On September 17, 2020 Amunix Pharmaceuticals, Inc. ("Amunix"), a biopharmaceutical company developing prodrugs of potent immune-activating biotherapeutics for the treatment of patients with solid tumor cancers, reported that it will present preclinical data on two T cell engager programs: AMX-818, the company’s lead clinical candidate which targets HER2, and a second targeting EGFR (EGFR-XPAT), which is in lead optimization, at the European Society for Medical Oncology Virtual Congress taking place September 19 – 21, 2020 (Press release, Amunix, SEP 17, 2020, View Source [SID1234565286]).

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"We are very excited to present progress on our most advanced T cell engager programs," said Angie You, Ph.D., CEO of Amunix. "Both programs demonstrate the potential of our XPAT platform to significantly widen the therapeutic index of T cell engagers and overcome the challenge of on-target, off-tumor toxicity that is limiting the use of potent immune activators to treat solid tumors. For our HER2-XPAT clinical candidate, AMX-818, we have initiated IND-enabling studies. We are also excited to share progress with EGFR-XPAT, which offers a potential orthogonal approach to small molecule kinase inhibitors to target KRAS mutant tumors. As we progress these two most advanced programs, we are also leveraging our plug and play platform to rapidly develop XPATs against additional tumor targets such as PSMA and TROP2."

Amunix will present two posters at ESMO (Free ESMO Whitepaper), titled, "HER2-XPAT, A Novel Protease-Activatable Pro-Drug T Cell Engager (TCE), Engineered to Address On-Target, Off-Tumor Toxicity and Provide Large Predicted Safety Margins in Non-Human Primate (NHP)" and "EGFR-XPAT, A Novel Pro-Drug T Cell Engager (TCEs) Engineered to Address On-Target, Off-Tumor Toxicity and an Orthogonal Approach for Cancer Immunotherapy in EGFR, KRAS/BRAF Cancers". Both posters show that Amunix’s XPAT technology can improve the toxicity profile of T cell engagers while maintaining their potency against solid tumors. In vitro, protease-activated XPATs showed potent cytotoxic activity against tumor cell lines with EC50s in the single-digit pM range. For both molecules, masking reduced target-directed T cell cytotoxicity and T cell activation by ~5,000 to >10,000-fold. In established xenograft models, both HER2-XPAT and EGFR-XPATs induced complete tumor regressions with efficacious doses within an order of magnitude of the unmasked (active) T cell engager. Importantly, EGFR-XPAT showed strong in vitro cytotoxicity in a KRAS mutant and BRAF mutant setting, as well as potent in vivo anti-tumor xenograft activity in a BRAF mutant background.

Safety data from cynomolgus monkeys demonstrate that masked XPATs have a markedly lower risk of CRS and enable a significant increase in maximum tolerated exposures relative to unmasked, active forms. In contrast to traditional unmasked T cell engagers, which have MTDs in the µg/kg range, HER2-XPAT can be safely dosed up to 42 mg/kg in cynos and EGFR-XPAT up to 1 mg/kg, representing ~500-fold and ~200-fold, respectively, increases in tolerated exposures from masking. Combined with the potency of XPATs in xenograft models, these data suggest a favorable therapeutic index even for targets as broadly expressed as EGFR.

Poster Presentation Details
Title: HER2-XPAT, A Novel Protease-Activatable Pro-Drug T Cell Engager (TCE), Engineered to Address On-Target, Off-Tumor Toxicity and Provide Large Predicted Safety Margins in Non-Human Primate (NHP)
Poster number: 1060P
Abstract Number: 2472
Session: Virtual On-Demand Poster Display
Date: Sep 17, 2020

Title: EGFR-XPAT, A Novel Pro-Drug T Cell Engager (TCEs) Engineered to Address On-Target, Off-Tumor Toxicity and an Orthogonal Approach for Cancer Immunotherapy in EGFR, KRAS/BRAF Cancers
Poster number: 1062P
Abstract Number: 3054
Session: Virtual On Demand Poster Display
Date: Sep 17, 2020

On September 17, 2020 InnoCare Pharmaceuticals (HKEX: 09969), a clinical stage biopharmaceutical company committed to discovering, developing, and commercializing innovative medicines for the treatment of cancer and autoimmune diseases, reported that the company will present at the upcoming Morgan Stanley 2020 Virtual Asia Pacific Conference and ZGC Forum (Press release, InnoCare Pharma, SEP 17, 2020, View Source [SID1234565304]).

