Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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Recruitment Status
RECRUITING
Clinical Phase
PHASE1/PHASE2
Total Enrollment
37 participants
Study Classification
INTERVENTIONAL
Study Start Date
2021-08-01
Study Completion Date
2026-12-31
Brief Summary
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The therapy of solid tumors has been revolutionized by immune therapy, in particular, approaches that activate immune T cells in a polyclonal manner through blockade of checkpoint pathways such as PD-1 by administration of monoclonal antibodies. In this study, the investigators will evaluate the adoptive transfer of RAPA-201 cells, which are checkpoint-deficient polyclonal T cells that represent an analogous yet distinct immune therapy treatment platform for solid tumors. The administration of polyclonal, metabolically-fit RAPA-201 cells is a novel adoptive T cell therapy approach that is suitable for regenerative medicine efforts.
RAPA-201 is a novel immunotherapy product consisting of reprogrammed autologous CD4+ and CD8+ T cells of Th1/Tc1 cytokine phenotype. RAPA-201, which have acquired resistance to the mTOR inhibitor temsirolimus, are manufactured ex vivo from peripheral blood mononuclear cells collected from solid tumor patients using a steady-state apheresis. The novel RAPA-201 manufacturing platform, which incorporates both an mTOR inhibitor (temsirolimus) and an anti-cancer Th1/Tc1 polarizing agent (IFN-alpha) generates polyclonal T cells with five key characteristics:
1. Th1/Tc1: polarization to anti-cancer Th1 and Tc1 subsets, with commensurate down-regulation of immune suppressive Th2 and regulatory T (TREG) subsets;
2. T Central Memory: expression of a T central memory (TCM) phenotype, which promotes T cell engraftment and persistence for prolonged anti-tumor effects;
3. Rapamycin-Resistance: acquisition of rapamycin-resistance, which translates into a multi-faceted anti-apoptotic phenotype that improves T cell fitness in the stringent conditions of the tumor microenvironment;
4. T Cell Quiescence: reduced T cell activation, as evidence by reduced expression of the IL-2 receptor CD25, which reduces T cell-mediated cytokine toxicities such as cytokine-release syndrome (CRS) that limit other forms of T cell therapy; and
5. Reduced Checkpoints: multiple checkpoint inhibitory receptors are markedly reduced on RAPA-201 cells (including but not limited to PD-1, CTLA4, TIM-3, LAG3, and LAIR1), which increases T cell immunity in the checkpoint-replete, immune suppressive tumor microenvironment.
This is a non-randomized, open label, multi-site, phase I/II trial of outpatient RAPA-201 immune T cell therapy in patients with advanced metastatic, recurrent, and unresectable solid tumors that have recurred or relapsed after prior immune therapy. Patients must have tumor relapse after at least one prior line of therapy and must have refractory status to the most recent regimen, which must include an anti-PD-(L)1 monoclonal antibody. Furthermore, accrual focuses upon solid tumor disease types potentially amenable to standard-of-care salvage chemotherapy consisting of the carboplatin + paclitaxel (CP) regimen that will be utilized for host conditioning prior to RAPA-201 therapy. Importantly, carboplatin and paclitaxel are "immunogenic" chemotherapy agents whereby the resultant cancer cell death mechanism is favorable for generation of anti-tumor immune T cell responses. Thus, the CP regimen that this protocol incorporates is intended to directly control tumor progression and indirectly promote anti-tumor T cell immunity.
Protocol therapy consists of six cycles of standard-of-care chemotherapy (carboplatin + paclitaxel (CP) regimen) administered in the outpatient setting every 28 days (chemotherapy administered on cycles day 1, 8, and 15). RAPA-201 cells will be administered at a target flat dose of 400 X 10\^6 cells per infusion on day 3 of cycles 2 through 6.
In the original protocol design, a sample size of up to 22 patients was selected to determine whether RAPA-201 therapy, when used in combination with the CP regimen, represents an active regimen in solid tumors that are resistant to anti-PD(L)-1 checkpoint inhibitor therapy, as defined by a response rate (≥ PR) consistent with a rate of 35%. The first stage of protocol accrual consisted of n=10 patients; to advance to the second protocol accrual stage (accrual of an additional n=12 patients), RAPA-201 therapy must result in a tumor response (≥ PR) in at least 2 out of the 10 initial patients. As described below in the detailed description, this original protocol implementation demonstrated that RAPA-201 represented an active treatment regimen for solid tumor patients, and as such, the protocol was expanded to evaluate the combination of RAPA-201 therapy followed by anti-PD1 maintenance therapy.
