On January 24, 2019 Ribon Therapeutics, a clinical stage biotechnology company developing first-in-class therapeutics targeting novel enzyme families activated under cellular stress conditions, reported it will be presenting at two upcoming scientific conferences (Press release, Ribon Therapeutics, JAN 24, 2020, View Source [SID1234553520]).

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PARP & DDR Inhibitors Summit
Jan. 28-30, 2020
Location: Revere Hotel, Boston, MA

Presentation: Not all PARPs are Alike: Exploring the Therapeutic Potential of PARPi Beyond PARP1 Inhibitors
Speaker: Heike Keilhack, SVP of Biological Sciences
Time: 10am ET, Wednesday, Jan. 29
SLAS 2020 International Conference and Exhibition
Jan. 25-29, 2020
Location: San Diego Convention Center, San Diego, CA

Podium presentation: A Bespoke Screening Platform to Study mono(ADP-ribosylation)
Speaker: Tim Wigle, Director, Molecular Discovery Group
Time: 2:30pm PT, Wednesday, Jan. 29
Poster presentation: Development of Novel Biochemical Assays for the Screening of MonoPARP Enzymes
Speaker: Dave Church, Sr. Research Associate, Molecular Discovery Group
Time: 5:00pm PT, Tuesday, Jan. 28

On January 24, 2020 BERG, a biopharmaceutical company that merges biology with technology to map and identify drivers of diseases, reported the presentation of initial results from a Phase 2 clinical trial at the Gastrointestinal Cancer Symposium (ASCO-GI), being held in San Francisco from January 23 – 25, 2020 (Press release, Berg, JAN 24, 2020, View Source [SID1234553542]). The presentation provides details on the analysis of a Phase 2 clinical trial using BPM31510 in Pancreatic Ductal Adenocarcinoma (PDAC) refractory to current standard of care. Initial results demonstrated preliminary efficacy in patient’s refractory to chemotherapy regimens and identification of potential biomarkers of survival guided by the use of the BERG Interrogative Biology platform.

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"Interrogative Biology has enabled BERG to unravel unique insight into interconnected pathways that drive cancer by mapping the nature of disease biology through patient data and Bayesian AI," said Dr. Niven R. Narain, BERG Co-founder, President and Chief Executive Officer. "The research presented this week at ASCO (Free ASCO Whitepaper)-GI further demonstrates how the BERG platform can enhance and improve development of treatments for pancreatic cancer through discovery and validation of biomarkers to improve patient outcomes."

"Pancreatic cancer has continually remained elusive to successful development of novel therapeutic compounds. The observation of an efficacy signal and the parallel use of BERG’s platform to identify biomarkers predictive of response significantly increases chances of successful development of BPM31510," said Dr. Madappa Kundranda, Director Gastrointestinal Cancer Program, Banner MD Anderson Cancer Center, AZ and Principal Investigator at his clinical trial site.

For this trial, BERG has collaborated with leading institutions such as Banner MD Anderson, Gilbert, AZ; Bart’s Cancer Institute, Queen Mary University of London, UK; Medical College of Wisconsin, Milwaukee, WI; Mary Crowley Cancer Center, Dallas, TX; Beth Israel Medical Center/Harvard Medical School, Boston, MA, Royal Free London, UK; Mayo Clinic, Phoenix, AZ; Atlantic Health Systems, Morristown, NJ; Global Cancer Research Institute, San Jose, CA; Sarcoma Cancer Center, Santa Monica, CA; and Vita Medical Associates Bethlehem, PA. BERG is grateful to its patients and family partners and their participation in these critical efforts to improve patient care.

