On February 7, 2023 Nectin Therapeutics Ltd. (Nectin), a biotechnology company developing novel targeted immunotherapies that address resistance to approved immune oncology treatments, reported that it has entered into a clinical trial collaboration agreement with Merck (known as MSD outside the United States and Canada) (Press release, Nectin Therapeutics, FEB 7, 2023, View Source [SID1234626941]). Under this collaboration, Nectin will evaluate the safety, tolerability, and antitumor activity of its novel anti-PVR antibody, NTX1088, in combination with KEYTRUDA (pembrolizumab), Merck’s anti-PD1 therapy, in patients with locally advanced and metastatic solid tumors.
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NTX1088 is a First-in-Class, highly potent monoclonal antibody directed against PVR (CD155), a transmembrane protein expressed on cancer cells and associated with resistance to PD1 and PDL1 immune checkpoint inhibitors. PVR blockade by NTX1088 is the first and only therapeutic approach aiming at restoring the antitumor immune activity of DNAM1 (CD226). DNAM1 is a cell surface glycoprotein, central to the function of T and NK cells, that is suppressed by PVR on tumor cells. Restoring the expression and activation of DNAM1 by blocking PVR results in increased antitumor activity from T and NK cells. PVR blockade by NTX1088 further stimulates an antitumor immune response by preventing the suppressing signaling of several immune checkpoint receptors, including TIGIT and CD96.
PVR is overexpressed in many solid tumors across different cancer indications, including lung, colorectal, liver, ovarian, breast, adrenal, pancreatic, uterine, head and neck, gastric and esophageal cancers. High PVR expression is associated with poor prognosis and with resistance to PD1 and PDL1 blockade, making PVR an attractive therapeutic target for novel immuno-oncology therapies, both as a monotherapy and in combination with PD1 blockers.
Phase 1 trial with NTX1088 was initiated in November 2022. KEYNOTE-E92 NCT05378425 is an open label study consisting of a dose escalation stage, followed by an expansion stage in 90 patients. NTX1088 will be investigated as a single agent and in combination with KEYTRUDA. The primary objectives of the dose escalation stage are to assess safety and tolerability and to select a recommended safe and effective Phase 2 dose. In the expansion stage, NTX1088’s safety and tolerability will be further evaluated, along with efficacy measures and exploratory assessments of pharmacodynamic and predictive biomarkers. Dr. Sarina Phia-Paul, Associate Professor of Investigational Cancer Therapeutics at MD Anderson Cancer Center, is the trial Principal Investigator.
"We are very pleased to partner with Merck to explore the therapeutic potential of NTX1088 in combination with KEYTRUDA. This collaboration represents an important milestone for Nectin, and a promising new therapy for cancer patients," said Dr. Keren Paz, Chief Development Officer of Nectin Therapeutics. "Our preclinical studies have shown that PVR blockade by NTX1088, as a monotherapy, and in combination with PD1 inhibitors, can significantly enhance antitumor immunity. We look forward to advancing the clinical trials for NTX1088, as we pursue the development of new treatment options for patients who do not respond to existing therapies."
KEYTRUDA is a registered trademark of Merck Sharp & Dohme LLC, a subsidiary of Merck & Co., Inc., Rahway, NJ, USA.
About NTX1088
NTX1088 is a first-in-class monoclonal antibody directed against a key immune checkpoint, PVR, also known as CD155 currently in Phase I clinical trial. NTX1088 blocks the interaction between PVR and DNAM1, also known as CD226, a transmembrane molecule, involved in the activation of anti-cancer T and NK cells. By preventing internalization and degradation of DNAM1, NTX1088 leads to restoration of DNAM1 expression on the surface of immune cells, resulting in a robust antitumor activity. NTX1088 also blocks PVR interactions with its other ligands, TIGIT and CD96, preventing their immune inhibitory signaling. NTX1088 demonstrates superior antitumor activity compared to approved and investigational immune checkpoint inhibitors in preclinical models and had a favorable safety profile in non-human primates.