RAPA-201 is a novel immunotherapy product consisting of reprogrammed autologous CD4+ and CD8+ T cells of Th1/Tc1 cytokine phenotype. RAPA-201, which have acquired resistance to the mTOR inhibitor temsirolimus, are manufactured ex vivo from peripheral blood mononuclear cells collected from solid tumor patients using a steady-state apheresis. The novel RAPA-201 manufacturing platform, which incorporates both an mTOR inhibitor (temsirolimus) and an anti-cancer Th1/Tc1 polarizing agent (IFN-alpha) generates polyclonal T cells with five key characteristics:
1. Th1/Tc1: polarization to anti-cancer Th1 and Tc1 subsets, with commensurate down-regulation of immune suppressive Th2 and regulatory T (TREG) subsets;
2. T Central Memory: expression of a T central memory (TCM) phenotype, which promotes T cell engraftment and persistence for prolonged anti-tumor effects;
3. Rapamycin-Resistance: acquisition of rapamycin-resistance, which translates into a multi-faceted anti-apoptotic phenotype that improves T cell fitness in the stringent conditions of the tumor microenvironment;
4. T Cell Quiescence: reduced T cell activation, as evidence by reduced expression of the IL-2 receptor CD25, which reduces T cell-mediated cytokine toxicities such as cytokine-release syndrome (CRS) that limit other forms of T cell therapy; and
5. Reduced Checkpoints: multiple checkpoint inhibitory receptors are markedly reduced on RAPA-201 cells (including but not limited to PD-1, CTLA4, TIM-3, LAG3, and LAIR1), which increases T cell immunity in the checkpoint-replete, immune suppressive tumor microenvironment.
This is a non-randomized, open label, multi-site, phase I/II trial of outpatient RAPA-201 immune T cell therapy in patients with advanced metastatic, recurrent, and unresectable solid tumors that have recurred or relapsed after prior immune therapy. Patients must have tumor relapse after at least one prior line of therapy and must have refractory status to the most recent regimen, which must include an anti-PD-(L)1 monoclonal antibody. Furthermore, accrual focuses upon solid tumor disease types potentially amenable to standard-of-care salvage chemotherapy consisting of the carboplatin + paclitaxel (CP) regimen that will be utilized for host conditioning prior to RAPA-201 therapy. Importantly, carboplatin and paclitaxel are "immunogenic" chemotherapy agents whereby the resultant cancer cell death mechanism is favorable for generation of anti-tumor immune T cell responses. Thus, the CP regimen that this protocol incorporates is intended to directly control tumor progression and indirectly promote anti-tumor T cell immunity.
Protocol therapy consists of six cycles of standard-of-care chemotherapy (carboplatin + paclitaxel (CP) regimen) administered in the outpatient setting every 28 days (chemotherapy administered on cycles day 1, 8, and 15). RAPA-201 cells will be administered at a target flat dose of 400 X 10\^6 cells per infusion on day 3 of cycles 2 through 6.
In the original protocol design, a sample size of up to 22 patients was selected to determine whether RAPA-201 therapy, when used in combination with the CP regimen, represents an active regimen in solid tumors that are resistant to anti-PD(L)-1 checkpoint inhibitor therapy, as defined by a response rate (≥ PR) consistent with a rate of 35%. The first stage of protocol accrual consisted of n=10 patients; to advance to the second protocol accrual stage (accrual of an additional n=12 patients), RAPA-201 therapy must result in a tumor response (≥ PR) in at least 2 out of the 10 initial patients. As described below in the detailed description, this original protocol implementation demonstrated that RAPA-201 represented an active treatment regimen for solid tumor patients, and as such, the protocol was expanded to evaluate the combination of RAPA-201 therapy followed by anti-PD1 maintenance therapy.
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Detailed Description
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The therapy of solid tumors has been revolutionized by immune therapy, in particular, approaches that activate immune T cells in a polyclonal manner through blockade of checkpoint pathways such as PD-1 by administration of monoclonal antibodies. In this study, the investigators will evaluate the adoptive transfer of a reprogrammed T cell population termed RAPA-201 cells, which are checkpoint-deficient polyclonal T cells that represent an analogous yet distinct treatment platform for solid tumor immune therapy.
