On August 20, 2018 CANbridge Life Sciences, a biotech company privately-held and headquartered in Beijing, China, reported that it has received Clinical Trial Application (CTA) approval from the China Food and Drug Administration (CFDA) to conduct clinical trials in China with its drug candidate CAN017 (Press release, Boehringer Ingelheim, AUG 20, 2018, View Source [SID1234529004]).

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Boehringer Ingelheim’s biopharmaceutical contract manufacturing business, known as Boehringer Ingelheim BioXcellence, is providing the Chemistry, Manufacturing, and Control (CMC) services for CAN017 since the collaboration started in August 2016. Boehringer Ingelheim BioChina supported the successful application approval by GMP compliant manufacturing and support for China CTA regulatory filing services from CMC perspective.

CAN017 is an ErbB3 (HER3) inhibitory antibody for the treatment of esophageal squamous cell cancer (ESCC). ESCC is the most prevalent form of esophageal cancer and occurs primarily in Asia with 50% cases in China. CANbridge acquired the development rights of CAN017 from US-based AVEO in 2016 after the completion of US Phase 1 trial in solid tumors and will now commence Phase Ib/III study in China.

Dr. Jiali Luo, General Manager and Site Head of Boehringer Ingelheim BioChina, congratulates CANbridge for the progress achieved with CAN017: "Through our supplies at the highest global quality standards, we are committed to providing CANbridge with full support to commercialization. We are proud of being CANbridge’s partner to serve cancer patients with this important medicine".

On August 20, 2018 Transgene (Euronext Paris: TNG), a biotech company that designs and develops virus-based immunotherapies against cancers and infectious diseases, reported the completion of the transactions signed with Tasly Biopharmaceuticals. Co. Ltd. ("Tasly Biopharmaceuticals") on July 10, 2018 (Press release, Transgene, AUG 20, 2018, View Source [SID1234621825]). These agreements demonstrate the significant potential of the novel oncolytic virus TG6002 and the chronic hepatitis B therapeutic vaccine TG1050, on which the regional products T6011 and T1011 are based. T601 and T101 are now being developed by Tasly Biopharmaceuticals for patients in Greater China2.

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All closing conditions including completion of the administrative transfer of the assets contributed by Transgene to Tasly Biopharmaceuticals have been completed and 27.4 million newly-issued shares of Tasly Biopharmaceuticals valued at $48 million have been delivered to Transgene.

As a result of the transactions, Transgene holds approximately 2.53% of the outstanding capital of Tasly Biopharmaceuticals, which announced its intention to float on the Hong Kong Stock Exchange. Tasly Biopharmaceuticals controls all research, development and commercial rights to T601 and T101 in Greater China.

Transgene continues to develop TG6002 and TG1050 outside of Greater China.

The details of the transactions are described in the press release distributed on July 10, 2018.

On August 20, 2018 Galera Therapeutics, Inc., a clinical-stage biotechnology company focused on the development of drugs targeting oxygen metabolic pathways with the potential to transform cancer radiotherapy, reported that Co-Founder and Chief Scientific Officer Dennis Riley, Ph.D., will deliver an oral presentation as part of The Halpern Legacy Symposium today at the 256th National Meeting & Exposition of the American Chemical Society (ACS) in Boston (Press release, Galera Therapeutics, AUG 20, 2018, View Source [SID1234529007]).

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The presentation will detail the chemical design and development of Galera’s lead candidate GC4419, a highly selective and potent small molecule dismutase mimetic, for use as a pharmaceutical agent to reduce the undesired side effects of radiation therapy for the treatment of cancer.

Dr. Riley and his team designed GC4419, the synthetic enzyme which mimics the function of the naturally occurring superoxide dismutase enzymes that convert superoxide to molecular oxygen and hydrogen peroxide. GC4419’s molecular structure is based on a 15-membered macrocyclic ring complex of manganese(II) and GC4419’s GMP synthesis yields a molecule with >99.8 percent chemical purity. The molecule is selective, stable in vivo and does not react with other oxygen species, and its low molecular weight contributes to its ability to access a cell’s cytosol and mitochondria.

