On June 15, 2022 Jazz Pharmaceuticals (NASDAQ: JAZZ) and Redx (AIM: REDX) reported the U.S. Food and Drug Administration (FDA) has cleared the Investigational New Drug (IND) application for JZP815, a pan-RAF inhibitor for the treatment of solid tumors and hematologic malignancies that contain mutations in the MAPK pathway, enabling Jazz to proceed with initiating a clinical trial for JZP815 (Press release, Redx Pharma, JUN 15, 2022, View Source [SID1234616005]). As a result, a milestone payment of USD $5 million from Jazz payable to Redx has been triggered.

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The milestone payment was triggered under the Agreement in which Jazz acquired Redx’s pan-RAF inhibitor programme, announced on 10 July 2019. Redx carried out development activities up to the completion of IND-enabling studies. Today’s milestone is on top of USD $6.5 million already received under the collaboration and Redx remains entitled to development, regulatory and commercial milestone payments as well as incremental tiered royalties in mid-single digit percentages, based on any future net sales.

Preclinical data from this pan-RAF programme was recently presented at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) conference in March. JZP815 is a precision pan-RAF inhibitor with a differentiated mechanism of action, and Jazz expects to assess its utility in treating several types of difficult-to-treat solid tumours where there remains significant unmet patient needs. Jazz expects to advance JZP815 into a Phase 1 clinical programme and, when initiated, JZP815 will be the fifth compound discovered by Redx to enter the clinic.

Lisa Anson, Chief Executive Officer of Redx, commented: "I am delighted that the IND application for the pan-RAF inhibitor, JZP815, has been accepted. When Jazz commence the clinical programme this will become the fifth drug candidate discovered by Redx to enter the clinic, further validating our world-class research and development capabilities. We value the strong relationship we have built with Jazz Pharmaceuticals and look forward to continuing our work together."

Rob Iannone, M.D., M.S.C.E., Executive Vice President, Global Head of Research and Development of Jazz Pharmaceuticals, commented: "We’re excited to advance JZP815, a precision pan-RAF inhibitor with a differentiated mechanism of action, into a clinical trial programme. JZP815 may represent a significant advancement in the pan-RAF inhibitor class by not inducing paradoxical pathway activation that can stimulate the growth of certain cancers. The JZP815 programme exemplifies our continued progress in expanding our early-stage oncology pipeline, and in developing therapies with the potential to address unmet patient need. Redx has an exceptional team of research and development scientists and together we have formed an outstanding collaboration, leveraging the strengths of both companies."

Jazz and Redx also have a separate collaboration agreement to discover and develop drug candidates in the RAS-RAF-MAP kinase (MAPK) pathway, where Redx is again responsible for research and preclinical development activities up to IND application to the FDA.

About Pan-RAF inhibitors
Mutations leading to uncontrolled signalling in the RAS-RAF-MAPK pathway are seen in around one third of all cancers. The Company’s pan-RAF inhibitor programme aims to overcome resistance mechanisms associated with clinically approved B-RAF selective drugs.

The RAF kinases A-RAF, B-RAF and C-RAF are an integral part of the RAS-RAF-MAPK pathway, with B-RAF mutations commonly seen in the clinic. Although most B-RAFV600E/K mutant skin cancers are initially sensitive to approved B-RAF selective drugs, treatment resistance often develops leading to disease progression. Moreover, B-RAFV600E mutant colorectal cancers are surprisingly insensitive to these B-RAF selective drugs as single agents due to the compensatory functions of other RAF family members. Importantly, B-RAF selective therapies fail to show clinical benefit against the more prevalent RAS-mutated tumours.

About JZP815
JZP815 is an investigational, pre-clinical stage pan-RAF kinase inhibitor that was discovered and developed using state-of-the-art screening methodologies and medicinal chemistry. JZP815 targets specific components of the mitogen-activated protein kinase (MAPK) pathway that, when activated by oncogenic mutations, can be a frequent driver of human cancer. JZP815 potently inhibits both monomer- and dimer-driven RAF signaling (e.g., RAS-induced), prevents paradoxical pathway activation induced by BRAF selective inhibition, and is active against class 1, class 2, and class 3 BRAF mutants, as well as BRAF fusions and CRAF mutants. JZP815 is not currently approved for use anywhere in the world. JZP815 is part of Jazz’s growing early-stage R&D pipeline focused on solid tumours and targeted therapy.

