On June 15, 2023 Corvus Pharmaceuticals, Inc. (Nasdaq: CRVS), a clinical-stage biopharmaceutical company, reported new data for CPI-818, the Company’s ITK inhibitor, demonstrating the potential to treat a variety of solid and hematological cancers based on a novel immunotherapy mechanism of action (Press release, Corvus Pharmaceuticals, JUN 15, 2023, View Source [SID1234632723]). The data includes updated interim results from the CPI-818 Phase 1/1b clinical trial that continues to demonstrate the potential of ITK inhibition and the absolute lymphocyte count (ALC) biomarker in T cell lymphoma (TCL). The data is being presented in a poster at the International Conference on Malignant Lymphoma (ICML) meeting, which is taking place June 13-17, 2023 in Lugano, Switzerland.

Schedule your 30 min Free 1stOncology Demo!
Discover why more than 1,500 members use 1stOncology™ to excel in:

Early/Late Stage Pipeline Development - Target Scouting - Clinical Biomarkers - Indication Selection & Expansion - BD&L Contacts - Conference Reports - Combinatorial Drug Settings - Companion Diagnostics - Drug Repositioning - First-in-class Analysis - Competitive Analysis - Deals & Licensing

                  Schedule Your 30 min Free Demo!

"The CPI-818 data presented at the ICML meeting demonstrates the potential of ITK inhibition to provide a novel immunotherapy mechanism of action for cancer therapy," said Richard A. Miller, M.D., co-founder, president and chief executive officer of Corvus. "The preclinical and clinical data indicate a consistent and comprehensive rationale based on the biology and mechanism of immune enhancement resulting from selective ITK inhibition. This includes the ability to modulate normal T cell differentiation to enhance and strengthen the immune system’s ability to treat lymphomas and solid tumors. We see this in the interim tumor response data, which showed that a majority of the patients treated with the optimal dose of 200mg twice per day of CPI-818 experience tumor regression. As we consider the landscape of cancer therapy targets, ITK is not in the category of immune checkpoints, but rather it is a kinase that controls whether T cells become cancer killing cells or inflammatory cells. This positioning and the supporting research provide a strong foundation for the continued development of CPI-818 as a monotherapy and its future use in combinations with other therapies. We are excited to build upon these results and plan to meet with the U.S. FDA in the third quarter 2023 to discuss a potential registrational Phase 3 clinical trial for CPI-818 in T cell lymphoma. We also have begun planning for clinical trials with CPI-818 monotherapy in solid tumors. Overall, we have increasing confidence that CPI-818, if approved, can be a novel backbone for various immunotherapies of cancer."

CPI-818 Data Presented at ICML
The CPI-818 preclinical and clinical data was presented by Ning Ding, Ph.D. from Peking University Cancer Hospital & Institute in Beijing, China, in a poster session (abstract #193) today at the ICML meeting. The poster is available to ICML attendees in the poster hall and e-poster gallery, is also available on the Publications and Presentations page of the Corvus website. The key highlights from the poster presentation include:

Phase 1/1b Clinical Trial Interim Data
CPI-818 is currently being studied in a Phase 1/1b clinical trial as a single agent therapy in patients with relapsed TCL. Corvus recently incorporated a minimum ALC as an eligibility criterion for enrollment in the clinical trial. Based on the current enrollment rate of the Phase 1/1b clinical trial, Corvus believes that the number of patients treated in this clinical trial would provide adequate safety and preliminary efficacy data to inform the design of a potential registrational Phase 3 randomized clinical trial. As recommended by the FDA, Corvus plans to meet with the FDA to discuss such a clinical trial; it is anticipated that this meeting will take place during the third quarter of this year.

Updated interim data as of May 18, 2023 (waterfall plot shown below): A total of 30 patients were enrolled in the Phase 1/1b trial at the optimum 200 mg two-times a day dose, including 20 evaluable for tumor response. There were 3 complete responses (CR) and 3 partial responses (PR) with one of these PRs demonstrating continued regression of the tumor. One of the patients with a CR and 2 with PRs remained on therapy. A total of ten patients remained on therapy, including six who have not had their initial tumor response evaluation. For patients with ALC above 900 per cubic milliliter of blood, objective responses (CR plus PR) were seen in 6 of 14 patients with disease control (CR, PR and stable disease) in 12 of 14 patients. No objective responses were seen in six patients (0 for 6) with ALC below 900.
Updated interim data as of May 18, 2023: In one TCL patient treated with CPI-818 for which serial tumor biopsy samples could readily be obtained, single cell RNA sequencing from paired samples comparing baseline and on-treatment specimens showed an increase in tumor infiltrating CD8+ T cells; an increase in cytolytic effector molecules such as granzymes and perforin in the T cells; and an increase in T effector memory cells (TEMRA cells), which are T cells that have responded to an antigen and are able to mediate effector functions, such as the destruction of tumor cells. In addition, flow cytometry analysis of paired blood samples comparing baseline and on treatment revealed a similar finding in both CD8 T cells and CD4 T cells. These results are consistent with preclinical data described below and support the novel immunotherapy mechanism of action of selective ITK inhibition, which is based on Th1 skewing and the resulting shift in immune response to eliminating cancer cells. Additional laboratory findings indicated that treatment with CPI-818 induces a reversal of T cells expressing exhaustion markers. T cell exhaustion is a known mechanism of resistance to checkpoint inhibitor therapy.
Figure 1: Waterfall Plot for Patients in the 200 mg Dose Cohort of the CPI-818 Phase 1/1b Clinical Trial for T Cell Lymphoma. The plot shows the best percent change in tumor volume in the 18 patients (out of 20 total evaluable patients) that were measurable by CT scan. The two other patients had cutaneous and blood involvement; one was a patient with a PR and one patient had progression.

The plot shows the best percent change in tumor volume in the 18 patients (out of 20 total evaluable patients) that were measurable by CT scan. The two other patients had cutaneous and blood involvement; one was a patient with a PR and one patient had progression.

Preclinical Data Supporting CPI-818’s Novel Immunotherapy Mechanism of Action
ITK inhibition with CPI-818 has the potential to treat solid and hematological cancers through a novel mechanism of action that has demonstrated the ability to modulate T cell differentiation and enhance the anti-tumor immune response via Th1 skewing, increased T cell cytolytic capacity and reduction of T cell exhaustion.

CPI-818 monotherapy provided statistically significant inhibition of tumor growth in established tumors in the following cancer models: EL4 TCL, A20 B cell lymphoma and CT26 colon cancer.
In the EL4 TCL model, treatment with CPI-818 led to increased infiltration of normal CD8+ T cells into the tumor. In addition, these CD8+ T cells had higher expression of perforin, an effector molecule produced by killer T cells that is involved in killing cancer cells.
In the CT26 colon cancer model, the depletion of CD8 cells reduced the efficacy of CPI-818 treatment, indicating that its mechanism of action involves the production of normal CD8+ T cells.
In the CT26 colon cancer model, treatment with CPI-818 reduced the expression of T cell exhaustion markers. T cell exhaustion is a phenomenon seen in tumors and chronic infections where prolonged exposure to antigens results in exhausted or ineffective T cell function and inability to eliminate tumors or infections.
In other murine studies using antigen primed T cells that were repeatedly stimulated, CPI-818 reduced the development of T cell exhaustion and reversed it in already exhausted T cells. These reinvigorated T cells regained their cancer cell killing capacity.
These findings indicate that the inhibition of ITK by CPI-818 produces changes in the tumor microenvironment that enhance anti-tumor immunity creating a less favorable environment for tumor growth.