Details of the data presentations include:
Abstract Submission ID: 284735
Abstract Number: 723
Poster Board: L12

Abstract Title: Phase II trial of BPM31510-IV plus gemcitabine in advanced pancreatic ductal adenocarcinomas (PDAC).
Session Information:
Poster Session B: Hepatobiliary Cancer, Neuroendocrine/Carcinoid, Pancreatic Cancer, and Small Bowel Cancer
Session Date & Time:
1/24/2020, 12:00 PM-1:30 PM; 4:30 PM-5:30 PM

On January 24, 2020 CStone Pharmaceuticals ("CStone" or the "Company", HKEX: 2616) reported that it has dosed the first patient in Australia in a clinical trial of CS1001, an investigational PD-L1 inhibitor developed by CStone, in combination with regorafenib, an oral multi-kinase inhibitor developed by Bayer Healthcare LLC ("Bayer") (Press release, CStone Pharmaceauticals, JAN 24, 2020, View Source [SID1234553543]). This is the first global proof-of-concept study carried out as a collaboration between CStone and Bayer. It is designed to assess the safety, tolerability, pharmacokinetics, and antitumor activity of the CS1001 plus regorafenib combination in patients with advanced solid tumors including gastric cancer, and to determine the recommended dose for subsequent studies.

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CS1001 is an investigational anti-PD-L1 monoclonal antibody discovered by CStone. The drug candidate is being investigated in a number of clinical trials, including one Phase I bridging study in the U.S., one multi-arm Phase Ib study, two Phase II registrational studies and four Phase III studies in China for several tumor types. The Phase Ia/Ib results released at the 2019 Chinese Society of Clinical Oncology (CSCO) Annual Meeting have shown CS1001 to be well tolerated with promising antitumor activities across multiple cancers.

Developed by Bayer, regorafenib is an oral multi-kinase inhibitor that potently blocks protein kinases including VEGFR, FGFR, and CSF1R. Regorafenib has been approved in more than 90 countries, including China, for the second- or later-line treatment of patients with metastatic colorectal cancer, metastatic gastrointestinal stromal tumors, and advanced hepatocellular carcinoma.

In May 2019, CStone and Bayer entered into a global clinical collaboration in which CStone will sponsor clinical studies of the CS1001 in combination with regorafenib. Bayer will provide regorafenib for CStone-sponsored studies.

There is a large body of evidence demonstrating the clinical benefits of monotherapy with kinase inhibitor or anti-PD-1/L1 antibody in multiple malignancies. Preclinical studies revealed that targeted therapies such as regorafenib could bolster the efficacy of immune checkpoint inhibitors in select solid tumors through modulating the tumor immune microenvironment, implicating possible synergistic antitumor effects between the two mechanisms of action.

"Our collaboration with Bayer in this clinical program marks an important milestone in the implementation of CStone’s global strategy I am very pleased that the first patient has been dosed in this combination study.," said Dr. Frank Jiang, Chairman and CEO of CStone. "We hope this clinical program will strengthen CStone’s pipeline, and above all demonstrate the utility of this combination in improving the clinical outcomes for cancer patients who lack effective treatments."

"Preclinical studies in animal models have shown enhanced antitumor activity by the CS1001 plus regorafenib combination, lending evidential support to the design of this proof-of-concept study. In addition, a range of global studies of similar immuno-combination therapies have generated promising results in advanced or metastatic solid tumors," said Dr. Archie Tse, Chief Translational Medicine Officer at CStone. "We hope results from this trial will further validate the combination of multi-kinase inhibitors and immunotherapy in select tumors."

About Regorafenib (Stivarga)

Regorafenib is an oral multi-kinase inhibitor that potently blocks multiple protein kinases involved in tumor angiogenesis (VEGFR1, -2, -3, TIE2), oncogenesis (KIT, RET, RAF-1, BRAF), metastasis (VEGFR3, PDGFR, FGFR) and tumor immunity (CSF1R).

Regorafenib is a compound developed by Bayer. In 2011, Bayer entered into an agreement with Onyx, now an Amgen subsidiary, under which Onyx receives a royalty on all global net sales of regorafenib in oncology.

