Microfluidics device to detect cancer cells in blood

Scientists have developed a microfluidic device that is able to isolate individual cancer cells from patient blood samples. Researchers at the University of Illinois at Chicago and Queensland University of Technology of Australia developed the device that can be used to separate the various cell types found in blood by size. “This new microfluidics chip lets us separate cancer cells from whole blood or minimally-diluted blood,” said Dr. Ian Papautsky, the Richard and Loan Hill Professor of Bioengineering in the UIC College of Engineering and corresponding author on the paper.

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Lineage Cell Therapeutics

Lineage Cell Therapeutics is a clinical-stage biotechnology company developing novel cell therapies for unmet medical needs.

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Next-Gen Gene Therapy to Counter Complex Diseases

Article | July 13, 2022

Gene therapy has historically been used to treat disorders with in-depth knowledge caused by a single genetic mutation. Thanks to the introduction of new generation technologies, the potential of gene therapy is expanding tAo treat diseases that were previously untreatable. Evolution of Gene Therapy One of the major success stories of the twenty-first century has been gene therapy. However, it has not been the same in the past. The field's journey to this point has been long and mostly difficult, with both tragedy and triumph along the way. Initially, genetic disorders were thought to be untreatable and permanently carved into the genomes of individuals unfortunate enough to be born with them. But due to the constant technological advancement and research activities, gene therapy now has the potential to treat various genetic mutation-causing diseases with its ability to insert a new copy and replace faulty genes. Gene Therapy is Finding New Roads in the Medical Sector Gene therapy can help researchers treat a variety of conditions that fall under the general heading of epilepsy, instead of only focusing on a particular kind of disorder brought on by a genetic mutation. Following are some of the domains transformed by gene therapy. Neurology – Gene therapy can be used for the treatment of seizures by directly injecting it into the area causing an uncontrolled electrical disturbance in the brain. Furthermore, by using DNA sequences known as promoters, gene therapy can be restricted to specific neurons within that area. Ophthalmology – Genetic conditions such as blindness can be caused due to the mutation of any gene out of over 200 and resulting in progressive vision loss in children. With advanced gene therapies such as optogenetics, lost photoreceptor function can be transferred to the retinal cells, which are responsible for relaying visual information to the brain. This might give patients the ability to navigate in an unknown environment with a certain level of autonomy. The Future of Gene Therapy The news surrounding gene therapy has been largely favorable over the past few years, with treatment after treatment obtaining regulatory approvals, successful clinical trials, and garnering significant funds to begin development. With more than 1,000 clinical trials presently underway, the long-awaited gene therapy revolution might finally be here.

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MedTech

Making Predictions by Digitizing Bioprocessing

Article | October 7, 2022

With advances in data analytics and machine learning, the move from descriptive and diagnostic analytics to predictive and prescriptive analytics and controls—allowing us to better forecast and understand what will happen and thus optimize process outcomes—is not only feasible but inevitable, according to Bonnie Shum, principal engineer, pharma technical innovation, technology & manufacturing sciences and technology at Genentech. “Well-trained artificial intelligence systems can help drive better decision making and how data is analyzed from drug discovery to process development and to manufacturing processes,” she says. Those advances, though, only really matter when they improve the lives of patients. That’s exactly what Shum expects. “The convergence of digital transformation and operational/processing changes will be critical for the facilities of the future and meeting the needs of our patients,” she continues. “Digital solutions may one day provide fully automated bioprocessing, eliminating manual intervention and enabling us to anticipate potential process deviations to prevent process failures, leading to real-time release and thus faster access for patients.” To turn Bioprocessing 4.0 into a production line for precision healthcare, real-time release and quickly manufacturing personalized medicines will be critical. Adding digitization and advanced analytics wherever possible will drive those improvements. In fact, many of these improvements, especially moving from descriptive to predictive bioprocessing, depend on more digitization.

