Study on the Safety and Tolerability of PD-1 Knockout Tumor-infiltrating T Cells (TILs) in the Treatment of Advanced Colorectal Cancer

Shanghai Jiao Tong University

Status and phase

Enrolling

Phase 1

Conditions

Colorectal Cancer (CRC)

PD-1

Tumor Infiltrating Lymphocytes

Treatments

Biological: transfusion of 1×10^9 PD-1 edited TILs per kg body weight

Biological: transfusion of maximum dose without side effects among group A, B and C

Biological: transfusion of 5×10^8 PD-1 knockout TILs per kg body weight

Biological: transfusion of 2×10^9 PD-1 edited TILs per kg body weight

Study type

Interventional

Funder types

Other

Identifiers

NCT07035002

2024-570

Details and patient eligibility

About

TIL from tumor tissue of advanced colorectal cancer patients were cultured, modified and expanded in vitro, and then transfused back to the patients after quality control. The safety and efficacy of the treatment were investigated. The fundamental cause of oncogenesis lies in the accumulation of gene mutations. A large number of gene mutations in tumor cells lead to changes in the encoded amino acid sequence, resulting in the production of tumor-specific proteins. Human T cells recognize tumor-specific peptides (tumor neoantigens) that are presented on the MHC molecules on the surface of tumor cells, leading to T cell enrichment within the tumor. However, due to the immunosuppressive effect of tumors through various ways, the enriched T cells in tumors cannot effectively kill tumor cells. One of the most common examples is that tumors up-regulate the expression of immune checkpoint protein PD-L1, which binds to PD-1 on the surface of T cells and inhibits T cell function. Therefore, in this study, we will obtain tumor tissue via surgery resection or biopsy, and then isolate TIL cells in the tumor under GMP conditions, and further use gene editing technology to knockout PD-1, the obtained gene-edited T cells will have the characteristics of specific recognition of tumor cells, but not sensitive to the immunosuppressive function of tumor cells, so as to achieve the therapeutic effect on tumor patients.

Full description

Study name: Study on the safety and tolerability of PD-1 gene knockout tumor-infiltrating T cells (TIL) in the treatment of advanced colorectal cancer.

About the study: TIL from tumor tissue of advanced colorectal cancer patients were cultured, modified and expanded in vitro, and then transfused back to the patients after quality control. The safety and efficacy of the treatment were investigated. The fundamental cause of oncogenesis lies in the accumulation of gene mutations. A large number of gene mutations in tumor cells lead to changes in the encoded amino acid sequence, resulting in the production of tumor-specific proteins. Human T cells recognize tumor-specific peptides (tumor neoantigens) that are presented on the MHC molecules on the surface of tumor cells, leading to T cell enrichment within the tumor. However, due to the immunosuppressive effect of tumors through various ways, the enriched T cells in tumors cannot effectively kill tumor cells. One of the most common examples is that tumors up-regulate the expression of immune checkpoint protein PD-L1, which binds to PD-1 on the surface of T cells and inhibits T cell function. Therefore, in this study, we will obtain tumor tissue via surgery resection or biopsy, and then isolate TIL cells in the tumor under GMP conditions, and further use gene editing technology to knockout PD-1, the obtained gene-edited T cells will have the characteristics of specific recognition of tumor cells, but not sensitive to the immunosuppressive function of tumor cells, so as to achieve the therapeutic effect on tumor patients.

Objectives of the study:

Primary objective: To evaluate the safety and tolerability of PD-1 knockout TILs transfer treatment.

Secondary objectives: Objective response rate (ORR) and overall survival (OS) of PD-1 knockout TILs transfer treatment.

Subjects: The subjects were patients with advanced colorectal cancer confirmed by histology or cytology, who were not eligible to standard treatment at this stage. There were no restrictions on sex and region of origin, and patients volunteered to receive surgery or biopsy to obtain tumor tissue for TILs preparation. Aged ≥18 and ≤70 years old. At least one tumor lesion that could be evaluated according to RECIST, version 1.1. ECOG score was 0 or 1. Adequate bone marrow and organ function. A total of 20 patients were enrolled. The expected survival time of the enrolled patients was no less than 6 months.

Research setting/location: Ruijin Hospital Affiliated to Shanghai Jiao Tong University School of Medicine Study intervention: TILs were isolated from tumor tissue and infused back into patients after PD-1 knockout and expanded culturing. The patients were treated with cyclophosphamide and fludarabine before TILs transfusion.

The evaluation of efficacy included: the concentration of cytokines in blood, the number and duration of TILs in blood, adverse complications, evaluations of tumor size based on RESIST v1.1(by B-ultrasound, CT or MRI), tumor biomarkers, tumor related ctDNA.

Study Duration: The overall study duration was 24 months, including the time from the recruitment of the first patient to the completion of the data analysis of the last patient.

Duration of subject participation: Each enrolled patient was followed up for 12 months after completion of the TILs transfusion.

Enrollment

29 estimated patients

Sex

All

Ages

18 to 70 years old

Volunteers

No Healthy Volunteers

Inclusion criteria

Patients with advanced colorectal cancer confirmed by histology or cytology, who were not eligible to standard treatment at this stage.
Patients volunteered to receive surgery or biopsy to obtain tumor tissue for TILs preparation.
Aged ≥18 and ≤70 years old.
At least one tumor lesion that could be evaluated according to RECIST, version 1.1.
ECOG score was 0 or 1.
Adequate bone marrow and organ function.
The expected survival time of the enrolled patients was no less than 6 months.