RAPA-201 is a novel T cell immunotherapy product that is comprised of autologous CD4+ and CD8+ T cells of Th1/Tc1 cytokine phenotype. The RAPA-201 cells, which have acquired resistance to the mTOR inhibitor temsirolimus, are manufactured ex vivo from peripheral blood mononuclear cells collected from solid tumor patients using a steady-state apheresis. RAPA-201 cells are also being evaluated for the therapy of relapsed, refractory multiple myeloma and was granted Fast Track Status by the FDA for this indication. The novel method of RAPA-201 manufacturing, which incorporates both an mTOR inhibitor (temsirolimus) and an anti-cancer Th1/Tc1 polarizing agent (IFN-alpha) generates a polyclonal T cell population with the following five key characteristics:
1. Th1/Tc1: polarization to the anti-cancer Th1 and Tc1 subsets, with commensurate down-regulation of immune suppressive Th2 and regulatory T (TREG) subsets;
2. T Central Memory: expression of a T central memory (TCM) phenotype, which promotes T cell engraftment and persistence necessary for prolonged anti-tumor effects;
3. Rapamycin-Resistance: acquisition of rapamycin-resistance, which translates into a multi-faceted anti-apoptotic phenotype that improves T cell fitness in the stringent conditions of the tumor microenvironment;
4. T Cell Quiescence: reduced T cell activation, as evidence by reduced expression of the IL-2 receptor CD25, which reduces the chance of T cell-mediated cytokine toxicities such as cytokine-release syndrome (CRS) that limit other forms of T cell therapy; and
5. Reduced Checkpoints: multiple checkpoint inhibitory receptors are markedly reduced on RAPA-201 cells (including but not limited to PD-1, CTLA4, TIM-3, LAG3, and LAIR1), which increases T cell immunity in the checkpoint-replete, immune suppressive tumor microenvironment.
This is a multi-site phase I/II study evaluating RAPA-201 cells in up to 22 patients with relapsed solid tumors who have disease progression after anti-PD1 pathway monoclonal antibody therapy. In the initial protocol implementation, which studied n=22 evaluable participants, patients with malignant melanoma, small cell lung cancer, non-small cell lung cancer, gastric cancer, and squamous cell head and neck cancer were accrued. RAPA-201 therapy caused iRECIST-defined partial responses in 10 of 22 patients, with responses in melanoma (6/10 PR, 60% response rate), small cell lung cancer (2/3 PR, 66% response rate), and head and neck cancer (2/3 responses, 66% response rate). On the basis of this significant response rate in metastatic, treatment-resistant malignant melanoma, RAPA-201 treatment for this disease indication was granted the Regenerative Medicine Advanced Therapeutics (RMAT) designation by the US FDA. Some patients with non-small cell lung cancer had a delay in time to progression relative to their previous treatment regimen. RAPA-201 therapy was also safely administered exclusively in the outpatient setting; specifically, there were no adverse events of any grade attributable to RAPA-201, including no cytokine release syndrome (CRS). Given these early signals of safety and efficacy, the protocol was amended to accrue n=15 additional participants. Given the phase 1 response data, the additional n=15 study participants will consist of patients with refractory melanoma, small cell lung cancer, squamous cell head and neck cancer, and non-small cell lung cancer. In addition, this expanded cohort of n=15 study participants will receive anti-PD1 monoclonal antibody maintenance therapy after RAPA-201 cell therapy (patients in the initial n=22 study cohort did not receive anti-PD1 maintenance). The study evaluates adoptive T cell therapy using autologous rapamycin-resistant Th1/Tc1 cells (RAPA-201) in the context of a standard-of-care chemotherapy regimen comprised of carboplatin plus paclitaxel (CP Regimen), which is considered "immunogenic" chemotherapy whereby the resultant cancer cell death mechanism is favorable for the generation of anti-tumor immune T cell responses. Therefore, the CP regimen that this protocol incorporates is intended to both directly control tumor progression and indirectly promote anti-tumor T cell immunity.
To be eligible for the protocol, a subject will be required to have a circulating absolute lymphocyte count (ALC) of ≥ 300 cells per microliter. This parameter will help ensure that a sufficient number of autologous RAPA-201 cells can be manufactured from a steady-state apheresis product. Once the apheresis product has been received at the manufacturing site, the subject can initiate the first cycle of the CP Regimen, which will be administered over a 28-day interval.