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Medical

Nanostructures: Emerging as Effective Carriers for Drug Delivery

Article | July 14, 2022

Natural remedies have been employed in medicine since antiquity. However, a large number of them fail to go past the clinical trial stages. In vivo instability, poor solubility and bioavailability, a lack of target-specific delivery, poor absorption, and side effects of the medication are only a few of the problems caused by the use of large-sized materials in drug administration. Therefore, adopting novel drug delivery systems with targeted medications may be a solution to address these pressing problems. Nanotechnology has received tremendous attention in recent years and has been demonstrated to help blur the boundaries between the biological and physical sciences. With great success, it plays a vital part in enhanced medication formulations, targeted venues, and controlled drug release and delivery. Limitations of Traditional Delivery Trigger the Adoption of Nanoparticles The field of nanotechnology and the creation of drug formulations based on nanoparticles is one that is expanding and showcasing great potential. It has been thoroughly researched in an effort to develop new methods of diagnosis and treatment and to overcome the limitations of several diseases' current therapies. As a result, nanoparticles are being used to improve the therapeutic effectiveness and boost patient adherence to treatment by increasing medication bioavailability, drug accumulation at a particular spot, and reducing drug adverse effects. The nanoparticles could be transformed into intelligent systems housing therapeutic and imaging agents by manipulating their surface properties, size, correct drug load, and release with targeted drug delivery. Nanostructures facilitate the release of combination medications at the prescribed dose since they remain in the blood circulation system for a long time. Therefore, they result in fewer plasma fluctuations with decreased side effects. Due to their nanoscale, these structures can easily enter the tissue system, promote the absorption of drugs by cells, make medication administration more effective, and ensure that the medicine acts at the targeted location. The Way Ahead Nanomedicine and nano-delivery systems are a comparatively new but fast-evolving science in which nanoscale materials are used as diagnostic tools to deliver drug molecules at precisely targeted sites in a controlled manner. It is finding applications for the treatment of diseases such as cardiovascular, neurodegenerative, cancer, ocular, AIDS, and diabetes, among others. With more research and technological advancement, these drug delivery solutions will open up huge opportunities for companies that work with them.

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Industrial Impact

AI and Biotechnology: The Future of Healthcare Industry

Article | January 20, 2021

Artificial intelligence has grasped the foundation in biotech. It can have the most innovative impact on biotechnology. AI has already established its presence in our day-to-day life. AI has made the existence of self-driving cars possible. Likewise, the benefits and quality that it can contribute to biotech can also be felt. With AI, bio technicians will be able to enhance virtual screening, overlook preliminary datasets from clinics, and decipher an enormous amount of information. It can also help in improving the medication process by gathering and analyzing every bit of information. The Significance of AI in Biotechnology In the past few years, the application of artificial intelligence in the biotechnology industry has shifted from being sci-fi to sci-fact. A vast number of biotech companies like Deep Genomics are adopting AI for making data-driven decisions and use analytics tools to work efficiently. Unlike the AI robots in sci-fi that are ready to take over the world. AI designed for biotech has been designed to solve certain problems or complete a bunch of tasks by using automated algorithms. The aim of AI technology for biotech is to collect insights along with hidden patterns from large amounts of data. All the different industries of biotech including agriculture, animal, medical, industrial, and bioinformatics are gradually being affected by artificial intelligence. Moreover, the biotech industry is realizing that AI enables them some of the important strength to their business, including: Expanding accessibility Cost-effectiveness Critical predictions Efficient decision-making Research centers like PwC have also estimated output of $15.7 trillion by 2030 solely with AI contribution in industries. A survey revealed that about 44% of life science experts are using AI for R&D activities, as well. Use of AI in Biotechnology Altering Biomedical and Clinical Data So far the most developed use of AI is its ability to read voluminous data records and interpret them. It can prove to be a life-save for bio technicians who would have to examine that much data from research publications by themselves for the validation of their hypothesis. With the help of AI, clinical studies of patients will also become easier as all the examination reports and prescriptions will be stored in one place for cross-reference. Furthermore, it will also help in blending and fetching data into usable formats for analysis. Test Result Prediction Through trial and error, AI along with machine learning can help in predicting the response of the patient to certain drugs to provide more effective outcomes. Drug Design & Discovery AI plays a vital role whether it’s designing a new molecule or identifying new biological targets. It helps in identifying and validating drugs. It reduces the cost and time spent on the entire drug trial process and reaches the market. Personalized Medications for Rare Diseases With the combination of body scan results, patients’ body and analytics, AI can also help in detecting dangerous diseases at an early stage. Improving Process of Manufacturing To improve the process of manufacturing in biotechnology, AI offers a wide range of opportunities. It controls quality, reduces wastage, improves useability, and minimizes the designing time. Moving Towards AI-Enhanced Biotech Future Ever since the concept of artificial intelligence has arrived, being curious by nature, humans have started working towards achieving this goal. It has been growing at a fast pace while showing unbelievable growth and achievements at times. In comparison to the traditional methods used in the biotechnology industry, AI-based methods seem more reliable and accurate. In the upcoming years, it will show its success by improving the quality of health people have. You can also develop your AI-based application or know more about it by taking IT consultations.