Regorafenib is approved under the brand name Stivarga in more than 90 countries worldwide, including the U.S., countries of the EU, China and Japan for the treatment of metastatic colorectal cancer (mCRC) and metastatic gastrointestinal stromal tumors (GIST) and second-line treatment of advanced hepatocellular (HCC).

About CS1001

CS1001 is an investigational monoclonal antibody directed against PD-L1 being developed by CStone. Authorized by the U.S. based Ligand Corporation, CS1001 is developed by the OMT transgenic animal platform, which can generate fully human antibodies in one step. As a fully human, full-length anti-PD-L1 monoclonal antibody, CS1001 mirrors natural G-type immune globulin 4 (IgG4) human antibody, which can reduce the risk of immunogenicity and potential toxicities in patients, potentially representing a unique advantage over similar drugs.

CS1001 has completed a Phase I dose-escalation study in China, in which CS1001 showed good tolerability and produced sustained clinical benefits during the Phase Ia stage of the study.

CS1001 is being investigated in a number of ongoing clinical trials, including one Phase I bridging study in the U.S., one multi-arm Phase Ib study, two Phase II registrational studies and four Phase III studies in China for several tumor types.

On January 24, 2020 Ervaxx, a biotechnology company pioneering the use of Dark Antigens to develop T-cell receptor (TCR)-based immunotherapies and off-the-shelf cancer vaccines, reported that it has entered a licensing and research collaboration with a leading T-cell immunology group at Cardiff University (Cardiff, UK) (Press release, Ervaxx, JAN 24, 2020, View Source [SID1234553525]).

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The new collaboration will support a multi-year research program with Prof. Andrew Sewell’s T-cell modulation group at Cardiff University focusing on the discovery and characterization of T-cells and TCRs reactive to cancer-specific antigens and ligands, including Ervaxx’ proprietary Dark Antigens. Ervaxx will fund the program.

The collaboration will also advance exciting new research published earlier this week by the Cardiff University team in Nature Immunology1, where they identified a T cell clone that recognized and killed multiple different types of human cancer, while remaining inert to non-cancerous cells. The T cell clone targets MR1, an MHC class 1-related protein, via an unidentified cancer-specific ligand. These exciting findings, validated in a preclinical model, open the prospect of immunotherapies with broad utility across patients with diverse cancers. This approach into previously unexplored cell surface epitopes complements and extends Ervaxx’s exploration of novel cancer-specific antigens.

Under the agreement, Ervaxx gains an exclusive license to relevant Cardiff University patents claiming T cells and TCRs reactive to cancer-specific antigens. The Company has the right to advance resulting candidate T-cell/TCR-based immunotherapeutics and cancer vaccines through development and commercialization. Cardiff University is eligible to receive milestone payments on any candidates that advance from the discovery collaboration into clinical development and royalty payments on sales of any products that reach the market.

"Ervaxx’s Dark Antigens, which are derived from the 98% of the genome that does not encode known proteins, constitute a promising and yet untapped source of targets for immunotherapies. This collaboration will use our world-class expertise in T-cell biology to identify T cells and TCRs reactive to those targets and pave the way for a new wave of treatments in cancer, and potentially other areas. This includes our most recent discovery, published in Nature Immunology, of a T-cell clone that targets MR1 to recognize and kill cancer cells, irrespective of cancer or human leukocyte antigen (HLA) type, offering opportunities for pan-cancer, pan-population cancer immunotherapies."

Prof. Andrew Sewell, Head of the T-cell modulation group, Cardiff University
"We are excited to announce this collaboration with Prof. Sewell’s world-class research group. We have great hope that through the combination of this expertise with our Dark Antigens and application of our EDAPT platform, we will be able to identify further targets to expand our portfolio of TCR-based therapies and cancer vaccines. We are also thrilled to contribute to the development of the group’s exciting new MR1 research, which shows early but enormous potential for the treatment of cancers. This partnership, which follows those with the University of Oxford, University of Cambridge and Johns Hopkins University School of Medicine, reinforces our ambition to collaborate with leading academic institutions and be at the cutting edge of the T-cell immunology field to drive the development of novel off-the-shelf cancer therapies .

