MUC1 Therapeutic Tumor Vaccine in Advanced Solid Cancers
NCT ID: NCT05986981
Last Updated: 2023-08-14
Study Results
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Basic Information
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UNKNOWN
PHASE2
20 participants
INTERVENTIONAL
2023-08-31
2024-12-31
Brief Summary
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Detailed Description
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At present, in addition to the traditional surgery, radiotherapy and chemotherapy treatments for malignant tumours, with the advancement of biological sciences, tumour immunotherapy has developed significantly, in which antibody drugs and cell therapy (chimeric antigen receptor T cell, CAR-T) have products on the market. With the deepening research on the characteristics of tumour cells and the differences in protein expression, therapeutic cancer vaccines have gradually moved from theory to practice and have shown good performance in clinical trials.
The therapeutic cancer vaccine YB-01 is a therapeutic cancer vaccine formulation developed by the Department of Nuclear Medicine of Peking Union Medical College Hospital and commissioned to be produced by Zhaoyan Biologicals, a company with the qualification of Good manufacturing practice (GMP), and developed by Yuanben (Zhuhai Hengqin) Biotech Co. YB-01 cancer vaccine is a recombinant fusion protein with aluminium adjuvant and CpG182 adjuvant, and its core component is Mucin N-terminal region (MNR), which is specifically expressed by cancer cells. Mucin1 (MUC1) is a glycoprotein that plays a pivotal role in tumour formation, growth, invasion, signalling, pro-angiogenesis, anoxia and chemoresistance. Normal epithelial cells exist with low expression of MUC1, whereas cancerous cells have high expression of MUC1 (100-fold increase), and this differential expression is due to the fact that it is abnormally pronounced in biliary pancreatic carcinoma, cholangiocarcinoma, gastric adenocarcinoma, breast carcinoma and neuroendocrine pancreatic carcinoma, so that vaccine-induced immune response is only directed against the cancerous cells, but not against the normal tissues, and non-glycosylated MUC1 has become an important target for cancer therapy.YB- 01 vaccine targets MUC1 and enhances humoral and cell-mediated immune responses through immunity to MUC1 peptide or MUC1 peptide-activated dendritic cells (DC).DC cells activate CD4 T cells, which promotes the activation of B cells to produce antibodies against MUC1, and DC cells also activate CD8 T cells, which target and kill tumour cells that express MUC1. cells expressing MUC1.
Approximately 9-18 subjects will be recruited in this study. The investigational drug used in the study is the therapeutic cancer vaccine YB-01, and the study is designed to investigate the safety, tolerability, and preliminary efficacy of the vaccine in subjects with advanced solid tumours.
Conditions
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Study Design
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NA
SINGLE_GROUP
TREATMENT
NONE
Study Groups
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MUC1 Vaccine
Enrollment by cohort from the starting dose of the trial and proceed to the next higher dose level if no one of the first 3 subjects develops DLT. If 1 of the 3 subjects develops DLT, then 3 additional subjects will be added to that dose level for a total of 6 subjects.
If only 1 of 6 subjects develops DLT, proceed to the next higher dose level. If no fewer than 2 of the 6 subjects develop DLT, no more subjects will be added to that dose level and dose escalation will cease. The Safety Monitoring Committee (SMC) decides whether to use the intermediate dose as the next dose level for the study. Until the maximum sample size specified in the protocol or the SMC decides to terminate the dose increment.each subject receives only one dose group of study drug (during the incremental period, subjects may receive a reduced dose to continue treatment after the investigator has assessed the risk-benefit for safety reasons; dose increments are not permitted for the same subject).
Vaccine
Dose-escalation trial, according to the classic "3+3" model, divided into three dose levels of 0.5 mg, 1.0 mg, 2.0 mg for enrollment, is expected to enroll a total of 9-18 subjects (0.5 mg dose group to be enrolled in 3-6 subjects, 1.0 mg dose group is proposed to be enrolled in 3-6 subjects, 2.0 mg dose group is proposed to be enrolled in 3-6 subjects, and the dose group is proposed to be enrolled in 3-6 subjects, and the dose group is proposed to be enrolled in 3-6 subjects. dose group is proposed to include 3-6 subjects).