Within 10 days after positive determination of study eligibility (and subject enrollment), two key actions will occur: (1) T cells will be collected by steady-state apheresis and sent to the manufacturing site at Rapa Therapeutics; (2) and the patient will start Cycle 1 of the CP Regimen (with a window of up to 7 calendar days to begin).
The Carboplatin-Paclitaxel (CP) regimen will be given alone for Cycle 1 and in combination with RAPA-201 cells for Cycles 2-6. After the completion of the treatment portion of the study, the subject will enter the follow-up component that will last for 6 months.
Cycle 1 of the CP Regimen will be a 28-day cycle, which will allow for time to manufacture the RAPA-201 cell product. According to standard-of-care practice, the carboplatin and paclitaxel will be administered on days 1, 8, and 15 of each cycle. Each cycle, beginning with Cycle 1, may be delayed or extended for up to four weeks, if needed for various reasons, including: logistical considerations, resolution of adverse events, or if there is a delay in RAPA-201 manufacturing. Requests for using additional time between cycles, other than the visit windows specified in the Schedule of Events, should be approved by the Medical Monitor.
Cycles 2-6 will also be 28-day cycles but will include the infusion of RAPA-201 cells at a target flat dose of 400 X 10\^6 cells per infusion (administered on day 3 of the CP regimen).
A sample size of n= 15 patients in the amended protocol design was selected to evaluate the safety and potential beneficial ant-tumor effect RAPA-201 therapy plus anti-PD1 maintenance therapy.
RAPA-201 is a novel T cell immunotherapy product that is comprised of autologous CD4+ and CD8+ T cells of Th1/Tc1 cytokine phenotype. The RAPA-201 cells, which have acquired resistance to the mTOR inhibitor temsirolimus, are manufactured ex vivo from peripheral blood mononuclear cells collected from solid tumor patients using a steady-state apheresis. RAPA-201 cells are also being evaluated for the therapy of relapsed, refractory multiple myeloma and was granted Fast Track Status by the FDA for this indication. The novel method of RAPA-201 manufacturing, which incorporates both an mTOR inhibitor (temsirolimus) and an anti-cancer Th1/Tc1 polarizing agent (IFN-alpha) generates a polyclonal T cell population with the following five key characteristics:
1. Th1/Tc1: polarization to the anti-cancer Th1 and Tc1 subsets, with commensurate down-regulation of immune suppressive Th2 and regulatory T (TREG) subsets;
2. T Central Memory: expression of a T central memory (TCM) phenotype, which promotes T cell engraftment and persistence necessary for prolonged anti-tumor effects;
3. Rapamycin-Resistance: acquisition of rapamycin-resistance, which translates into a multi-faceted anti-apoptotic phenotype that improves T cell fitness in the stringent conditions of the tumor microenvironment;
4. T Cell Quiescence: reduced T cell activation, as evidence by reduced expression of the IL-2 receptor CD25, which reduces the chance of T cell-mediated cytokine toxicities such as cytokine-release syndrome (CRS) that limit other forms of T cell therapy; and
5. Reduced Checkpoints: multiple checkpoint inhibitory receptors are markedly reduced on RAPA-201 cells (including but not limited to PD-1, CTLA4, TIM-3, LAG3, and LAIR1), which increases T cell immunity in the checkpoint-replete, immune suppressive tumor microenvironment.
