CELL AND GENE THERAPY

TaiGen Partners with GPCR to develop Burixafor & Taigexyn(R)

Burixafor | November 09, 2020

TaiGen Biotechnology Company, Limited ("TaiGen") announced today that they have signed an exclusive agreement with GPCR Therapeutics, Inc. ("GPCR"), a leading Korean biotechnology company, for the continued development of Burixafor worldwide and the commercialization of Taigexyn® (nemonoxacin) in South Korea. Burixafor is a highly potent CXCR4 inhibitor currently under clinical development. It can be used as a stem cell mobilizer for hematopoietic stem cell transplantation and a chemosensitizer in hematological and solid tumors. It can also be used for stem cell collection in healthy individuals for personalized regenerative medicine. Taigexyn® is a novel safe and effective antibiotic for the treatment of bacterial infections including those caused by drug-resistant bacteria. Under the terms of the agreement, GPCR Therapeutics will be wholly responsible for the development, registration, and commercialization of Taigexyn® in S. Korea and Burixafor worldwide. Apart from upfront fees, TaiGen will receive shares of GPCR Therapeutics as well as future milestone and royalty payments.

Spotlight

There is no scientific justification for special labeling of genetically modified foods. Bioengineered foods have been consumed for close to 20 years, and during that time, no overt consequences on human health have been reported and/or substantiated in the peerreviewed literature.

Spotlight

There is no scientific justification for special labeling of genetically modified foods. Bioengineered foods have been consumed for close to 20 years, and during that time, no overt consequences on human health have been reported and/or substantiated in the peerreviewed literature.

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MEDTECH

Insempra Announces Strategic Investment in Solena Materials

Insempra, | July 26, 2022

Insempra, a biology-powered company enabling businesses to make superior products in partnership with nature, today announces a strategic investment in Solena Materials Ltd a synthetic biology company. Solena, a spin-out from Imperial College London, develops synthetic proteins for high-performance clothing fibers. The investment will allow Insempra, formerly Origin.Bio, to accelerate its strategy of harnessing new technologies to advance biological production processes, creating naturally superior products to drive the regenerative revolution. Solena will be a major part of Insempra’s platform to deliver high-performance, intrinsically sustainable ingredients for a broad array of industries. Solena is using computational design to develop new classes of synthetic proteins to produce high-performance clothing fibers, which can absorb large amounts of kinetic energy. Insempra will accelerate the development and production of these synthetic proteins on an industrial scale, offering better, biobased solutions to the petrochemically sourced, non-biodegradable materials or fibers extracted from nature or animals, such as silk, currently used in the textile and clothing industries. This technology also reduces other environmental impacts such as the rise of microplastics in water bodies coming from washing petrochemically-sourced textiles. “We are hugely excited by this investment in Solena, which will help to accelerate our market-first approach to develop superior, intrinsically sustainable ingredients. We look forward to fast-tracking Solena’s development and production of their unique synthetic proteins to develop customized, high-performance fibers for a variety of applications.” Jens Klein, founder and CEO of Insempra and CEO of Solena Materials Dr James MacDonald, inventor, co-founder and CTO of Solena Materials, added: “The team and I are very excited to make this technology a huge success.” Professor Paul Freemont of Imperial College London, added: “This investment from Insempra recognizes the potential of our technology to revolutionize high-performance fabrics, and their supply chains. Together, we can harness our synthetic biology capabilities to develop, produce and manufacture a new class of superior, more sustainable fiber technology.” Insempra, a co-founder of Solena, will be the sole contributing shareholder in Solena, which is based at Imperial College’s Translation & Innovation Hub (I-HUB) in White City, London. Solena’s Board will be comprised of Dr James MacDonald of Solena, Professor Paul Freemont and Professor Milo Shaffer of Imperial College London, and Jens Klein and Andreas Heyl of Insempra. About Insempra Insempra is a biology-powered company enabling businesses to make superior products with nature. We combine bioscience and technology to grow matter for new and better products. For too long, businesses have relied on chemical industrialization processes and petrochemicals, depleting our planet’s limited resources. That’s why we are committed to drive the regenerative revolution to manufacture at scale in collaboration with nature. Led by a hand-picked team of biologists, technologists and entrepreneurs with rebel hearts, Insempra is here to create a new school of thought and collective action. The time to restore the balance between people and the planet is now. We don't wait for change. We do what needs to be done to grow a better future. About Solena Materials Solena is a protein materials design company. We use world-leading computational design, machine learning, and automation to accelerate the development of bespoke materials targeted at multiple sectors, from fashion apparel to medical textiles. Our new protein-based fibers will replace materials extracted from nature such as silk and petrochemically-derived materials, to create a new world of biodegradable, functional and sustainable smart materials for consumers, industry, and the planet.