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Lineage Cell Therapeutics is a clinical-stage biotechnology company developing novel cell therapies for unmet medical needs.

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Flagship Pioneering Announces the Merger of Two Leading Programmable Medicine Platforms to Form Sail Biomedicines

PR Newswire | October 25, 2023

Flagship Pioneeringannounced the combination of Laronde and Senda Biosciences to launch Sail Biomedicines, a company pioneering the design and deployment of fully programmable medicines to transform patient care. Sail harnesses the power of first-in-category programmable payloads of Endless RNA™ (eRNA), first-in-category programmable nanoparticles, and emerging, proprietary AI technologies, to unlock the comprehensive programming of medicines for the first time. Guillaume Pfefer, Ph.D., MBA, who is also CEO-Partner at Flagship Pioneering, will become Sail's CEO and board member, while John Mendlein, Ph.D., who also serves as Executive Partner, Flagship Pioneering, will become the company's Executive Chairman. Sail unites Laronde and Senda Biosciences, two companies that deliver more than eight years of combined data and multi-product platform building. Senda's platform was the first to leverage a universal chemical code of natural nanoparticles that enables directed and repeatable deployment of payloads, such as translatable RNA, directly to cells and tissues of choice. Laronde pioneered eRNA, a new class of synthetic, translatable RNA that can be programmed to express diverse proteins inside the body, with vast therapeutic potential. "Endless RNA has the potential to create an entirely new class of programmable medicines across therapeutic areas that we will now be able to deliver directly to cells and tissues via deployment molecules with unique properties to confer specificity and greater tolerability," said Mendlein. "We believe these programmable medicines will be greatly enhanced via our proprietary generative AI technologies and rapid prototyping abilities to achieve breakthroughs currently beyond the grasp of the human mind. I look forward to working with the Sail Biomedicines team in this exciting new chapter." "Our deployment platform utilizes natural nanoparticles to shuttle biomolecules into human cells, with unique tropism, potency, and redosability," said Pfefer. "I look forward to leading the integration of these two teams to accelerate the development of new product candidates, build strategic partnerships, and enable diverse value pools, with the goal of swiftly delivering life-changing vaccines and therapies for the people who need them." "Sail Biomedicines builds on the progress made by two leading Flagship bioplatform companies and will enable integrative design for more effective programmable medicines," said Noubar Afeyan, Ph.D., Founder and CEO of Flagship Pioneering. "I am confident the combined leadership team and board will carry forward this company to realize its bold ambitions and ultimately deliver maximum impact for patients." In addition to Mendlein and Pfeffer, the Sail Biomedicines Board of Directors will comprise all current members of the Laronde and Senda Biosciences boards, as follows Pablo Cagnoni, M.D., President and Head of Research & Development, Incyte Jose "Pepe" Carmona, MBA, Chief Financial Officer, ADC Therapeutics Paula Hammond, Ph.D., Institute Professor, Massachusetts Institute of Technology, Head of Department of Chemical Engineering, Massachusetts Institute of Technology Avak Kahvejian, Ph.D., General Partner, Flagship Pioneering Ignacio Martinez, MBA, General Partner, Flagship Pioneering Sheri McCoy, M.S., MBA, Former Vice Chairman, Johnson & Johnson Mary Szela, MBA, CEO and President, TriSalus Life Sciences About Sail Biomedicines Sail Biomedicines is pioneering the integrative design and deployment of fully programmable medicines to transform patient care. Sail's platform combines first-in-class programmable circular RNA technology (Endless RNA™ or eRNA), and an industry-leading platform of programmable nanoparticles, utilizing natural components, to unlock comprehensive programming of medicines for the first time. By leveraging cutting-edge eRNA and nanoparticle deployment technology, Sail is building a wealth of data, enabling unparalleled use of generative AI techniques to identify and design fully programmable medicines that are potent, targeted, versatile, and tunable. Sail was founded by Flagship Pioneering. About Flagship Pioneering Flagship Pioneering is a biotechnology company that invents and builds platform companies, each with the potential for multiple products that transform human health or sustainability. Since its launch in 2000, Flagship has originated and fostered more than 100 scientific ventures, resulting in more than $90 billion in aggregate value. To date, Flagship has deployed over $3.4 billion in capital toward the founding and growth of its pioneering companies alongside more than $26 billion of follow-on investments from other institutions.