This is a multi-site phase I/II study evaluating RAPA-201 cells in up to 22 patients with relapsed solid tumors who have disease progression after anti-PD1 pathway monoclonal antibody therapy. In the initial protocol implementation, which studied n=22 evaluable participants, patients with malignant melanoma, small cell lung cancer, non-small cell lung cancer, gastric cancer, and squamous cell head and neck cancer were accrued. RAPA-201 therapy caused iRECIST-defined partial responses in 10 of 22 patients, with responses in melanoma (6/10 PR, 60% response rate), small cell lung cancer (2/3 PR, 66% response rate), and head and neck cancer (2/3 responses, 66% response rate). On the basis of this significant response rate in metastatic, treatment-resistant malignant melanoma, RAPA-201 treatment for this disease indication was granted the Regenerative Medicine Advanced Therapeutics (RMAT) designation by the US FDA. Some patients with non-small cell lung cancer had a delay in time to progression relative to their previous treatment regimen. RAPA-201 therapy was also safely administered exclusively in the outpatient setting; specifically, there were no adverse events of any grade attributable to RAPA-201, including no cytokine release syndrome (CRS). Given these early signals of safety and efficacy, the protocol was amended to accrue n=15 additional participants. Given the phase 1 response data, the additional n=15 study participants will consist of patients with refractory melanoma, small cell lung cancer, squamous cell head and neck cancer, and non-small cell lung cancer. In addition, this expanded cohort of n=15 study participants will receive anti-PD1 monoclonal antibody maintenance therapy after RAPA-201 cell therapy (patients in the initial n=22 study cohort did not receive anti-PD1 maintenance). The study evaluates adoptive T cell therapy using autologous rapamycin-resistant Th1/Tc1 cells (RAPA-201) in the context of a standard-of-care chemotherapy regimen comprised of carboplatin plus paclitaxel (CP Regimen), which is considered "immunogenic" chemotherapy whereby the resultant cancer cell death mechanism is favorable for the generation of anti-tumor immune T cell responses. Therefore, the CP regimen that this protocol incorporates is intended to both directly control tumor progression and indirectly promote anti-tumor T cell immunity.
To be eligible for the protocol, a subject will be required to have a circulating absolute lymphocyte count (ALC) of ≥ 300 cells per microliter. This parameter will help ensure that a sufficient number of autologous RAPA-201 cells can be manufactured from a steady-state apheresis product. Once the apheresis product has been received at the manufacturing site, the subject can initiate the first cycle of the CP Regimen, which will be administered over a 28-day interval.
Within 10 days after positive determination of study eligibility (and subject enrollment), two key actions will occur: (1) T cells will be collected by steady-state apheresis and sent to the manufacturing site at Rapa Therapeutics; (2) and the patient will start Cycle 1 of the CP Regimen (with a window of up to 7 calendar days to begin).
The Carboplatin-Paclitaxel (CP) regimen will be given alone for Cycle 1 and in combination with RAPA-201 cells for Cycles 2-6. After the completion of the treatment portion of the study, the subject will enter the follow-up component that will last for 6 months.
Cycle 1 of the CP Regimen will be a 28-day cycle, which will allow for time to manufacture the RAPA-201 cell product. According to standard-of-care practice, the carboplatin and paclitaxel will be administered on days 1, 8, and 15 of each cycle. Each cycle, beginning with Cycle 1, may be delayed or extended for up to four weeks, if needed for various reasons, including: logistical considerations, resolution of adverse events, or if there is a delay in RAPA-201 manufacturing. Requests for using additional time between cycles, other than the visit windows specified in the Schedule of Events, should be approved by the Medical Monitor.
Cycles 2-6 will also be 28-day cycles but will include the infusion of RAPA-201 cells at a target flat dose of 400 X 10\^6 cells per infusion (administered on day 3 of the CP regimen).
A sample size of n= 15 patients in the amended protocol design was selected to evaluate the safety and potential beneficial ant-tumor effect RAPA-201 therapy plus anti-PD1 maintenance therapy.
Conditions
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Solid Tumor
Small Cell and Non-small Cell Lung Cancer
Head and Neck Cancer
Squamous Cell Carcinoma of Oral Cavity
Squamous Cell Carcinoma of Larynx
Squamous Cell Carcinoma of Nasopharynx
Squamous Cell Carcinoma of Other Specified Sites of Skin
Malignant Melanoma
Esophageal Squamous Cell Carcinoma
Study Design
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Allocation Method
NA
Intervention Model
SINGLE_GROUP
Non-randomized, open label, multi-site, phase I/II trial
Primary Study Purpose
TREATMENT
Blinding Strategy
NONE
Study Groups
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Administration of RAPA-201 cells
RAPA-201 cells will be administered at a target flat dose of 400 x 10\^6 cells per infusion. After RAPA-201 therapy, anti-PD1 maintenance therapy (pembrolizumab, 200 mg administered intravenously every 3 weeks for up to 12 months)
Group Type
EXPERIMENTAL
RAPA-201 Rapamycin Resistant T Cells
Intervention Type
BIOLOGICAL
Autologous Rapamycin-Resistant Th1/Tc1 Cells
Chemotherapy Prior to RAPA-201 Therapy
Intervention Type
DRUG
Outpatient Carboplatin + Paclitaxel Regimen (CP Regimen)
Pembrolizumab (PD-1 Blocking Antibody)
Intervention Type
DRUG
Drug Therapy After RAPA-201 Therapy
Interventions
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RAPA-201 Rapamycin Resistant T Cells
Autologous Rapamycin-Resistant Th1/Tc1 Cells
Intervention Type
BIOLOGICAL
Chemotherapy Prior to RAPA-201 Therapy
Outpatient Carboplatin + Paclitaxel Regimen (CP Regimen)
Intervention Type
DRUG
Pembrolizumab (PD-1 Blocking Antibody)