On January 24, 2020 Roche (SIX: RO, ROG; OTCQX: RHHBY) reported that the Phase III IMvigor010 study evaluating Tecentriq (atezolizumab) as an adjuvant (after surgery) monotherapy treatment did not meet its primary endpoint of disease-free survival (DFS) compared to observation in people with muscle-invasive urothelial cancer (MIUC) (Press release, Hoffmann-La Roche, JAN 24, 2020, View Source [SID1234553544]). Safety for Tecentriq appeared consistent with the known safety profile of the medicine, and no new safety signals were identified.

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"Reducing the risk that muscle-invasive urothelial cancer will recur after surgery is very difficult, and we are disappointed that we were not able to significantly prolong disease-free survival," said Levi Garraway, M.D., Ph.D., Chief Medical Officer and Head of Global Product Development. "We remain committed to exploring the potential benefits of immunotherapy for more people with early cancers."

The goal in treating MIUC early is to reduce the risk of the disease recurring or spreading to other parts of the body. More treatment options following surgery are needed as approximately half of people with MIUC will develop a recurrence of their disease within 2 years of surgery.1

In addition to ongoing Phase III studies in early and advanced bladder cancer, Roche has an extensive development programme for Tecentriq, including multiple ongoing and planned Phase III studies across several types of lung, genitourinary, skin, breast, gastrointestinal, gynaecological, and head and neck cancers. This includes studies evaluating Tecentriq both alone and in combination with other medicines.

About the IMvigor010 study
IMvigor010 is a global Phase III, open-label, randomised, controlled study designed to evaluate the efficacy and safety of adjuvant treatment with Tecentriq compared to observation in 809 people with MIUC, who are at high risk for recurrence following resection. The primary endpoint is DFS as assessed by investigator, which is defined as the time from randomisation to invasive urothelial cancer recurrence or death.

About bladder cancer and muscle-invasive urothelial cancer
In 2018, there were over half a million new cases of bladder cancer diagnosed globally, with approximately 200,000 deaths from the disease.2 Urothelial cancer is the most common type of bladder cancer, accounting for about 90–95% of all cases.3 MIUC is a type of urothelial cancer that has spread into the muscle of the bladder, ureter or renal pelvis.4 Approximately 25% of new cases of bladder cancer are diagnosed with muscle-invasive disease,5 which is associated with a poorer prognosis than non-MIUC.4

About Tecentriq
Tecentriq is a monoclonal antibody designed to bind with a protein called PD-L1, which is expressed on tumour cells and tumour-infiltrating immune cells, blocking its interactions with both PD-1 and B7.1 receptors. By inhibiting PD-L1, Tecentriq may enable the activation of T cells. Tecentriq is a cancer immunotherapy that has the potential to be used as a foundational combination partner with other immunotherapies, targeted medicines and various chemotherapies across a broad range of cancers. The development of Tecentriq and its clinical programme is based on our greater understanding of how the immune system interacts with tumours and how harnessing a person’s immune system combats cancer more effectively.

Tecentriq is approved in the US, EU and countries around the world, either alone or in combination with targeted therapies and/or chemotherapies in various forms of non-small cell and small cell lung cancer, certain types of metastatic urothelial cancer, and in PD-L1-positive metastatic triple-negative breast cancer.

About Roche in cancer immunotherapy
For more than 50 years, Roche has been developing medicines with the goal to redefine treatment in oncology. Today, we’re investing more than ever in our effort to bring innovative treatment options that help a person’s own immune system fight cancer.

By applying our seminal research in immune tumour profiling within the framework of the Roche-devised cancer immunity cycle, we are accelerating and expanding the transformative benefits with Tecentriq to a greater number of people living with cancer. Our cancer immunotherapy development programme takes a comprehensive approach in pursuing the goal of restoring cancer immunity to improve outcomes for patients.