Exclusion criteria

Received chemotherapy, radiotherapy, biological therapy, endocrine therapy, immunotherapy, traditional Chinese medicine with anti-tumor indications and other anti-tumor treatments within 2 weeks before sampling, except the following:
1. Nitrosourea or mitomycin C within 6 weeks before surgery;
2. Oral fluorouracils and small molecule targeted drugs for 1 week before surgery.
Received other unmarketed investigational drug or treatment within 4 weeks before sampling;
Had undergone major organ surgery (excluding needle biopsy) within 4 weeks before sampling or had significant lesions Trauma, or the need for elective surgery during the trial;
Received systemic glucocorticoid (prednisone >10mg/ day or equivalent dose) or other immunosuppressive therapy within 14 days before sampling; Treatment with topical, ocular, intra-articular, nasal, and inhaled glucocorticoids was excluded. Short-term prophylaxis with glucocorticoids (e.g., to prevent contrast allergy)
Use of immunomodulatory drugs, including but not limited to thymosin, interleukin-2, interferin, etc., within 14 days before sampling;
Administration of live attenuated vaccine within 4 weeks before sampling;
The toxicity of previous antineoplastic therapy has not recovered to CTCAE 5.0 grade ≤1 (except for alopecia and other researchers who judged that there was no safety risk);
Patients with symptomatic central nervous system or leptomeningeal metastases or other evidence of uncontrolled central nervous system or leptomeningeal metastases as judged by the investigator to be ineligible for enrollment;
Patients with active infection within 1 week before sampling and currently requiring systemic anti-infective treatment;
A history of immunodeficiency, including positive HIV antibody test;
Hepatitis B (HBsAg positive and/or hepatitis C (anti-HCV positive) and/or treponema pallidum antibody positive;
Patients with current interstitial lung disease;
Has a history of severe cardiovascular and cerebrovascular diseases, including but not limited to:
1. severe cardiac rhythm or conduction abnormalities, such as ventricular arrhythmia requiring clinical intervention, degree II-III atrioventricular block, etc.
2. Acute coronary syndrome, congestive heart failure, aortic dissection, stroke, or other grade 3 or higher cardiovascular and cerebrovascular events occurred within 6 months before the first dose of dose.
3. New York Heart Association (NYHA) functional class ≥II or left ventricular ejection fraction (LVEF) <50%, or structural heart disease at high risk as judged by other investigators;
4. clinically uncontrolled hypertension.
Patients with active or previous autoimmune diseases (such as systemic lupus erythematosus, rheumatoid arthritis, vasculitis, etc.), excluding patients with clinically stable autoimmune thyroid diseases and well-controlled type I diabetes;
Received immunotherapy with grade ≥ 3 irAE;
Clinically uncontrollable serous cavity effusion, which was judged by the investigator as not suitable for enrollment;
Known alcohol or drug dependence;
Persons with mental disorders or poor compliance;
Pregnant or lactating women;

Trial design

Primary purpose

Treatment

Allocation

Non-Randomized

Interventional model

Single Group Assignment

Masking

None (Open label)

29 participants in 4 patient groups

Group A: Low dose

Experimental group

Description:

The dose of 5×10\^8 PD-1 edited TILs per kg body weight will be transfused to 3 enrolled cases. If none of the 3 patients showed dose-limiting toxicity, the study would be proceeded and the dose would be escalated for group B. If one patient developed dose-limiting toxicity (DLT), another 3 patients with the same dose of group A would be added for expanded investigation. If there was lower than 1/6 of the patients in group A developed DLT, the study would be proceeded and the dose would be escalated for group B.

Treatment:

Biological: transfusion of 5×10^8 PD-1 knockout TILs per kg body weight

Group B: Middle dose

Experimental group

Description:

The dose of 1×10\^9 PD-1 edited TILs per kg body weight will be transfused to 3 enrolled cases. If none of the 3 patients showed dose-limiting toxicity, the study would be proceeded and the dose would be escalated for group C. If one patient developed DLT, another 3 patients with the same dose of group B would be added for expanded investigation. If there was lower than 1/6 of the patients in group B developed DLT, the study would be proceeded and the dose would be escalated for group C. If there was more than 2/6 of the patients in group B developed DLT, the study would be proceeded with the dose would be dropped for group A.

Treatment:

Biological: transfusion of 1×10^9 PD-1 edited TILs per kg body weight

Group C: High dose

Experimental group

Description:

The dose of 2×10\^9 PD-1 edited TILs per kg body weight will be transfused to 3 enrolled cases. If none of the 3 patients showed dose-limiting toxicity, the study would be proceeded for group D. If one patient developed DLT, another 3 patients with the same dose of group C would be added for expanded investigation. If there was more than 2/6 of the patients in group B developed DLT, the study would be proceeded with the dose would be dropped for group B.

Treatment:

Biological: transfusion of 2×10^9 PD-1 edited TILs per kg body weight

Group D: Expanded investigation

Experimental group

Description:

The highest dose of TILs without side effects in groups A, B and C would be transfused. In the case that there were no DLT in group A, B and C, there were total 11 cases in group D.

Treatment:

Biological: transfusion of maximum dose without side effects among group A, B and C

Trial contacts and locations

Data sourced from clinicaltrials.gov

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