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Medical

Zenfold Leverages Ginkgo Enzyme Services to Enable Veterinary Active Ingredient Development with Sustainable Biology

PR Newswire | October 17, 2023

Ginkgo Bioworks which is building the leading platform for cell programming and biosecurity, and Zenfold Sustainable Technologies, a company focused on developing and manufacturing specialty ingredients using sustainable technologies and precision fermentation, today announced a collaboration to leverage Ginkgo Enzyme Services in its effort to discover an enzyme critical to the manufacturing of veterinary products. This partnership aims to replace traditional chemical processes in veterinary active ingredient production with a sustainable biological method. "This collaboration marks a significant step forward in Zenfold's mission to bring sustainable manufacturing technology to the veterinary medicine industry," said Dr. BSV Prasad, CEO and Managing Director of Zenfold Sustainable Technologies. "By utilizing Ginkgo's expertise and innovation, we are well-positioned to develop a sustainable solution that will have a lasting impact on the Indian market and beyond." "We are excited to partner with Zenfold, which brings a powerful vision of sustainable biotechnology to veterinary active ingredient development. This collaboration will enable us to apply our state-of-the-art enzyme discovery module to enable more innovation in the veterinary medicine space," said Jennifer Wipf, SVP, Head of Commercial, Cell Engineering at Ginkgo. "The project involves creating a broad library of cDNA candidates from a metagenomic collection of billions of enzyme sequences. That's the kind of scale visionary projects like this need, and Ginkgo is committed to scaling up this solution for the betterment of animal health and the environment." About Ginkgo Bioworks Ginkgo Bioworks is the leading horizontal platform for cell programming, providing flexible, end-to-end services that solve challenges for organizations across diverse markets, from food and agriculture to pharmaceuticals to industrial and specialty chemicals. Ginkgo's biosecurity and public health unit, Concentric by Ginkgo, is building global infrastructure for biosecurity to empower governments, communities, and public health leaders to prevent, detect and respond to a wide variety of biological threats. About Zenfold Zenfold Sustainable Technologies is a pioneer in the field of sustainable biology, with a focus on veterinary actives and enzyme supply. This collaboration with Ginkgo Bioworks marks Zenfold's expansion into the global veterinary market and further emphasizes their commitment to environmental responsibility and innovative biological solutions.

