamous/non-squamous ratio is 50%/50%.13 cases (92.8%) ECOG PS =0-1,5 cases (35.7%) with pleural effusion and 3 cases (21.4%) with bone metastasis. Among 13 evaluable patients, ORR and DCR were 38.4% and 71.4%, respectively. At the time of data cutoff, median PFS was 399 days (about 13.3 months). Adverse Events (AEs) 5 cases (38.4%), where immune-related adverse events were hypothyroidism (3 cases, 23%) and debilitation (2 cases, 15.4%), but no grade 3 or greater adverse events occurred
It can be seen that multi-targeted cytotoxic T cells (MCTL) in combination with terieprimab were well tolerated and encouraging results as a second line treatment for advanced NSCLC.
PR: partial response, the sum of the maximum diameters of the target lesions decreased by more than or equal to 30% for at least 4 weeks.
CR: complete remission (complete response), disappearance of all target lesions, no new ones appearing, and normal tumor markers for at least 4 weeks.
SD: stable disease (stable disease), the sum of the maximal diameters of the target lesions either diminished to short PR or increased to short PD.
PD: the sum of the maximum diameters of target focuses is at least increased by more than or equal to 20 percent or new focuses appear in the disease progression (progressive disease).
Disease control rate DCR = PR + CR + SD
Objective remission rate ORR = PR + CR
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, which is intended to cover any modifications, equivalents, improvements, etc. within the spirit and scope of the present invention.
Sequence listing
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Claims (17)
1. A polypeptide and active variants thereof, wherein the polypeptide comprises the amino acid sequence: IANITTVW (SEQ ID NO: 6), preferably the polypeptide or active variant thereof is 9-45 amino acid residues in length.
2. A polypeptide combination comprising a polypeptide comprising an amino acid sequence of: IANITTVW (SEQ ID NO: 6), and one or more of the lung cancer-specific molecular targets (e.g., any 1, any 2, any 3, any 4, any 5, any 6, any 7, any 8, or any 9) selected from the group consisting of:
a polypeptide comprising the amino acid sequence of AETTGLIKL (SEQ ID NO: 1) or an active variant thereof;
a polypeptide comprising the amino acid sequence of LESLAVIL (SEQ ID NO: 2) or an active variant thereof;
a polypeptide comprising the EVLSIMGVE (SEQ ID NO: 3) amino acid sequence or an active variant thereof;
a polypeptide comprising the amino acid sequence of FLLSGLGGL (SEQ ID NO: 4) or an active variant thereof;
a polypeptide comprising the amino acid sequence of GEFLAFQTVHL (SEQ ID NO: 5) or an active variant thereof;
a polypeptide comprising the amino acid sequence of LLDAGFAV (SEQ ID NO: 7) or an active variant thereof;
a polypeptide comprising the amino acid sequence of RSSSLPSW (SEQ ID NO: 8) or an active variant thereof;
a polypeptide comprising an amino acid sequence of SLSEVVVPM (SEQ ID NO: 9) or an active variant thereof;
a polypeptide comprising the amino acid sequence YLSGSYFVL (SEQ ID NO: 10) or an active variant thereof.
3. A fusion protein comprising the polypeptide of claim 1 and active variants thereof.
4. A tandem polypeptide comprising at least two SEQ ID NOs: 6, or a repeat unit comprising SEQ ID NO:6 and SEQ ID NOs:1 to 5, 7 to 10, 1, 2, 3, 4, 5, 6, 7, 8, or 9.
5. A complex comprising a MHC or HLA and the polypeptide of claim 1, the fusion protein of claim 3, or the tandem protein of claim 4.
6. A method of stimulating and activating APC cells comprising the step of contacting the polypeptide of claim 1, the combination of polypeptides of claim 2, the fusion protein of claim 3, the tandem protein of claim 4 or the complex of claim 5, and the APC cells to be activated, thereby loading the APC cells with the polypeptide as a molecular target.
7. An activated APC cell obtained by contacting and culturing the polypeptide of claim 1, the combination of polypeptides of claim 2, the fusion protein of claim 3, the tandem protein of claim 4 or the complex of claim 5, and the APC cell to be activated.
8. A cytotoxic T Cell (CTL) specific for lung cancer, comprising co-culturing the APC of claim 7 with a lymphocyte, thereby obtaining a cytotoxic T Cell (CTL) specifically targeting lung cancer.
9. A cellular composition comprising the APC cells and CTL cells of claim 7.
10. A cellular composition comprising the APC cells and CIK cells of claim 7.
11. A therapeutic or prophylactic vaccine against lung cancer comprising the polypeptide of claim 1, the polypeptide combination of claim 2, the fusion protein of claim 3, the tandem protein of claim 4, the complex of claim 5, the cell or cell composition of any one of claims 7-10.
12. A molecule that specifically binds to the polypeptide of claim 1 or an active variant thereof, preferably said binding molecule is an antibody.
13. A method of preventing or treating lung cancer, comprising administering the cell or cell composition of any one of claims 7-10 into a subject.
14. Use of the polypeptide of claim 1, the polypeptide combination of claim 2, the fusion protein of claim 3, the tandem protein of claim 4, the complex of claim 5 for the preparation of a CTL for targeting lung cancer.
15. A medicament comprising the polypeptide of claim 1, the polypeptide combination of claim 2, the fusion protein of claim 3, the tandem protein of claim 4, the complex of claim 5, the cell or cell composition of any one of claims 7-10.
16. A method of detecting a subject at risk for lung cancer, wherein the method comprises the step of contacting blood or serum of the subject with a specific binding molecule (e.g. an antibody) according to claim 12.
17. A test reagent for testing a subject for risk of having lung cancer comprising a specific binding molecule (e.g., an antibody) according to claim 12.
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