Redx Pharma Announces Phase 2 Dose Selection of its Porcupine Inhibitor, RXC004

Redx Pharma (AIM: REDX), the drug discovery and development company focused on cancer and fibrosis, announces it has selected 2 mg once daily as the dose of RXC004 for the planned Phase 2 monotherapy, proof of concept clinical trials based on the safety profile observed in Phase 1. The studies are expected to start during the second half of 2021. RXC004 is the Company's lead drug candidate and is a highly potent, orally active porcupine inhibitor being developed as a targeted therapy for Wnt-ligand driven cancer. Porcupine is a key enzyme in the Wnt pathway, well established as a key driver of both tumour growth and immune evasion.

The selection of a dose and decision to move RXC004 into Phase 2, follows the successful recruitment of all patients to the monotherapy arm of the Company's ongoing open label dose escalation Phase 1 study (NCT03447470). The primary objective of the Phase 1 study was to establish the safety and tolerability of RXC004 in patients. Preliminary data from the study in patients with unselected advanced solid tumours, showed that RXC004 2mg once daily was safe, tolerated and provided target coverage at levels required to assess monotherapy efficacy in Phase 2 clinical trials in selected patients with Wnt-ligand driven cancers. Whilst the Phase 1 study was in genetically unselected cancers, the data suggested a differential level of activity between Wnt-ligand driven cancers and non Wnt-ligand driven cancers, in line with observations of other molecules in this class. Redx plans to present the monotherapy results from the Phase 1 study at the ESMO Congress in September 2021.

Lisa Anson, Chief Executive Officer of Redx Pharma commented "Our Phase 1 monotherapy study supports our belief that RXC004 has the potential to be a significant, novel targeted medicine for the treatment of Wnt-ligand driven cancer. Our distinctive approach to drug discovery has enabled our highly talented scientific team to design our Porcupine Inhibitor to unlock the therapeutic potential of Wnt pathway blockade, a long sought-after oncology target. The decision to progress to Phase 2 and the selection of our monotherapy dose represent major milestones in the clinical development of our lead asset."

Jane Robertson, Chief Medical Officer of Redx Pharma added "The Redx team and our investigators are excited to move forward into Phase 2 clinical studies to evaluate the efficacy of RXC004 as monotherapy in selected patients with mCRC, pancreatic and biliary tract cancers, whose tumours have high Wnt-ligand dependency. We look forward to initiating these studies in the coming months."

About the Phase 2 programme

Redx plans to commence a global Phase 2 monotherapy programme in three tumour types to assess RXC004 efficacy in patients with Wnt ligand-driven cancers. In two tumour types, microsatellite stable metastatic colorectal cancer (MSS mCRC) and pancreatic cancer, the studies will enrol only patients whose tumours have high Wnt-ligand dependency resulting from specific genetic aberrations (RNF43 mutations and/or RSPO fusions). A third proof of concept study will enrol patients diagnosed with biliary tract cancer, a tumour known to have high Wnt-ligand dependency. All three of these cancer types have high unmet need with limited treatment options and poor 5-year survival rates of less than 3% for biliary and pancreatic cancer and 14% for mCRC. All three studies are planned to commence in H2 2021 and initial results could be available from 2022. RXC004 is also currently being investigated in a Phase 1 study in combination with nivolumab (OPDIVO® - Bristol Myers Squibb, an anti-PD-1 antibody). The primary objective of this arm of the study is to evaluate the safety and tolerability of this combination in patients with unselected advanced malignancies. The results from this combination study are expected in H2 2021 and will be used to define a dose of RXC004 to be used in combination with standard dose nivolumab in a Phase 2 study in patients with genetically selected microsatellite stable (MSS) metastatic colorectal cancer (MSS mCRC).