On July 13, 2018 RiMO Therapeutics Inc., a privately held oncology drug development company and a pioneer in Radio-immuno Metal-Organic (RiMO) technology-based cancer immunotherapy, reported that the first patient has been dosed in a Phase 1 study of RiMO-301 in patients with advanced tumors (Press release, Rimo Therapeutics, JUL 13, 2018, View Source [SID1234527720]). RiMO-301 enhances the efficacy of X-ray radiotherapy via the unprecedented radiotherapy-radiodynamic therapy (RT-RDT) mode of action.

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"Initiation of this study represents not only a significant milestone for RiMO Therapeutics but also the field of nanoscale metal-organic frameworks (nMOFs), as RiMO-301 is the first nMOF-based product to enter clinical trials." said Wenbin Lin, Ph.D., founder and chairman of RiMO and also the James Franck Professor of Chemistry, Radiation & Cellular Oncology, and the Ludwig Center for Metastasis Research at the University of Chicago. "Most importantly, we believe this program has the potential to change the treatment paradigm for some cancer types and significantly benefit patients."

Dr. Lin and coworkers have recently published groundbreaking research on the synergistic effect when combining nMOFs with cancer immunotherapy (Nat. Biomed. Eng., doi:10.1038/s41551-018-0203-4). "We expect that this study will generate important insights about the safety of RiMO-301 with radiation and the potential to enhance therapeutic efficacy in the patient population for whom radiotherapy is only palliative." said Jason Luke, M.D., University of Chicago Medicine.

About the Study

The Phase 1 study is a prospective, open-label, single arm, non-randomized study of RiMO-301 with radiation in patients with advanced tumors. The primary objectives in the study include determining maximum tolerated dose (MTD), pharmacokinetics and preliminary anti-tumor activity of RiMO-301. Please refer to www.clinicaltrials.gov for additional clinical trial details.

On July 13, 2018 Taiho Pharmaceutical Co., Ltd. reported that it has exercised the option to adenosine receptor antagonists from Arcus Biosciences, a U.S.-based biotechnology company focused on the discovery and development of innovative cancer immunotherapies (Press release, Taiho, JUL 13, 2018, View Source [SID1234527686]). With the exercise of the option, Taiho has the exclusive right to develop and commercialize AB928 and backup compounds in Japan and certain other territories in Asia (excluding China). The option exercise is based on the Option and License Agreement contracted in September 2017.

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AB928 is an orally bioavailable small molecule compound which inhibits the adenosine 2a and 2b receptors. The activation of these receptors by adenosine on tumor infiltrating immune cells is thought to be one of the key mechanisms of immuno-suppression in the tumor microenvironment. AB928 may have the ability to reverse this situation by blocking these receptors. While adenosine receptor antagonists are being developed for several diseases other than cancer, AB928 was designed specifically for the oncology setting. Adenosine receptor antagonists have been an area of significant interest for many researchers, bio-tech and large pharmaceutical companies in the last decade.

In a Phase-I clinical trial in healthy volunteers conducted by Arcus, the safety, tolerability, pharmacokinetic and pharmacodynamic profile of AB928 was evaluated. Arcus has initiated several Phase-I/Ib studies to investigate the safety and clinical activity of AB928 in combination with chemotherapy or an anti-PD1 antibody in multiple types of cancer. Taiho and Arcus will work collaboratively to effectively investigate the optimal therapeutic approach and bring AB928 to cancer patients as quickly as possible.

Through this collaboration, Taiho continues its mission to deliver innovative drugs to patients and medical professionals.

On July 12, 2018 Onxeo S.A. (Euronext Paris, NASDAQ Copenhagen: ONXEO), ("Onxeo" or "the Company"), a clinical-stage biotechnology company specializing in the development of innovative drugs in oncology, in particular against rare or resistant cancers, reported new positive results from preclinical studies of AsiDNA, its first-in-class DNA Repair inhibitor, in combination with PARP inhibitors (PARPi) (Press release, Onxeo, JUL 12, 2018, View Source [SID1234527668]). The results of these extensive studies with different PARPi point to the ability of AsiDNA to prevent the occurrence of resistance and even to reverse the acquired resistance of the tumor cell after PARPi treatments. Furthermore, they show that the combination has a strong synergistic anti-tumor activity in in vitro and in vivo models of solid tumors resistant to PARPi (HR proficient). Together with the preliminary data on the activity and safety of AsiDNA expected in Q4 2018 from the DRIIV-1 clinical trial, these results support clinical development of AsiDNA in combination with PARP inhibitors, which should start from year-end 2018.

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Judith Greciet, Chief Executive Officer of Onxeo, said: "Onxeo is conducting an ambitious development program for AsiDNA, notably translational, in combination with various anti-cancer agents in order to provide strategic information aimed at determining the indications and combinations to target in further clinical development as soon as the first results from DRIIV-1 are available. Assessing the combination of AsiDNA with PARPi is a priority, as their mechanisms of action are very complementary in indications with high unmet medical needs. Sales for the PARPi class are already substantial in ovarian cancer and are expected to increase markedly in the near-term as products gain access to multiple additional oncology indications. Our recent studies indicate that AsiDNA in combination with PARPi could enable PARPi to overcome the requirement of a genetic mutation such as BRCA-, and show a strong synergistic activity versus PARPi alone. Moreover, the combination appears to both prevent the occurrence of resistance to PARPi and reverse the acquired resistance, which may considerably expand treatment duration with PARPi. A treatment combining AsiDNA and PARPi could therefore significantly broaden the patient population eligible to PARPi and improve their efficacy, which is of great interest to the scientific community, the pharmaceutical industry and the patients for its potential to address resistant cancers."