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Medical

Ichnos Sciences Enters Licensing Agreement For Ox40 Antagonist Monoclonal Antibody Portfolio With Astria Therapeutics

PR Newswire | October 12, 2023

Ichnos Sciences, a global clinical-stage biotechnology company developing innovative multispecific antibodies for oncology, announced that the company has entered into an exclusive worldwide licensing agreement for its OX40 antagonist monoclonal antibody portfolio with Astria Therapeutics, a biopharmaceutical company developing therapies for rare allergic and immunological diseases. With the execution of this agreement, Ichnos has successfully licensed its two assets for inflammatory and immunological diseases, a key milestone in the company's prioritization of its pipeline of oncology drug candidates. Within the terms of the agreement, Astria will assume full cost and responsibility for the global development and commercialization of the licensed therapeutic program for all indications. In exchange, Ichnos will receive up to $320 million in upfront, development, regulatory and sales milestone payments in addition to up to low double-digit royalties. Ichnos has also agreed to allow Astria to draw down on its existing investigational drug substance and drug product stocks at normalized costs to facilitate development. Telazorlimab is a novel, humanized IgG1 monoclonal antibody that targets OX40 on T cells responsible for inflammation and immunity diseases. Excessive OX40 signaling, expressed on activated T cells, is the feature of several inflammatory diseases, including atopic dermatitis (AD). Astria plans to develop an affinity-matured version of telazorlimab and apply YTE half-life extension technology to create a product that aims to address the need for a safe, effective, and infrequently administered AD treatment. "As Ichnos continues to grow as a biotechnology company, this agreement enables our team to focus on advancing our robust pipeline of clinical-stage multispecific antibodies in oncology generated by our proprietary BEAT® platform1, as well as continue the discovery and development of our NK-cell engaging programs for solid tumors," said Cyril Konto, M.D., President and CEO of Ichnos. "I am proud of the work achieved by the Ichnos team in successfully completing the Phase 2b with telazorlimab in atopic dermatitis and potentially opening up a new therapeutic class for this disease. Ichnos is confident in Astria Therapeutics' capabilities and vision for pursuing the development of its OX40 program and delivering a potentially life-changing treatment to patients with inflammatory and immune diseases." "We are looking forward to building on the foundational work that Ichnos has done with their OX40 portfolio," said Jill Milne, Ph.D., co-founder and CEO of Astria Therapeutics. "We believe that by using Ichnos' affinity-matured next generation monoclonal antibody OX40 antagonist and applying YTE half-life extension technology, we have the potential to deliver a best-in-class profile for atopic dermatitis patients; one that we think can be safe, effective, and long-acting. In addition to OX40 antagonism already being a clinically validated mechanism in atopic dermatitis, we also are excited about the opportunity for potential expansion into additional indications." About Ichnos Sciences Inc. A fully integrated, global biotech with the spirit of a start-up, Ichnos is shifting the way the world thinks about innovation in medicine through its research and development of transformative, disease-centric treatments in oncology. The company, with headquarters in New York, N.Y., is rapidly advancing a clinical-stage pipeline of novel, first-in-class candidates designed to address complex diseases and to treat patients holistically. With its patented BEAT® technology platform and pioneering teams, Ichnos Sciences has a mission to provide breakthrough, curative therapies that will extend and improve lives, writing a new chapter in healthcare.

