TRACON Announces Publication in Cancer Cell of Clinical Data that Provides Molecular Insight into the Mechanism of Action of TRC102 and Patient Populations Most Likely to Respond to Treatment
The patient was diagnosed with metastatic and highly refractory colorectal cancer and received temozolomide (Temodar®) and TRC102. Following treatment, the patient was considered an exceptional responder through the achievement of a near compete response lasting 45 months at the most recent follow-up. Detailed molecular analyses of the patient’s tumor showed silencing of DNA repair pathways that may have resulted in sensitivity to the inhibition of DNA base excision repair pathway by TRC102. Specifically, MGMT expression was silenced by promoter methylation, and RAD50, a mediator of DNA double strand break repair, was silenced by genetic mutation and loss of heterozygosity. The publication authors hypothesized that the combination of Temodar and TRC102 was effective because all necessary DNA repair pathways were compromised genetically or through the activity of TRC102. MGMT expression was also assessed in biopsies from 11 colorectal patients who subsequently enrolled in an expansion cohort, one of which demonstrated a partial response. The tumor associated with the partial response did not express MGMT, whereas each of the 10 tumors that did not respond to therapy expressed this enzyme robustly.
TRC102 is being studied in multiple Phase 1 and Phase 2 clinical trials sponsored by the NCI through a
“The Cancer Cell publication supports our belief that patients whose cancers are dependent on the DNA base excision repair pathway to repair DNA damage from chemotherapy may be particularly sensitive to the pharmacologic effects of TRC102,” said James Freddo, M.D., Chief Medical Officer of TRACON. “The NCI data are also consistent with the results from the Phase 2 trial of Temodar and TRC102 in refractory glioblastoma. We remain committed to developing TRC102 in collaboration with the NCI and believe that the data generated to date provide strong rationale for studying TRC102 in combination with Temodar and radiotherapy in newly diagnosed patients with malignant glioma.”
About TRC102
TRC102 (methoxyamine) is a novel, clinical-stage small molecule inhibitor of the DNA base excision repair pathway, which is a pathway that causes resistance to alkylating and antimetabolite chemotherapeutics. TRC102 is currently being studied in multiple Phase 1 and Phase 2 clinical trials sponsored by the
About Malignant Glioma and GBM
GBM (also called glioblastoma) is a fast-growing malignant glioma that develops from star-shaped glial cells (astrocytes and oligodendrocytes) that support the health of the nerve cells within the brain. GBM is the most invasive type of glial tumors, rapidly growing and commonly spreading into nearby brain tissue. The
About TRACON
TRACON develops targeted therapies for cancer utilizing a capital efficient, CRO independent, product development platform. The Company’s clinical-stage pipeline includes: Envafolimab, a subcutaneous PD-L1 single-domain antibody being developed for the treatment of sarcoma in a registrational trial in the
Forward-Looking Statements
Statements made in this press release regarding matters that are not historical facts are “forward-looking statements" within the meaning of the Private Securities Litigation Reform Act of 1995. Because such statements are subject to risks and uncertainties, actual results may differ materially from those expressed or implied by such forward‐looking statements. Such statements include, but are not limited to, statements regarding TRACON's and the National Cancer Institute’s plans to further develop product candidates, expectations regarding clinical trials, development and regulatory plans, the potential benefits of TRC102, and TRACON’s business development strategy and goals. Risks that could cause actual results to differ from those expressed in these forward‐looking statements include: risks associated with clinical development; whether TRACON or others will be able to complete or initiate clinical trials on TRACON’s expected timelines, if at all, including due to risks associated with the COVID-19 pandemic or other pandemics; the fact that future preclinical studies and clinical trials may not be successful or otherwise consistent with results from prior studies; the fact that TRACON has limited control over whether or when third party collaborators complete on-going trials, initiate additional trials or seek regulatory approval of TRACON’s product candidates; the fact that TRACON’s collaboration agreements are subject to early termination; whether TRACON will be able to enter into additional collaboration agreements on favorable terms or at all; potential changes in regulatory requirements in
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Source: TRACON Pharmaceuticals, Inc.