On April 27, 2018 Haihe Biopharma Co., Ltd. and 3D Medicines (Beijing) Co., Ltd. reported that the two sides have reached a strategic collaboration agreement on HaiHe Biopharma’s FGFR inhibitor (coded HH185) project (Press release, 3D Medicines, APR 27, 2018, View Source [SID1234594049]). 3DMed may carry out the R&D, manufacture and commercialization of HH185 in mainland China, Hong Kong, Macao and Taiwan for the treatment of cancer and pulmonary fibrosis.

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Dr. Ruiping Dong, CEO of Haihe Biopharma, commented,
"As a potential target in the field of anti-tumor, FGFR is undergoing rapid development in the research of its mechanisms and clinical application and more and more verifications has been made. Therefore, the R&D prospect is so promising. As a highly selective FGFR inhibitor, HH185 overcomes the adverse effect of hepatotoxicity found in the first-generation FGFR inhibitor and has the apparent anti-tumor activity. We look forward to working together with 3DMed on the further development and commercialization of HH185, so as to accelerate the launch of the domestically-manufactured new drugs and to meet the patients’ needs in China."

Dr. Gong Zhaolong, CEO of 3D Med, commented,
"We are very happy to reach the strategic collaboration agreement with HaiHe Biopharma on HH185.HH185 has a good prospect of combination with 3DMed’s PD-L1 antibody in the field of immuno-oncology therapy. Through the collaboration with HaiHe Biopharma and by virtue of 3DMed’s platform and experience in the field of precision cancer care, we hope to be able to develop new drugs that are urgently needed in clinical practice for the benefit of even more patients who suffer from cancer and pulmonary fibrosis."

About HH185
HH185 is a small molecule inhibitor of fibroblast growth factor receptor 1,2,3 (FGFR 1,2,3), which obtained the approval for clinical trial by CNDA in January 2018. Preclinical studies have shown that HH185 has such advantages as strong anti-tumor activity, excellent PD-PK characteristics, low toxicity and high bioavailability and so on. Moreover, it is targeting CSF1-R and is therefore suitable for combination therapy with PD-1/PD-L1 antibodies in the field ofimmune-oncology.

On April 27, 2018 Innate Pharma reported that it presented new data at the AACR (Free AACR Whitepaper) Annual Meeting, April 14-18, in Chicago, including preliminary data suggesting promising anti-tumor activity of the combination of monalizumab and cetuximab in patients with platinum pretreated SCCHN (Press release, Innate Pharma, APR 27, 2018, View Source [SID1234525774]).

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On May 3, 2017 Stainwei Biotech, Inc. (Stainwei), a Chinese biotech company located in Biobay industrial park in Suzhou, China, reported that it has received a patent certificate (Patent No. US9,580,498) issued by the United States Patent and Trademark Office (USPTO) for its novel humanized anti-VEGF monoclonal antibody (mAb code name: hPV19) (Press release, Suzhou Stainwei Biotech, APR 27, 2018, View Source [SID1234525751]). This patent was issued through a pathway of PCT application (PCT/CN2013/086542) filed by Stainwei in 2013. Prior to receiving the US patent, Stainwei has already received two patent certificates for this antibody from China Intellectual Property Office in 2015 and 2016. Stainwei is dedicated to innovation and development of novel therapeutic antibody drugs targeting cancers, age-related macular degeneration (AMD) and immune-related diseases.

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A phase I clinical trial evaluating the safety and efficacy of hPV19 in cancer patients is ongoing in China. According to the data released by the company, hPV19 has a unique antigen recognition site (epitope), composed of amino acid sequences different from other commercially available antibodies targeting the same antigen. In both in-vitro and in-vivo experiments, hPV19 showed a 6-8 times higher biological activity than Avastin (generic name: bevacizumab, Roche/Genentech’s anti-VEGF mAb, the world’s first and so far still the only FDA-approved anti-VEGF mAb drug on the market). "In pre-clinical animal studies and early stage clinical trials in cancer patients, hPV19 has also demonstrated an excellent safety and tolerance profile," said Dr. Qunmin Zhou, the company’s co-founder. "We are excited to test its efficacy in the ongoing clinical trials. We are also excited to hopefully bring to the market a unique, non-biosimilar, and stronger therapeutic agent that can benefit our patients."

Meanwhile, Stainwei has filed a PCT patent application for a new formulation of hPV19 mAb intended for the treatment of age-related macular degeneration (AMD), diabetic macular edema (DME) and other eye-disorders associated with VEGF-mediated vascular over-growth. Stainwei has completed preclinical experiments and an application for Investigational New Drug (IND) in AMD and DME will be submitted to China-FDA soon.

The company’s another promising product is a novel anti-PD-1 monoclonal antibody named hAb21 (humanized IgG4-kappa version). hAb21 binds to human PD-1 antigen at a unique site (epitope), which is different from that of Keytruda (Merck) and Opdivo (Bristol-Myers Squibb). hAb21 has shown a remarkable anti-tumor activity in human PD-1 gene knock-in mouse models.

View Source

Figure: Effect of hAb21 mAb on tumor growth in knock-in mice expressing human PD-1 （Human PD-1 gene knock-in mice were inoculated with 1×106 syngeneic MC38 tumor cells. When tumors reached 50 mm3 in size，mice were randomized into 3 groups. Intra-peritoneal (i.p) injections with 200 ug mAb (pembrolizumab or hAb21) or saline were given on days 6, 10, 13 and 17 after inoculation. A: Tumor growth in early-stage; B: Tumor growth in both early- and later-stage）.