Drug Therapy After RAPA-201 Therapy
Intervention Type
DRUG
Other Intervention Names
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RAPA-201 cells
Eligibility Criteria
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Inclusion Criteria
1. Male or female patients ≥ 18 years of age.
2. Eastern Cooperative Oncology Group (ECOG) performance status of ≤ 2.
3. Advanced metastatic, recurrent, and unresectable solid tumor that has relapsed after ≥ one prior line of therapy.
4. Subject must have received prior therapy with disease-specific regimens that have been established to convey a clinical benefit. Alternatively, subject must have been offered such regimens and provided written documentation of refusal to receive such regimens.
5. Subject with solid tumors with genetic alterations and mutations (including but not limited to BRAF, BRCA, EGFR mutations, and ALK translocations) must have either received targeted therapy for such conditions or provided written documentation of refusal to receive such regimens.
6. Exposure to an anti-PD-(L)1 monoclonal antibody therapeutic in the most recent line of prior therapy.
7. Documented refractory status to the most recent regimen, which must include an anti-PD-(L)1 monoclonal antibody, as defined by lack of response after at least two cycles of therapy or relapse within 12-months of initiation of anti-PD-(L)1-containing therapy.
8. Solid tumor disease types that are eligible for enrollment consist of:
1. head and neck cancer (squamous cell carcinoma of oral cavity, larynx, nasopharynx, and other sites);
2. malignant melanoma;
3. small cell carcinoma, thoracic and extra-thoracic; and,
4. non-small cell lung cancer.
9. Presence of measurable disease to permit monitoring by RECISTv1.1 Criteria.
10. Must have a potential source of autologous T cells potentially sufficient to manufacture RAPA-201 cells, as defined by a circulating absolute lymphocyte count (ALC) of ≥ 300 cells/μL.
11. Patients must be ≥ two weeks from last solid tumor cancer chemotherapy, major surgery, radiation therapy and/or participation in investigational trials.
12. Patients must have recovered from clinical toxicities (resolution of CTCAE (v5) toxicity to a value of ≤ 2).
13. Ejection fraction (EF) by MUGA or 2-D echocardiogram within institution normal limits, with an EF level of ≥ 40%.
14. Calculated creatinine clearance of ≥ 60 mL/min/1.73 m\^2.
15. Aspartate aminotransferase (AST) and Alanine aminotransferase (ALT) ≤ 3 x upper limit of normal.
16. ANC (Absolute neutrophil count) of ≥ 1500 cells/μL.
17. Platelet count ≥ 100,000 cells/μL.
18. Hemoglobin count ≥ 8 grams/μL.
19. Bilirubin ≤ 1.5 mg/dL (except if due to Gilbert's disease).
20. Corrected DLCO ≥ 50% (Pulmonary Function Test)
21. No history of abnormal bleeding tendency (as defined by any inherited coagulation defect, or history of internal bleeding).
22. Voluntary written consent must be given before performance of any study related procedure not part of standard medical care, with the understanding that consent may be withdrawn by the patient at any time without prejudice to future medical care.
2. Eastern Cooperative Oncology Group (ECOG) performance status of ≤ 2.
3. Advanced metastatic, recurrent, and unresectable solid tumor that has relapsed after ≥ one prior line of therapy.
4. Subject must have received prior therapy with disease-specific regimens that have been established to convey a clinical benefit. Alternatively, subject must have been offered such regimens and provided written documentation of refusal to receive such regimens.
5. Subject with solid tumors with genetic alterations and mutations (including but not limited to BRAF, BRCA, EGFR mutations, and ALK translocations) must have either received targeted therapy for such conditions or provided written documentation of refusal to receive such regimens.