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Medical

Flagship Pioneering Announces the Merger of Two Leading Programmable Medicine Platforms to Form Sail Biomedicines

PR Newswire | October 25, 2023

Flagship Pioneeringannounced the combination of Laronde and Senda Biosciences to launch Sail Biomedicines, a company pioneering the design and deployment of fully programmable medicines to transform patient care. Sail harnesses the power of first-in-category programmable payloads of Endless RNA™ (eRNA), first-in-category programmable nanoparticles, and emerging, proprietary AI technologies, to unlock the comprehensive programming of medicines for the first time. Guillaume Pfefer, Ph.D., MBA, who is also CEO-Partner at Flagship Pioneering, will become Sail's CEO and board member, while John Mendlein, Ph.D., who also serves as Executive Partner, Flagship Pioneering, will become the company's Executive Chairman. Sail unites Laronde and Senda Biosciences, two companies that deliver more than eight years of combined data and multi-product platform building. Senda's platform was the first to leverage a universal chemical code of natural nanoparticles that enables directed and repeatable deployment of payloads, such as translatable RNA, directly to cells and tissues of choice. Laronde pioneered eRNA, a new class of synthetic, translatable RNA that can be programmed to express diverse proteins inside the body, with vast therapeutic potential. "Endless RNA has the potential to create an entirely new class of programmable medicines across therapeutic areas that we will now be able to deliver directly to cells and tissues via deployment molecules with unique properties to confer specificity and greater tolerability," said Mendlein. "We believe these programmable medicines will be greatly enhanced via our proprietary generative AI technologies and rapid prototyping abilities to achieve breakthroughs currently beyond the grasp of the human mind. I look forward to working with the Sail Biomedicines team in this exciting new chapter." "Our deployment platform utilizes natural nanoparticles to shuttle biomolecules into human cells, with unique tropism, potency, and redosability," said Pfefer. "I look forward to leading the integration of these two teams to accelerate the development of new product candidates, build strategic partnerships, and enable diverse value pools, with the goal of swiftly delivering life-changing vaccines and therapies for the people who need them." "Sail Biomedicines builds on the progress made by two leading Flagship bioplatform companies and will enable integrative design for more effective programmable medicines," said Noubar Afeyan, Ph.D., Founder and CEO of Flagship Pioneering. "I am confident the combined leadership team and board will carry forward this company to realize its bold ambitions and ultimately deliver maximum impact for patients." In addition to Mendlein and Pfeffer, the Sail Biomedicines Board of Directors will comprise all current members of the Laronde and Senda Biosciences boards, as follows Pablo Cagnoni, M.D., President and Head of Research & Development, Incyte Jose "Pepe" Carmona, MBA, Chief Financial Officer, ADC Therapeutics Paula Hammond, Ph.D., Institute Professor, Massachusetts Institute of Technology, Head of Department of Chemical Engineering, Massachusetts Institute of Technology Avak Kahvejian, Ph.D., General Partner, Flagship Pioneering Ignacio Martinez, MBA, General Partner, Flagship Pioneering Sheri McCoy, M.S., MBA, Former Vice Chairman, Johnson & Johnson Mary Szela, MBA, CEO and President, TriSalus Life Sciences About Sail Biomedicines Sail Biomedicines is pioneering the integrative design and deployment of fully programmable medicines to transform patient care. Sail's platform combines first-in-class programmable circular RNA technology (Endless RNA™ or eRNA), and an industry-leading platform of programmable nanoparticles, utilizing natural components, to unlock comprehensive programming of medicines for the first time. By leveraging cutting-edge eRNA and nanoparticle deployment technology, Sail is building a wealth of data, enabling unparalleled use of generative AI techniques to identify and design fully programmable medicines that are potent, targeted, versatile, and tunable. Sail was founded by Flagship Pioneering. About Flagship Pioneering Flagship Pioneering is a biotechnology company that invents and builds platform companies, each with the potential for multiple products that transform human health or sustainability. Since its launch in 2000, Flagship has originated and fostered more than 100 scientific ventures, resulting in more than $90 billion in aggregate value. To date, Flagship has deployed over $3.4 billion in capital toward the founding and growth of its pioneering companies alongside more than $26 billion of follow-on investments from other institutions.