Interventions
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Vaccine
Dose-escalation trial, according to the classic "3+3" model, divided into three dose levels of 0.5 mg, 1.0 mg, 2.0 mg for enrollment, is expected to enroll a total of 9-18 subjects (0.5 mg dose group to be enrolled in 3-6 subjects, 1.0 mg dose group is proposed to be enrolled in 3-6 subjects, 2.0 mg dose group is proposed to be enrolled in 3-6 subjects, and the dose group is proposed to be enrolled in 3-6 subjects, and the dose group is proposed to be enrolled in 3-6 subjects. dose group is proposed to include 3-6 subjects).
Eligibility Criteria
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Inclusion Criteria
2. males and females between the ages of 18 and 75 years (both ends included);
3. expected survival ≥ 3 months;
4. advanced subjects with histologically or cytologically proven advanced solid tumors who have failed standard multiline therapy;
5. have at least one measurable lesion (i.e., mass ≥10 mm in diameter and malignant lymph node ≥15 mm in short diameter on enhanced scan with layer thickness ≤5 mm on spiral CT) according to the efficacy evaluation criteria for solid tumors, RECIST version 1.1 (see Appendix 4, Criteria for Evaluating the Efficacy of Solid Tumor Treatments);
6. Fresh or archived tumor tissue samples within 5 years are available for central laboratory testing during the screening period (if they are truly unavailable, this will not affect enrollment);
7. ECOG physical status score of 0 to 2;
8. treatment with other anti-tumor drugs (e.g., chemotherapy, hormone therapy, immunotherapy, antibody therapy, radiotherapy) prior to the first dose exceeds the 5 half-life of the drug or more than 4 weeks before the first dose (whichever is shorter);
9. Organ function levels must meet the following requirements (no blood or blood product transfusion, hematopoietic stimulating factor, albumin, or blood product use within 14 days prior to the examination): absolute neutrophil count (ANC) ≥ 1.5 × 109/L, platelet count (PLT) ≥ 75 × 109/L, hemoglobin (Hb) ≥ 90 g/L; serum total bilirubin (TBIL) ≤ 1.5 Total bilirubin (TBIL) ≤1.5 times the upper limit of normal value, glutamic transaminase (AST) and alanine aminotransferase (ALT) ≤2.5 times the upper limit of normal value (if liver metastasis is present, total bilirubin ≤3 times the upper limit of normal value, AST and ALT ≤5 times the upper limit of normal value are allowed). 10;
10. Pre-menopausal women of childbearing potential must undergo a pregnancy test within 7 days prior to the start of treatment, and the result of the pregnancy test must be negative and non-lactating; women without childbearing potential may not undergo a pregnancy test and contraception, provided they are over 50 years of age, have not used hormone therapy and have stopped menstruating for at least 12 months, or have been sterilized. All enrolled subjects (either male or female) should use adequate barrier contraception throughout the treatment period and for 3 months after completion of treatment.