6. Exposure to an anti-PD-(L)1 monoclonal antibody therapeutic in the most recent line of prior therapy.
7. Documented refractory status to the most recent regimen, which must include an anti-PD-(L)1 monoclonal antibody, as defined by lack of response after at least two cycles of therapy or relapse within 12-months of initiation of anti-PD-(L)1-containing therapy.
8. Solid tumor disease types that are eligible for enrollment consist of:
1. head and neck cancer (squamous cell carcinoma of oral cavity, larynx, nasopharynx, and other sites);
2. malignant melanoma;
3. small cell carcinoma, thoracic and extra-thoracic; and,
4. non-small cell lung cancer.
9. Presence of measurable disease to permit monitoring by RECISTv1.1 Criteria.
10. Must have a potential source of autologous T cells potentially sufficient to manufacture RAPA-201 cells, as defined by a circulating absolute lymphocyte count (ALC) of ≥ 300 cells/μL.
11. Patients must be ≥ two weeks from last solid tumor cancer chemotherapy, major surgery, radiation therapy and/or participation in investigational trials.
12. Patients must have recovered from clinical toxicities (resolution of CTCAE (v5) toxicity to a value of ≤ 2).
13. Ejection fraction (EF) by MUGA or 2-D echocardiogram within institution normal limits, with an EF level of ≥ 40%.
14. Calculated creatinine clearance of ≥ 60 mL/min/1.73 m\^2.
15. Aspartate aminotransferase (AST) and Alanine aminotransferase (ALT) ≤ 3 x upper limit of normal.
16. ANC (Absolute neutrophil count) of ≥ 1500 cells/μL.
17. Platelet count ≥ 100,000 cells/μL.
18. Hemoglobin count ≥ 8 grams/μL.
19. Bilirubin ≤ 1.5 mg/dL (except if due to Gilbert's disease).
20. Corrected DLCO ≥ 50% (Pulmonary Function Test)
21. No history of abnormal bleeding tendency (as defined by any inherited coagulation defect, or history of internal bleeding).
22. Voluntary written consent must be given before performance of any study related procedure not part of standard medical care, with the understanding that consent may be withdrawn by the patient at any time without prejudice to future medical care.
Exclusion Criteria
1. Other active malignancy (except non-melanoma skin cancer).
2. Life expectancy \< 4 months.
3. Seropositivity for HIV, hepatitis B, or hepatitis C, unless such conditions are in stable condition using adequate treatment.
4. Uncontrolled hypertension.
5. History of cerebrovascular accident within 6 months of enrollment.
6. Myocardial infarction within 6 months prior to enrollment.
7. NYHA class III/IV congestive heart failure.
8. Uncontrolled angina/ischemic heart disease.
9. Cancer metastasis to the central nervous system, unless such metastasis has been adequately treated.
10. Pregnant or breastfeeding patients.
11. Patients of childbearing age, or males who have a partner of childbearing potential, who are unwilling to practice contraception.
12. Patients may be excluded at the discretion of the PI or if it is deemed that allowing participation would represent an unacceptable medical or psychiatric risk.
2. Life expectancy \< 4 months.
3. Seropositivity for HIV, hepatitis B, or hepatitis C, unless such conditions are in stable condition using adequate treatment.
4. Uncontrolled hypertension.
5. History of cerebrovascular accident within 6 months of enrollment.
6. Myocardial infarction within 6 months prior to enrollment.
7. NYHA class III/IV congestive heart failure.
8. Uncontrolled angina/ischemic heart disease.
9. Cancer metastasis to the central nervous system, unless such metastasis has been adequately treated.
10. Pregnant or breastfeeding patients.
11. Patients of childbearing age, or males who have a partner of childbearing potential, who are unwilling to practice contraception.
12. Patients may be excluded at the discretion of the PI or if it is deemed that allowing participation would represent an unacceptable medical or psychiatric risk.
Minimum Eligible Age
18 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
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Rapa Therapeutics LLC
INDUSTRY
Sponsor Role
lead
Responsible Party
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Responsibility Role
SPONSOR
Principal Investigators
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Daniel Fowler, M.D.