"The ability to develop a low-molecular-weight synthetic enzyme that harnesses the power of dismutase mimetics to function as a radiation response modifier, with efficient chemical synthesis and stability, offers a new paradigm for drug design," said Dr. Riley. "We’re pleased to present for the first time publicly on the discovery and structure of GC4419, and honored to have been selected to present as part of The Halpern Legacy Symposium."

By rapidly converting superoxide to oxygen and hydrogen peroxide, GC4419 works to reduce elevated levels of superoxide caused by radiation, which can damage noncancerous tissues and lead to serious side effects, including oral mucositis. Results from a Phase 2b trial demonstrated GC4419’s ability to reduce the incidence and duration of radiation-induced severe oral mucositis (SOM) in patients with head and neck cancer, its lead indication. SOM is one of the most common and debilitating side effects of radiotherapy and there are currently no approved therapies to prevent or treat it.

Conversion of superoxide to hydrogen peroxide, which is much more toxic to cancer cells than normal cells, may also enhance the effect of radiation on tumors, particularly with stereotactic body radiation therapy (SBRT), which uses higher doses of radiation and thus produces higher levels of superoxide. GC4419 is currently being studied in combination with SBRT for its anti-tumor effect in a Phase 1/2 trial of patients with locally advanced pancreatic cancer.

"The design of GC4419 forms the foundation of the drug’s highly differentiated approach and potential to change the management of radiation therapy to address serious unmet medical needs in a number of indications," said Mel Sorensen, M.D., President and CEO of Galera. "We look forward to continued evaluation of the promise of GC4419, and plan to initiate a Phase 3 trial of GC4419 for the treatment of SOM in patients with head and neck cancer later this year."

Dr. Riley’s presentation will also be included in the ACS press program.

The American Chemical Society, the world’s largest scientific society, is a not-for-profit organization chartered by the U.S. Congress. ACS is a global leader in providing access to chemistry-related information and research through its multiple databases, peer-reviewed journals and scientific conferences. ACS does not conduct research, but publishes and publicizes peer-reviewed scientific studies. Its main offices are in Washington, D.C., and Columbus, Ohio.

For more information and to view the abstracts, visit www.acs.org/content/acs/en/meetings/national-meeting.html.

About GC4419

GC4419 is a highly selective and potent small molecule dismutase mimetic that closely mimics the activity of human superoxide dismutase enzymes. GC4419 works to reduce elevated levels of superoxide caused by radiation therapy by rapidly converting superoxide to hydrogen peroxide and oxygen. Left untreated, elevated superoxide can damage noncancerous tissues and lead to debilitating side effects, including oral mucositis (OM), which can limit the anti-tumor efficacy of radiation therapy. Conversion of elevated superoxide to hydrogen peroxide, which is selectively more toxic to cancer cells, can also enhance the effect of radiation on tumors, particularly with stereotactic body radiation therapy (SBRT), which produces high levels of superoxide.

GC4419 has been studied in patients with head and neck cancer, GC4419’s lead indication, for its ability to reduce the incidence and duration of radiation-induced severe oral mucositis (SOM). Results from Galera’s 223-patient, double blind, randomized, placebo-controlled Phase 2b clinical trial demonstrated GC4419’s ability to dramatically reduce the duration of SOM from 19 days to 1.5 days (92 percent), the incidence of SOM through completion of radiation by 34 percent and the severity of patients’ OM by 47 percent, while demonstrating acceptable safety when added to a standard radiotherapy regimen. In addition, in multiple preclinical studies, GC4419 demonstrated an increased tumor response to radiation therapy while preventing toxicity in normal tissue.

The U.S. Food and Drug Administration (FDA) granted Breakthrough Therapy designation to GC4419 for the reduction of the duration, incidence and severity of SOM induced by radiation therapy with or without systemic therapy. The FDA also granted Fast Track designation to GC4419 for the reduction of the severity and incidence of radiation and chemotherapy-induced OM.

On August 19, 2018 Harbour BioMed reported it has entered into an exclusive strategic partnership with Sichuan Kelun-Biotech Biopharmaceutical Co., Ltd. (Kelun-Biotech) to develop and commercialize A167, an anti-PD-L1 antibody in Phase 2 clinical development, worldwide outside of the Greater China region (Press release, Harbour BioMed, AUG 19, 2018, View Source [SID1234528980]). The companies will also collaborate in developing combination therapies of A167 with other agents for commercialization in their respective territories. The potential value of the partnership exceeds $350 million in addition to royalties.