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MEDICAL

Hillstream BioPharma to Announce Collaborating with Sapien Biosciences

Hillstream | June 30, 2022

Hillstream BioPharma, Inc., a U.S.-based biotechnology company developing novel therapeutic candidates targeting ferroptosis for cancer treatment, announced a collaboration with an Indian pioneer biobank and peonalized medicine company that leverages Saarum Innovation's global life sciences research expertise, Sapien Biosciences. The collaboration is aimed at assessing the compatibility of HSB-1216 with immune checkpoint inhibitors. HSB-1216, Hillstream’s most advanced candidate, is an IMCD modulator that targets various types of solid tumors. In an exhaustive study in Germany, the active drug in HSB-1216 was found to be efficacious in a clinical pilot for devastating cancers, including epithelial carcinomas and triple-negative breast cancer. Hillstream aims to build an early clinical proof-of-concept by beginning a clinical investigation with HSB-1216 in 2022. With this collaboration, Hillstream will be able to use Sapien’s patient samples and rich datasets to validate its HSB-1216 for the development of novel cancer therapeutics. We are initiating studies, in collaboration with Sapien Biosciences, to determine the synergy between HSB-1216, our ferroptosis inducer and nivolumab, an anti-PD1 antibody.” He stated, “In addition, we will also study the potential synergistic effects of HSB-1216 with the recently approved Bristol Myers Squibb drug Opdualag® (nivolumab + relatlimab), a fixed dose combination of an anti-PD1 MAb + anti-LAG3 MAb, to demonstrate that targeting a ferroptosis-associated metabolism in tumors may improve the efficacy of cancer immunotherapy.” Randy Milby, Hillstream’s Chief Executive Officer. We are excited to extend our collaboration with Hillstream Biopharma to evaluate potential synergy between their HSB-1216 molecule and ICIs using our expertise in establishing patient tissue-derived cell models in oncology, immunology and Immune-oncology Previously, Sapien demonstrated potent anti-cancer activity of HSB-1216 in primary triple negative breast cancer cells which were presented at AACR 2020.” Dr. Jugnu Jain, CEO, Sapien Biosciences.

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MEDICAL

SOPHiA GENETICS Launches New Solution to Advance Chronic Lymphocytic Leukemia Care, in Collaboration with IDIBAPS

biotech, biotechnology, cell, gene, tissue | June 10, 2022

SOPHiA GENETICS (Nasdaq: SOPH), the Institut d'Investigacions Biomèdiques August Pi i Sunyer (IDIBAPS) of Barcelona, and the Spanish Diagnóstica Longwood today announced from the European Hematology Association Congress in Vienna that they have combined their expertise to develop a new Chronic Lymphocytic Leukemia (CLL) solution to advance CLL care. This collaboration will unify the wide variety of current guideline recommendations into one single application aiming to improve CLL characterization and CLL research practices in Iberia. SOPHiA GENETICS has already facilitated the analysis of one million genomic profiles through the SOPHiA DDM™ Platform, including a significant amount of onco-hematological-related diseases such as acute myeloid leukemia and lymphomas. The Platform computes a wide array of genomic variants needed to continually hone machine learning algorithms designed to accurately detect rare and challenging cases. The growing number of users of the SOPHiA DDM™ community can share and access insights by pulling the relevant signals detected from the noise, ultimately saving time and helping to make better-informed decisions. The new CLL solution allows for progress of Chronic Lymphocytic Leukemia research using genomic analysis. This could lead to better detection of the disease, which accounts for 25-30% of all leukemia cases in Western countries and affects yearly more than 100,000 people globally[1], and ultimately improve patient care. Thanks to the SOPHiA DDM™ Platform and IDIBAPS, hematopathologists can now access guidelines for the mutational status of TP53, immunoglobulin (IG) gene rearrangements and their somatic hypermutation status, while benefitting from the identification of 23 CLL-specific genes for SNVs, InDels and CNVs including NOTCH1, SF3B1, ATM, IGLV3-21, BTK, PLCG2, BCL2, del13q14, and trisomy 12, all in one single NGS workflow. The new CLL solution has already been used in routine in Spain, with further opportunities throughout the country, and in Latin America through Diagnóstica Longwood's distribution channels. We are proud to work together with some of the most renowned experts in the field of Chronic Lymphocytic Leukemia research around the world. This partnership is a great example of how combining advanced data analytics with emerging CLL strategies can move the possibilities of data-driven medicine forward." Lara Hashimoto, Chief Business Officer at SOPHiA GENETICS. It is a great satisfaction to see how thanks to the partnership with SOPHiA GENETICS and Diagnóstica Longwood we will be able to transfer into clinical practice the relevant information generated for so many years in the research of CLL using a simple and robust assay." Elías Campo, principal investigator and director of IDIBAPS. About SOPHiA GENETICS SOPHiA GENETICS (Nasdaq: SOPH) is a healthcare technology company dedicated to establishing the practice of data-driven medicine as the standard of care and for life sciences research. It is the creator of the SOPHiA DDM™ Platform, a cloud-based SaaS platform capable of analyzing data and generating insights from complex multimodal data sets and different diagnostic modalities. The SOPHiA DDM™ Platform and related solutions, products and services are currently used by more than 790 hospital, laboratory, and biopharma institutions globally. About IDIBAPS The August Pi i Sunyer Biomedical Research Institute (IDIBAPS) is a biomedical research center of excellence that addresses the most common diseases in our environment. It is a public consortium comprising the Catalan Government (Generalitat de Catalunya), the Hospital Clínic Barcelona, the Faculty of Medicine and Health Sciences at the University of Barcelona and the CSIC Institute of Biomedical Research of Barcelona. About 1,500 professionals are organized in a hundred research groups. IDIBAPS undertakes translational research. It focuses on ensuring that the questions that arise at the patient's bedside have a response in the laboratory, and that advances made in the laboratory are promptly applied to patients. With over 1,200 articles published annually, it is the leading biomedical research center in Spain.

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