As illustrated in the above figure, syngenic MC38 tumors implanted in the PD-1 gene knock-in mice were completely rejected within 7-10 days without re-growth thereafter in all 6 mice in the group treated with hAb21. Furthermore, repeated MC38 tumor inoculation was performed to those mice on day 30, and tumors were again completely rejected within 10-14 days without further hAb21 treatment. All 6 mice survived to day 60 and received MC38 inoculation for the third time (experiment on-going). In the same knock-in mice treated with Keytruda (pembrolizumab), complete tumor rejection was observed in only 1 out of 6 mice, while initial tumor regression followed by re-growth after the completion of Keytruda treatment were found in the other 5 mice, which all died of tumor progression.

Based on these encouraging results, Stainwei has filed a patent application for hAb21, and is currently carrying out IND-enabling studies. An IND indication for advanced solid tumors is expected to be submitted to China-FDA and US-FDA in the second-half of 2017.

On April 26, 2018 Aduro Biotech, Inc. (Nasdaq:ADRO) reported preliminary observations from a case study of a patient with metastatic colorectal cancer treated in Aduro’s ongoing Phase 1 study of its personalized neoantigen-based immunotherapy (pLADD) (Press release, Aduro Biotech, APR 26, 2018, View Source;p=RssLanding&cat=news&id=2344899 [SID1234525729]). This Phase 1 proof-of-concept study is designed to evaluate the safety and tolerability of pLADD immunotherapy in adults with metastatic colorectal cancer that is microsatellite stable (MSS). Data were presented at the European Neoantigen Summit held in Amsterdam (April 24-26, 2018).

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The immunological data presented demonstrated that neoantigens isolated and sequenced from the patient’s tissue samples, and engineered into a personalized immunotherapy, induced neoantigen-specific CD8+ T cells undetectable before pLADD treatment started. In addition to adaptive immunity, pLADD induced an innate response exemplified by gamma delta T cells, also thought to be important for successful immunotherapy. The patient’s neoantigens were selected using state-of-the-art algorithm identification technology developed by Aduro’s collaborator, Hanlee Ji, M.D., associate professor of medicine at the Stanford University School of Medicine.

"Although early, the immunological data obtained from this case study is encouraging, as it indicates that our pLADD immunotherapy has the potential to induce a sustained, antigen-specific effect on the immune system," said Andrea van Elsas, Ph.D., chief scientific officer of Aduro. "We believe our pLADD approach could offer a differentiated treatment option to patients with MSS colorectal cancer, who represent the vast majority of the colorectal cancer patient population and who have not been responsive to immune checkpoint inhibitors. In addition, these preliminary observations support our plan to combine pLADD with checkpoint inhibitors, which we believe could enhance the overall response in this patient setting. We look forward to reporting additional immunological data from this Phase 1 trial before the end of 2018."

Preclinical data presented showed that mouse pLADD strains targeting tumor-specific neoepitopes induced a robust immune response, including induction of cytokines, chemokines, and antigen-specific CD8+ T cells. In preclinical models of pLADD, remodeling of the tumor microenvironment with an increase in the CD8:Treg ratio was observed. The combination of pLADD with an anti-PD-1 antibody led to a sustained immune response and significantly improved efficacy in these mouse tumor models.

Clinical Design of Phase 1 pLADD Trial in Adults with Metastatic Corlorectal Cancer
The Phase 1 single-arm clinical trial (see www.clinicaltrials.gov, identifier NCT03189030) is designed to evaluate the safety and tolerability of a personalized immunotherapy using patient-specific neoantigens and Aduro’s proprietary Listeria platform technology. The trial is enrolling patients with metastatic colorectal cancer that is microsatellite stable.

About pLADD
Personalized LADD, or pLADD, is a second-generation LADD technology that is designed to leverage the immune-activating activity of the Listeria bacterial vector in combination with neoantigens, which are unique, patient-specific tumor markers exclusively expressed in an individual’s tumor cells. Once administered, pLADD therapies are expected to mobilize the immune system in two ways–first, through the immediate recognition of the presence of Listeria as being foreign, and subsequently, through a specific and customized immune attack on cells containing the tumor neoantigens presented by pLADD.

To create a patient-specific pLADD therapy, a physician begins by removing tumor cells from the patient. These cells are analyzed in order to molecularly characterize (sequence) the tumor, including any mutations that are unique to the patient’s own tumor cells. Predictive algorithms for antigen processing are run to identify pertinent tumor antigens. Aduro then creates a pLADD strain engineered to enable the presentation of multiple selected neoantigens in dendritic cells, with the aim of inducing a targeted, robust anti-cancer immune response.

Aduro received an exclusive license (for use with Listeria based therapetutics) to the proprietary bioinformatics algorithms and computational workflows for neoantigen identification and selection from Stanford University based on technology developed by Dr. Hanlee Ji. The accurate identification of neoantigens, tumor markers that are unique to an individual’s tumor, is believed to be critical in the development of a patient-specific cancer treatment. Aduro’s LADD technology, which has been shown in clinical studies to remodel the tumor microenvironment, will be used to create a patient-specific immunotherapy that is engineered to enable the presentation of multiple selected neoantigens in dendritic cells, with the aim of inducing a targeted, robust anti-cancer immune response.

On April 26, 2018 Protalix BioTherapeutics, Inc. (NYSE American:PLX) (TASE:PLX), a biopharmaceutical company focused on the development and commercialization of recombinant therapeutic proteins expressed through its proprietary plant cell-based expression system, ProCellEx, reported that it will report first quarter 2018 financial results and provide a corporate update on Wednesday, May 9, 2018 at 8:30 am ET (Press release, Protalix, APR 26, 2018, View Source;p=RssLanding&cat=news&id=2344829 [SID1234525747]).

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