Role: STUDY_DIRECTOR
Rapa Therapeutics LLC
Locations
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Hackensack University Medical Center
Hackensack, New Jersey, United States
Site Status
RECRUITING
Countries
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United States
Central Contacts
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Facility Contacts
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Other Identifiers
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RAPA-201-STP-01
Identifier Type: -
Identifier Source: org_study_id
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RECRUITING
PHASE1
A Study of IMM-6-415 in RAS/RAF Mutant Solid Tumors
NCT06208124
COMPLETED
PHASE1/PHASE2
Intratumoral Cavrotolimod Combined With Pembrolizumab or Cemiplimab in Patients With Merkel Cell Carcinoma, Cutaneous Squamous Cell Carcinoma, or Other Advanced Solid Tumors
NCT03684785
TERMINATED
PHASE1/PHASE2
A Phase 1/2 Trial of TC-510 In Patients With Advanced Mesothelin-Expressing Cancer
NCT05451849
ACTIVE_NOT_RECRUITING
PHASE1/PHASE2
Measuring Biomarker Response to AMP-514 in Blood Samples From Patients With Solid Tumors Undergoing Radiotherapy
NCT02153151
COMPLETED
QUILT-3.044: NANT Non-small Cell Lung Cancer (NSCLC) Vaccine: Combination Immunotherapy in Subjects With NSCLC Who Have Progressed After Treatment With PD-1/PD-L1 Inhibitors
NCT03169738
WITHDRAWN
PHASE1/PHASE2
TEIPP Immunotherapy in Patients With NSCLC
NCT05898763
COMPLETED
PHASE1/PHASE2
Immunization With a Pentavalent Vaccine Composed of KLH-conjugates of GD2L, GD3L, Globo H, Fucosyl GM1, and N-Propionylated Polysialic Acid
NCT01349647
COMPLETED
PHASE1
Study of Autologous Tumor Infiltrating Lymphocytes in Patients With Solid Tumors
NCT03645928
RECRUITING
PHASE2
Study to Assess an Anti-Trop2 Antibody Drug Conjugate in Relapsed or Refractory Solid Tumors
NCT05060276
WITHDRAWN
PHASE1
Study of RP1 Monotherapy and RP1 in Combination With Nivolumab (IGNYTE)
NCT03767348
ACTIVE_NOT_RECRUITING
PHASE2
Monoclonal Antibody Therapy in Treating Patients With Advanced Solid Tumors
NCT00052403
WITHDRAWN
PHASE1
In Situ Immunomodulation With CDX-301, Radiation Therapy, CDX-1140 and Poly-ICLC in Patients w/ Unresectable and Metastatic Solid Tumors
NCT04616248
ACTIVE_NOT_RECRUITING
PHASE1
Nivolumab and Ipilimumab in Treating Patients With Rare Tumors
NCT02834013
ACTIVE_NOT_RECRUITING
PHASE2
Intratumoral PV701 in Treating Patients With Advanced or Recurrent Unresectable Squamous Cell Carcinoma of the Head and Neck
NCT00081211
TERMINATED
PHASE1
QUILT-3.090: NANT Squamous Cell Carcinoma (SCC) Vaccine: Subjects With SCC Who Have Progressed
NCT03387111
TERMINATED
PHASE1/PHASE2
A Study of Toca 511, a Retroviral Replicating Vector, Combined With Toca FC in Patients With Solid Tumors or Lymphoma (Toca 6)
NCT02576665
TERMINATED
PHASE1
Combination of CAR-DC Vaccine and ICIs in Malignant Tumors
NCT05631886
RECRUITING
PHASE1
Pembrolizumab in Treating Patients With Rare Tumors That Cannot Be Removed by Surgery or Are Metastatic
NCT02721732
ACTIVE_NOT_RECRUITING
PHASE2
Study of INBRX-105 and INBRX-105 With Pembrolizumab in Patients With Solid Tumors Including Head and Neck Cancer
NCT03809624
TERMINATED
PHASE1
Tacrolimus, Nivolumab, and Ipilimumab in Treating Kidney Transplant Recipients With Selected Unresectable or Metastatic Cancers
NCT03816332
ACTIVE_NOT_RECRUITING
PHASE1
One Trial of JCXH-211 Intratumoral Injection Combined With Anti-PD-1 Antibody in Patients With Malignant Solid Tumors
NCT06781125
NOT_YET_RECRUITING
PHASE1
Study of TST005 in Patients With Locally Advanced or Metastatic Solid Tumors
NCT04958434
TERMINATED
PHASE1
A Phase II Trial to Assess TroVax® Plus Chemotherapy in Patients With Malignant Pleural Mesothelioma
NCT01569919
UNKNOWN
PHASE2