11. Other toxicity parameters must be NCI-CTCAE v.5.0 Grade 0 or 1.
Exclusion Criteria
2. those with symptomatic or rapidly progressing central system metastases. Presence of extensive pulmonary metastases causing respiratory distress; subjects with tumours in close proximity to or invading large blood vessels or nerves;
3. new cerebrovascular accidents (including ischaemic stroke, haemorrhagic stroke and transient ischaemic attack) within 6 months prior to screening;
4. acute myocardial infarction, uncontrolled angina pectoris, uncontrolled arrhythmia, severe heart failure (see Appendix 3, New York Heart Association's Heart Failure Classification Criteria, NYHA Class ≥ III) and other cardiovascular diseases within 6 months prior to screening;
5. have received immunomodulatory medications within 4 weeks prior to the date of first vaccination (D1), including, but not limited to, IL-2, CTLA-4 inhibitors, CD40 agonists, CD137 agonists, and IFN-alpha (except for high-risk surgical subjects using IFN-alpha as an adjuvant therapy if IFN-alpha therapy was discontinued within the 4 weeks prior to the date of the trial);
6. those with a history of renal insufficiency with serum creatinine levels greater than 1.5 times the upper limit of normal;
7. have received a blood transfusion, erythropoietin (EPO), granulocyte colony-stimulating factor (G-CSF), or granulocyte-macrophage colony-stimulating factor (GM-CSF) within 2 weeks prior to the first dose of drug;
8. subjects with skin conditions that may prevent intradermal vaccine from reaching the target area (e.g., psoriasis);
9. subjects in the Screening Period who continue to have adverse reactions from prior anti-neoplastic therapy that have not been restored to a CTCAE Version 5.0 grade rating of ≤ Grade 1 (with the exception of alopecia and platinum-induced neurotoxicity of ≤ Grade 2);
10. need for concomitant use of steroidal hormonal medications (tumour or non-tumour related disease); exceptions may be made for those requiring topical (not applied to the vaccination site) or inhaled steroids;
11. the presence of active or uncontrollable infections requiring systemic therapy (except for simple urinary tract infections or upper respiratory tract infections) in the subject within 4 weeks prior to screening; and the presence of antibodies to the Human Immunodeficiency Virus (HIV), hepatitis B Surface Antigen (SAB) positive and/or hepatitis B Core Antibody (HBCO) positive with Hepatitis B Virus (HBV) Deoxyribonucleic Acid (DNA) \>1000 copies/mL and Hepatitis C virus (HCV) antibodies on virological testing during the Screening Period, Subjects who are positive for antibodies specific to syphilis spirochetes;
12. poorly controlled hypertension (defined as systolic blood pressure ≥160 mmHg and/or diastolic blood pressure ≥100 mmHg) after treatment;
13. subjects with a history of autoimmune disease \[e.g., the following, but not limited to: interstitial pneumonitis, uveitis, enteritis, hepatitis, pituitary gland inflammation, vasculitis, nephritis, hyperthyroidism, hypothyroidism (hypothyroidism without clinical symptoms or hypothyroidism due to radiotherapy may be included), subjects with vitiligo or cured asthma that does not currently require any intervention may be included, subjects requiring bronchodilators for medical intervention cannot be included\];
14. subjects with active ulcers or gastrointestinal bleeding during the Screening Period;
15. subjects who have received a previous similar therapeutic cancer vaccine or who have received another vaccine within 4 weeks prior to Screening;
16. subjects with congenital or acquired immunodeficiency;
17. subjects who have participated in other clinical trials within 1 month prior to screening;
18. subjects with known alcohol or drug addiction;
19. subjects who, in the opinion of the investigator, have an underlying health condition, mental condition, or social condition that makes the subject unable or unwilling to comply with the study protocol
20. any other condition which, in the opinion of the Investigator, makes participation in this study inappropriate.
18 Years
75 Years
ALL
No
Sponsors
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Peking Union Medical College Hospital
OTHER
Responsible Party
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Locations
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Peking Union Medical College Hospital
Beijing, Beijing Municipality, China
Countries
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Central Contacts
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Facility Contacts
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References
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Arnold M, Morgan E, Rumgay H, Mafra A, Singh D, Laversanne M, Vignat J, Gralow JR, Cardoso F, Siesling S, Soerjomataram I. Current and future burden of breast cancer: Global statistics for 2020 and 2040. Breast. 2022 Dec;66:15-23. doi: 10.1016/j.breast.2022.08.010. Epub 2022 Sep 2.
Rumgay H, Shield K, Charvat H, Ferrari P, Sornpaisarn B, Obot I, Islami F, Lemmens VEPP, Rehm J, Soerjomataram I. Global burden of cancer in 2020 attributable to alcohol consumption: a population-based study. Lancet Oncol. 2021 Aug;22(8):1071-1080. doi: 10.1016/S1470-2045(21)00279-5.
O'Donnell JS, Teng MWL, Smyth MJ. Cancer immunoediting and resistance to T cell-based immunotherapy. Nat Rev Clin Oncol. 2019 Mar;16(3):151-167. doi: 10.1038/s41571-018-0142-8.
Lei K, Kurum A, Kaynak M, Bonati L, Han Y, Cencen V, Gao M, Xie YQ, Guo Y, Hannebelle MTM, Wu Y, Zhou G, Guo M, Fantner GE, Sakar MS, Tang L. Cancer-cell stiffening via cholesterol depletion enhances adoptive T-cell immunotherapy. Nat Biomed Eng. 2021 Dec;5(12):1411-1425. doi: 10.1038/s41551-021-00826-6. Epub 2021 Dec 6.