On June 15, 2022 IceCure Medical Ltd. (NASDAQ: ICCM) (TASE: ICCM) ("IceCure" or the "Company"), developer of minimally-invasive cryoablation technology, the ProSense System that destroys tumors by freezing as an alternative to surgical tumor removal, reported ProSense was featured in a categorical course titled "Cryoablation for the Treatment of Breast Cancer: Breast Interventions for the Interventionalist" on Tuesday, June 14, 2022 at the Society of Interventional Radiology (SIR) Annual Scientific Meeting in Boston ("SIR 2022 Conference") (Press release, IceCure Medical, JUN 15, 2022, View Source [SID1234616021]).

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ProSense was well received by physicians, potential U.S.-based customers including medical clinics and hospitals, and international distributors interested in partnerships. The categorical course, which provided information and training on image guided breast cancer cryoablation, came on the same day that IceCure announced its cryoablation system will be distributed in mainland China by Shanghai Medtronic Zhikang Medical Devices Co. Ltd. ("Shanghai Medtronic"), an affiliate of Medtronic plc (NYSE: MDT), and Beijing Turing Medical Technology Co. Ltd. ("Turing"), with the first systems expected to be delivered in 2022.

The categorical course was presented at SIR 2022 Conference by a panel of experts in radiology and breast cancer, including:

Dr. Kenneth Tomkovich, Diagnostic and Interventional Radiologist at Princeton Radiology, Director of Breast Imaging and Interventions at CentraState Medical Center, and Co-lead Investigator of IceCure’s landmark ICE3 study of ProSense in the treatment of small, low-risk, early-stage malignant breast tumors;
Professor Eisume Fukuma, Director of Breast Cancer at Kameda Medical Center, Japan, a pioneer in the study of breast cancer cryoablation, and ProSense user;
Dr. Alexander Sevrukov, Assistant Professor, Director, Women’s Diagnostic Center at Methodist Hospital, a participant in the ICE3 trial, and ProSense user;
Dr. Monica L. Huang, Associate Professor, Department of Breast Imaging, Division of Diagnostic Imaging at the University of Texas MD Anderson Cancer Center;
Dr. Jason Shames, MD, MBS, Assistant Professor of Radiology, Associate Director of Research, Division of Breast Imaging, Co-Director, Breast Imaging Fellowship at Thomas Jefferson University; and
Dr. Gao-Jun Teng, Professor of Radiology at the Center of Interventional Radiology and Vascular Surgery, Department of Radiology, Zhongda Hospital, Medical School, Southeast University, and former President of the Chinese Society of Interventional Radiology
Dr. Tomkovich commented, "The inclusion of a categorical course on breast cancer cryoablation at the SIR 2022 Conference represents a major shift in the way the interventional and breast radiologist can approach the treatment of small, low-risk, breast cancers and highlights the interest of the professional community about how they can offer such treatments to their patients. The promising interim ICE3 clinical data continues to show that cryoablation for certain types of breast cancers is safe, effective, and is the future of breast cancer care."

IceCure CEO, Eyal Shamir, added, "On the heels of the announcement of our distribution agreement with Shanghai Medtronic and Turing, this is an ideal time for ProSense to be featured at the SIR 2022 Conference as we work toward regulatory approval in early-stage breast cancer following the filing of our pre-submission package to the U.S. Food and Drug Administration in November 2021. We extend our gratitude to the panel of experts who presented ProSense in the categorial course. Several of the doctors have been using ProSense and their perspective is invaluable for IceCure’s potential customers and partners."