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"Anti-PD-L1 therapy has been validated in many clinical trials in the Immuno-Oncology area. A167 has significant potential as a single agent and as the foundation for combination therapy with other innovative drugs. We are delighted to advance A167 globally and work closely with Kelun-Biotech to achieve its therapeutic potential," said Dr. Jingsong Wang, Harbour BioMed’s founder, Chairman and Chief Executive Officer. "We plan to conduct A167-based combination trials globally by ourselves, including with innovative compounds we are developing, or in collaboration with our partners, to find better therapeutic options against a wide range of tumor types." Dr. Wang noted that the partnership with Kelun-Biotech, Harbour’s first global development alliance, is an important step that accelerates our plan to build a highly innovative, clinical-stage portfolio for worldwide markets.

"A167 is one of the important compounds in our portfolio," said Dr. Tongtong Xue, Chief Executive Officer of Kelun-Biotech. "We are glad to enter this collaboration with Harbour BioMed which is based on trust in our partner’s capabilities and expertise. The Harbour team brings extensive global clinical development experience that will accelerate clinical trials with A167, especially in the area of combinational therapies." Dr. Xue noted that the collaboration is the second alliance Kelun-Biotech entered with Harbour this year. "We entered a strategic partnership with Harbour to co-discover, co-develop and commercialize antibodies against innovative targets, based on Harbour’s leading fully human antibody discovery platforms. We have made significant progress in our joint discovery programs against multiple targets in oncology and immunological diseases."

A167 is an immune-oncology investigational antibody developed by Kelun-Biotech. It binds to immune checkpoint protein PD-L1 and reactivate T cells in the body against cancer cells. The antibody has potential usage in a broad range of solid tumor and hematological malignancies in monotherapy and in combination with other agents. A167 is currently in multiple Phase 1 and Phase 2 clinical trials in China targeting lymphoma and solid tumors.

Under the agreement, Kelun-Biotech will receive upfront, development and regulatory milestones, and commercial milestones based on preset goals, with a potential value of more than $350 million, in addition to royalties based on annual net sales. Harbour will have exclusive rights to develop, manufacture and commercialize A167 in regions outside of Greater China. Both companies will share data generated from their own research and clinical trials to support mono and combination therapies of A167 with other agents for both parties’ development and registration.

On August 19, 2018 Lion TCR Pte. Ltd., a Singapore-based Biotech company reported that it has receives approval from Health Sciences Authority (HSA), Singapore, for its Phase I/II multicentre clinical study of its product candidate (LioCyx) for treatment of relapsed liver cancer post-liver transplantation (Press release, Lion TCR, AUG 19, 2018, View Source [SID1234528981]). The first such trial in Singapore and for the region that uses precision T cell receptor (TCR) immune cell therapy to target Hepatitis B virus (HBV)-related liver cancer, which forms at least 80% of liver cancers in Asia. 80% of the 800,000 new liver cancer cases in the world yearly are diagnosed in Asia Pacific, including China, Vietnam, Thailand, Indonesia, South Korea and Singapore. Liver cancer is the world’s third most deadly cancer with very limited treatment options and poor treatment outcome. There is currently no effective treatment available for liver cancer relapsed patients post-liver transplantation.

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LioCyx is developed by Lion TCR’s scientific founder, Prof. Antonio Bertoletti, a world-renowned HBV-liver cancer clinician scientist. Several Investigator-sponsored trials of LioCyx in Singapore and China have showed results of good safety profile and encouraging signs of efficacy. "We are very delighted with the approval of Phase I/II clinical trial of our LioCyx, the first engineered TCR-T cell therapy for treatment of liver cancer in Singapore. It is an utmost encouragement on the recognition of innovative therapy for patients in need. Singapore HSA has been very efficient, transparent and professional in reviewing our application for the clinical trial of this innovative immunotherapy", said Dr. Victor Li Lietao, founder and CEO of Lion TCR.

Patients recruitment for the Phase I/II clinical trial will begin with National University Hospital (NUH), Singapore. Lion TCR is in the midst of including more medical centres in Singapore and China into the trial.