Riley RS, June CH, Langer R, Mitchell MJ. Delivery technologies for cancer immunotherapy. Nat Rev Drug Discov. 2019 Mar;18(3):175-196. doi: 10.1038/s41573-018-0006-z.
Szeto GL, Finley SD. Integrative Approaches to Cancer Immunotherapy. Trends Cancer. 2019 Jul;5(7):400-410. doi: 10.1016/j.trecan.2019.05.010.
Zhang Y, Zhang Z. The history and advances in cancer immunotherapy: understanding the characteristics of tumor-infiltrating immune cells and their therapeutic implications. Cell Mol Immunol. 2020 Aug;17(8):807-821. doi: 10.1038/s41423-020-0488-6. Epub 2020 Jul 1.
Gao T, Cen Q, Lei H. A review on development of MUC1-based cancer vaccine. Biomed Pharmacother. 2020 Dec;132:110888. doi: 10.1016/j.biopha.2020.110888. Epub 2020 Oct 21.
Nabavinia MS, Gholoobi A, Charbgoo F, Nabavinia M, Ramezani M, Abnous K. Anti-MUC1 aptamer: A potential opportunity for cancer treatment. Med Res Rev. 2017 Nov;37(6):1518-1539. doi: 10.1002/med.21462. Epub 2017 Jul 31.
Hossain MK, Wall KA. Immunological Evaluation of Recent MUC1 Glycopeptide Cancer Vaccines. Vaccines (Basel). 2016 Jul 26;4(3):25. doi: 10.3390/vaccines4030025.
Park JA, Park S, Park HB, Han MK, Lee Y. MUC1-C Contributes to the Maintenance of Human Embryonic Stem Cells and Promotes Somatic Cell Reprogramming. Stem Cells Dev. 2021 Nov 1;30(21):1082-1091. doi: 10.1089/scd.2021.0185. Epub 2021 Oct 18.
Rajabi H, Kufe D. MUC1-C Oncoprotein Integrates a Program of EMT, Epigenetic Reprogramming and Immune Evasion in Human Carcinomas. Biochim Biophys Acta Rev Cancer. 2017 Aug;1868(1):117-122. doi: 10.1016/j.bbcan.2017.03.003. Epub 2017 Mar 14.
Nath S, Mukherjee P. MUC1: a multifaceted oncoprotein with a key role in cancer progression. Trends Mol Med. 2014 Jun;20(6):332-42. doi: 10.1016/j.molmed.2014.02.007. Epub 2014 Mar 22.
Chen W, Zhang Z, Zhang S, Zhu P, Ko JK, Yung KK. MUC1: Structure, Function, and Clinic Application in Epithelial Cancers. Int J Mol Sci. 2021 Jun 18;22(12):6567. doi: 10.3390/ijms22126567.
Macao B, Johansson DG, Hansson GC, Hard T. Autoproteolysis coupled to protein folding in the SEA domain of the membrane-bound MUC1 mucin. Nat Struct Mol Biol. 2006 Jan;13(1):71-6. doi: 10.1038/nsmb1035. Epub 2005 Dec 20.
Raina D, Kharbanda S, Kufe D. The MUC1 oncoprotein activates the anti-apoptotic phosphoinositide 3-kinase/Akt and Bcl-xL pathways in rat 3Y1 fibroblasts. J Biol Chem. 2004 May 14;279(20):20607-12. doi: 10.1074/jbc.M310538200. Epub 2004 Mar 3.
Ota S, Miyashita M, Yamagishi Y, Ogasawara M. Baseline immunity predicts prognosis of pancreatic cancer patients treated with WT1 and/or MUC1 peptide-loaded dendritic cell vaccination and a standard chemotherapy. Hum Vaccin Immunother. 2021 Dec 2;17(12):5563-5572. doi: 10.1080/21645515.2021.2003645. Epub 2021 Dec 17.
Other Identifiers
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PekingUMCHVaccineMUC1
Identifier Type: -
Identifier Source: org_study_id
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