AsiDNA is a first-in-class DNA repair inhibitor in the field of DNA Damage Response (DDR) that mimics double-stranded DNA breaks in tumor cells, activating repair pathways, diverting repair enzymes from the target and finally depleting the cell through a unique mechanism of agonist and decoy.

Data show that in in vitro models of HR proficient TNBC (triple negative breast cancer) and SCLC (small cell lung cancer), AsiDNA maintains PARP1 expression, the repair enzyme inhibited by PARP inhibitors, and abrogates the occurrence of resistance to PARPi, including in models of cancers resistant to PARPi. Down regulation of the PARP1 enzyme is one of the mechanisms that supports the occurrence of resistance to PARPi inhibitors1. As AsiDNA hyper-activates repair enzymes, an up regulation of PARP1 expression following treatment with AsiDNA or with AsiDNA associated to PARPi support the use of AsiDNA to maintain the sensitivity to PARPi treatment.

Furthermore, combination treatment of olaparib with AsiDNA more than doubles the complete response rate observed with olaparib alone (71% vs. 33%) in an in vivo model of HR proficient TNBC model and inhibits tumor growth in a humanized Patient-Derived Xenograft (PDX) mice model of ovarian cancer resistant to olaparib. PDX models are considered highly predictive of clinical behavior2.

The Company will submit the detailed results of these preclinical studies to leading peer-reviewed publications and international scientific conferences.

Francoise Bono, Chief Scientific Officer of Onxeo, concluded: "These most recent data validate our disruptive approach to DNA-targeting and confirm the broad opportunities for our lead molecule thanks to its unique mechanism of action. Our team has built an extremely solid body of preclinical evidence, both in-vitro and in highly predictive humanized in-vivo models, which shows the potential of AsiDNA to reverse the resistance to PARP inhibitors and the strong synergy of their combination. This is the first part of our extensive translational plan which aims at confirming the full potential of AsiDNA in combination with other anticancer agents such as chemotherapies or epigenetic compounds, including belinostat. Additional data on these other possible combinations will be available after the summer to further inform the clinical development of AsiDNA in combinations offering the potential for significant therapeutic improvement."

On July 12, 2018 Genmab A/S (Nasdaq Copenhagen: GEN) reported that it has entered into a research collaboration and exclusive license agreement with privately owned Immatics Biotechnologies GmbH (Immatics), to discover and develop next-generation bispecific immunotherapies to target multiple cancer indications (Press release, Genmab, JUL 12, 2018, View Source [SID1234527670]). The deal strengthens Genmab’s position in immuno-oncology by combining Genmab’s proprietary technologies and antibody know-how with Immatics’ XPRESIDENT targets and T-cell receptor (TCR) capabilities. Genmab will receive an exclusive license to three proprietary targets from Immatics, with an option to license up to two additional targets at predetermined economics. The companies will conduct joint research, funded by Genmab, on multiple antibody and/or TCR-based bispecific therapeutic product concepts.

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Genmab may elect to progress any resulting product candidates, and will be responsible for development, manufacturing and worldwide commercialization. For any products that are commercialized by Genmab, Immatics will have an option to limited co-promotion efforts in selected countries in the EU.

"This collaboration with Immatics gives us the opportunity to combine our unique technologies and expertise to create differentiated novel next-generation therapies. We very much look forward to this exciting partnership in the field of cancer immunotherapy," said Jan van de Winkel, Ph.D., Chief Executive Officer of Genmab.

Carsten Reinhardt, M.D., Ph.D., Chief Medical Officer and Managing Director of Immatics, commented: "We are very pleased to join forces with one of the world-leading biotechnology companies to develop and advance novel and highly active cancer therapeutics. This collaboration underpins Immatics’ leadership in intracellular tumor target identification and T-cell receptor engineering." Dr. Reinhardt further said: "Our bispecific TCR technology exhibits exceptional potency and favourable pharmacokinetic properties by combining Immatics’ proprietary T-cell engaging format with our high-affinity and highly specific T-cell receptors as reported at AACR (Free AACR Whitepaper) 20181."

Under the terms of the agreement, Genmab will pay Immatics an upfront fee of USD 54 million and Immatics is eligible to receive up to USD 550 million in development, regulatory and commercial milestone payments for each product, as well as tiered royalties on net sales.

Today’s news does not impact Genmab’s 2018 Financial Guidance.

On July 12, 2018 ImmunoGen, Inc., (Nasdaq: IMGN), a leader in the expanding field of antibody-drug conjugates (ADCs) for the treatment of cancer, reported that Company will host a conference call at 8:00 a.m. ET on Friday, July 27, 2018 to discuss its second quarter operating results (Press release, ImmunoGen, JUL 12, 2018, View Source [SID1234527673]). Management will also provide a brief update on the business.

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Conference Call Information
To access the live call by phone, dial 719-785-1753; the conference ID is 2275763. The call may also be accessed through the Investors section of the Company’s website, www.immunogen.com. Following the webcast, a replay of the call will be available at the same location through August 10, 2018.