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InnoCare CFO, Mr. Shaojing Tong, will join the China Biotech Panel of the Morgan Stanley conference to discuss and share the insights of China’s booming biotech industry on Thursday, September 24, 2020 China time.

Meanwhile, InnoCare will exhibit innovative medicine at the ZGC forum from September 17-20 in Beijing. Dr. Renbin Zhao, Executive Director of Biology and Clinical Development Strategy of InnoCare will present on the latest development of BTK inhibitor Orelabrutinib on the afternoon of Thursday, September 17, 2020, China time.

Founded in 2007, the ZGC forum has been held for years with the mission to promote communication, exchange, and cooperation in the field of science and technology worldwide.

On September 17, 2020 Protagonist Therapeutics, Inc. (NASDAQ:PTGX) reported that Dinesh V. Patel, Ph.D., President and Chief Executive Officer, will participate in a fireside chat at the upcoming Jefferies Next Generation IBD Therapeutics Virtual Summit 2020 (Press release, Protagonist, SEP 17, 2020, View Source [SID1234565322]).

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Presentation details:
Date: Wednesday, September 23, 2020
Time: 8 a.m. EDT

A live and archived webcast will be available at View Source and in the Investors section of the Protagonist Therapeutics website at View Source

On September 16, 2020 Poseida Therapeutics, Inc., (Nasdaq: PSTX), a clinical-stage biopharmaceutical company dedicated to utilizing proprietary gene engineering platform technologies to create next generation cell and gene therapeutics with the capacity to cure, reported that it will present data related to its proprietary manufacturing process designed to optimize its CAR-T product candidates (Press release, Poseida Therapeutics, SEP 16, 2020, View Source [SID1234565235]). The Company will also illustrate the impact of these optimizations with preclinical data and preliminary clinical analysis with a focus on P-BCMA-101, its autologous CAR-T product candidate for multiple myeloma. The findings will be presented today at CAR-TCR Digital Week 2020 being held September 14-17, 2020.

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Utilizing its proprietary piggyBac DNA Modification System, Poseida’s non-viral manufacturing process can produce highly purified CAR-T treatment candidates comprised of a high percentage of stem cell memory T, or TSCM, cells. These high-TSCM product candidates may improve therapeutic response and tolerability profile as compared to existing CAR-T therapies using viral-based manufacturing methods.

In ongoing efforts to optimize manufacturing, the Company was able to demonstrate increased transposition frequency by using Nanoplasmid technology licensed from Nature Technology Corporation, which, when compared to a standard plasmid, yields more CAR-positive cells at the start of the process. In turn, this reduces manufacturing timelines, has resulted in a higher proliferative capacity in patients, and has the potential to create more efficacious CAR-T products with less toxicity.

Poseida also conducted a preliminary clinical analysis of P-BCMA-101 to test the impact of using a Nanoplasmid in its manufacturing process compared to a standard plasmid. The analysis conducted at a .75 X 10E6 per kg dose found that all patients (n=3) responded to treatment with Nanoplasmid-manufactured P-BCMA-101 and that responses were deep, showing a 100 percent overall response rate (ORR) as compared to an ORR of 50-67% in patients that received P-BCMA-101 manufactured using a standard plasmid at that same dose (n=3, 2 evaluable by IMWG criteria; third patient with plasmacytomas and significant response by PET scan). The three patients given Nanoplasmid-produced P-BCMA-101 at this dose reached a very good partial response (VGPR) or stringent complete response (sCR) compared to a partial response (PR) achieved with the standard plasmid. Notably, using a Nanoplasmid in the manufacturing process did not impact the safety profile of P-BCMA-101 and no incidence of cytokine release syndrome of any grade was observed in patients.