On June 15, 2022 Phanes Therapeutics, Inc. (Phanes), an emerging leader in innovative discovery research and clinical development in oncology reported that it has received clearance from the US Food and Drug Administration to commence Phase I studies with PT886, its anti-claudin18.2/anti-CD47 bispecific antibody being developed for patients with gastric, gastroesophageal junction (GEJ) and pancreatic cancers (Press release, Phanes Therapeutics, JUN 15, 2022, View Source;an-anti-claudin18-2anti-cd47-bispecific-antibody-being-developed-for-patients-with-gastric-gastroesophageal-junction-and-pancreatic-cancers-301568015.html [SID1234616022]).

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"The clearance of our second IND this year is an important milestone for Phanes and the opportunity to bring this potential first-in-class bispecific antibody to cancer patients who have such a high unmet medical need is what drives us every day," said Dr. Ming Wang, Founder and CEO. "We have built a strong pipeline in immuno-oncology by leveraging our proprietary technology platforms and expect to file one additional IND with PT217, an anti-DLL3/anti-CD47 bispecific antibody for the potential treatment of small cell lung cancer and other neuroendocrine cancers. This continues to be a transformational year for Phanes as we now progress two programs into the clinic".

PT886 is a native IgG-like bispecific antibody assembled with Phanes’ proprietary PACbody and SPECpair platforms. Its advancement into clinical stage further validates Phanes’ bispecific antibody technology platforms.

Gastric, gastroesophageal junction (GEJ) and pancreatic cancers are considered as some of the most incurable cancers worldwide. In patients with advanced or metastatic gastric or GEJ adenocarcinoma, the median overall survival is no more than 10 months and that for pancreatic cancers is equally dismal with a median overall survival of 6-11 months. The multi-center, Phase I clinical trial of PT886 is designed to evaluate the safety, tolerability, pharmacokinetics, and preliminary efficacy of PT886 in adult patients with metastatic gastric adenocarcinoma, GEJ adenocarcinoma, and pancreatic ductal adenocarcinoma (PDAC) that have progressed after available standard therapy or for which standard therapy has proven to be ineffective, intolerable or is considered inappropriate.

On June 15, 2022 Oncotelic Therapeutics, Inc. ("Oncotelic" or the "Company") (OTCQB:OTLC), developer of treatments for rare and orphan indications, including Parkinson Disease and various cancers, reported that the Company presentation at BIO International Convention is now available at View Source (Press release, Oncotelic, JUN 15, 2022, View Source [SID1234616007]).

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On June 15, 2022 Omega Therapeutics, Inc. (Nasdaq: OMGA) ("Omega") reported the submission of an Investigational New Drug (IND) application to the U.S. Food and Drug Administration (FDA) for the Company’s lead product candidate, OTX-2002, for the treatment of hepatocellular carcinoma (HCC) (Press release, Omega Therapeutics, JUN 15, 2022, View Source [SID1234616023]). OTX-2002, an Omega Epigenomic Controller, is designed to downregulate c-Myc (MYC) expression pre-transcriptionally through epigenetic modulation while potentially overcoming MYC autoregulation.

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"This is an important milestone for our Company, an IND achieved in approximately 26 months since we started working on the early constructs in discovery which culminated in OTX-2002. We are excited that this represents the first of many anticipated IND applications and the transition of the company to its next stage," said Mahesh Karande, President and Chief Executive Officer of Omega Therapeutics. "This also marks a milestone regulatory submission for the first epigenomic controller, a new class of programmable mRNA therapeutics enabled by our OMEGA platform. We believe our approach to engineering epigenomic controllers has immense potential across a broad range of diseases, including HCC, which carries a 5-year survival rate of only 10%. We look forward to advancing OTX-2002 into the clinic and bringing it one step closer to patients in need."

The Company plans to initiate a Phase 1 clinical trial in the U.S. to evaluate OTX-2002, following FDA clearance.

About OTX-2002
OTX-2002 is a first-in-class Omega Epigenomic Controller in development for the treatment of HCC. OTX-2002 is a mRNA therapeutic delivered via lipid nanoparticles (LNPs) and is designed to downregulate c-Myc (MYC) expression pre-transcriptionally through epigenetic modulation while potentially overcoming MYC autoregulation. The MYC oncogene is associated with aggressive disease in up to ~70% of patients with HCC. An IND application has been submitted to the FDA.