"At Poseida, we are always looking at innovative ways to further improve the performance of our CAR-T product candidates while maintaining an exceptionally low rate of cytokine release syndrome and other potential toxicities," said Eric Ostertag, M.D., Ph.D., Chief Executive Officer of Poseida. "As our most advanced product candidate, we look forward to providing further updates to our clinical program for P-BCMA-101 later in the year."

P-BCMA-101 has received regenerative medicine advanced therapy (RMAT) status and orphan drug designation from the FDA and is currently being tested in an expanded Phase 1 clinical trial for the treatment of patients with relapsed/refractory multiple myeloma to inform the potentially registrational Phase 2 clinical trial. Poseida’s portfolio includes allogeneic and autologous CAR-T product candidates in both hematological and solid tumor oncology indications, as well as liver-directed gene therapy programs in orphan genetic diseases.

Nanoplasmid-produced product candidates P-BCMA-101 for multiple myeloma and P-PSMA-101 for castrate resistant prostate cancer have both demonstrated robust expansion in patients to date. The Company is now utilizing Nanoplasmid technology to manufacture all autologous and allogeneic product candidates across its portfolio and continues to evaluate additional manufacturing optimizations that may further improve the performance of its product candidates.

The full presentation at CAR-TCR Digital Week will be available on Poseida’s website at the end of the meeting on Thursday, September 17.

On September 16, 2020 Volastra Therapeutics, a biotechnology company developing novel therapies to treat and prevent the formation of metastatic disease, reported that it has named Charles Hugh-Jones, MD, FRCP, as its Chief Executive Officer (Press release, Volastra Therapeutics, SEP 16, 2020, View Source [SID1234565252]). Dr. Hugh-Jones brings a strong leadership background from across both multinational pharmaceutical organizations and smaller biotechnology companies. Over the course of his career, he has built extensive expertise in the development and commercialization of medicines.

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"We are incredibly fortunate that Charles is joining the team. His breadth of experience and scientific acumen will be vital in fulfilling our mission," said Volastra Executive Chair Sandra Peterson, former Group Worldwide Chairman of Johnson & Johnson, current Partner at Clayton, Dubilier, and Rice, and current board member of Microsoft.

Dr. Hugh-Jones, a board-certified physician, began his career at Schering AG, Enzon Pharmaceuticals and Sanofi, where he held various positions of increasing responsibility. He then joined Pfizer Oncology division as their Chief Medical Officer where he had medical oversight of all late-stage drug development and commercialization activities. Most recently, Dr. Hugh-Jones was global Chief Medical Officer of Allergan PLC, where he led complex interdisciplinary teams and supported the launch of novel medicines in multiple therapeutic areas.

"We are excited to have Charles at the helm as we tackle chromosomal instability, a pervasive feature of metastatic cancers," said Volastra Co-founder and Advisor Lewis Cantley, PhD, Professor of Cancer Biology in Medicine and Meyer Director of the Sandra and Edward Meyer Cancer Center at Weill Cornell Medical College. "Our goal is to further uncover novel insights into chromosomal instability and its clear association with the formation, progression, and maintenance of metastasis to ultimately develop new therapies."

"I’m inspired by Volastra’s mission to bring new therapies to patients with metastatic solid tumors, which are notoriously among the toughest to treat with existing therapies," said Dr. Hugh-Jones. "There is a tremendous unmet need in this patient population, and Volastra’s novel research holds great promise. I look forward to working with the entire team to build upon the scientific discoveries of its founders and grow a pipeline of potential therapies that can make a difference in patients’ lives."

Volastra Therapeutics launched earlier this year with $20 million in financing. Polaris Partners led the financing with additional investment from Vida Ventures, ARCH Venture Partners, DROIA Oncology Ventures, and the Global Health Sciences (GHS) Fund (Quark Venture LP and GF Securities). As a cornerstone tenant in a new biotech development, the company recently secured 11,000 square feet of laboratory and office space in West Harlem, New York. Dr. Hugh-Jones will lead the growing team at this new location.