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Medical

Zenfold Leverages Ginkgo Enzyme Services to Enable Veterinary Active Ingredient Development with Sustainable Biology

PR Newswire | October 17, 2023

Ginkgo Bioworks which is building the leading platform for cell programming and biosecurity, and Zenfold Sustainable Technologies, a company focused on developing and manufacturing specialty ingredients using sustainable technologies and precision fermentation, today announced a collaboration to leverage Ginkgo Enzyme Services in its effort to discover an enzyme critical to the manufacturing of veterinary products. This partnership aims to replace traditional chemical processes in veterinary active ingredient production with a sustainable biological method. "This collaboration marks a significant step forward in Zenfold's mission to bring sustainable manufacturing technology to the veterinary medicine industry," said Dr. BSV Prasad, CEO and Managing Director of Zenfold Sustainable Technologies. "By utilizing Ginkgo's expertise and innovation, we are well-positioned to develop a sustainable solution that will have a lasting impact on the Indian market and beyond." "We are excited to partner with Zenfold, which brings a powerful vision of sustainable biotechnology to veterinary active ingredient development. This collaboration will enable us to apply our state-of-the-art enzyme discovery module to enable more innovation in the veterinary medicine space," said Jennifer Wipf, SVP, Head of Commercial, Cell Engineering at Ginkgo. "The project involves creating a broad library of cDNA candidates from a metagenomic collection of billions of enzyme sequences. That's the kind of scale visionary projects like this need, and Ginkgo is committed to scaling up this solution for the betterment of animal health and the environment." About Ginkgo Bioworks Ginkgo Bioworks is the leading horizontal platform for cell programming, providing flexible, end-to-end services that solve challenges for organizations across diverse markets, from food and agriculture to pharmaceuticals to industrial and specialty chemicals. Ginkgo's biosecurity and public health unit, Concentric by Ginkgo, is building global infrastructure for biosecurity to empower governments, communities, and public health leaders to prevent, detect and respond to a wide variety of biological threats. About Zenfold Zenfold Sustainable Technologies is a pioneer in the field of sustainable biology, with a focus on veterinary actives and enzyme supply. This collaboration with Ginkgo Bioworks marks Zenfold's expansion into the global veterinary market and further emphasizes their commitment to environmental responsibility and innovative biological solutions.

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Medical

Ichnos Sciences Enters Licensing Agreement For Ox40 Antagonist Monoclonal Antibody Portfolio With Astria Therapeutics

PR Newswire | October 12, 2023

Ichnos Sciences, a global clinical-stage biotechnology company developing innovative multispecific antibodies for oncology, announced that the company has entered into an exclusive worldwide licensing agreement for its OX40 antagonist monoclonal antibody portfolio with Astria Therapeutics, a biopharmaceutical company developing therapies for rare allergic and immunological diseases. With the execution of this agreement, Ichnos has successfully licensed its two assets for inflammatory and immunological diseases, a key milestone in the company's prioritization of its pipeline of oncology drug candidates. Within the terms of the agreement, Astria will assume full cost and responsibility for the global development and commercialization of the licensed therapeutic program for all indications. In exchange, Ichnos will receive up to $320 million in upfront, development, regulatory and sales milestone payments in addition to up to low double-digit royalties. Ichnos has also agreed to allow Astria to draw down on its existing investigational drug substance and drug product stocks at normalized costs to facilitate development. Telazorlimab is a novel, humanized IgG1 monoclonal antibody that targets OX40 on T cells responsible for inflammation and immunity diseases. Excessive OX40 signaling, expressed on activated T cells, is the feature of several inflammatory diseases, including atopic dermatitis (AD). Astria plans to develop an affinity-matured version of telazorlimab and apply YTE half-life extension technology to create a product that aims to address the need for a safe, effective, and infrequently administered AD treatment. "As Ichnos continues to grow as a biotechnology company, this agreement enables our team to focus on advancing our robust pipeline of clinical-stage multispecific antibodies in oncology generated by our proprietary BEAT® platform1, as well as continue the discovery and development of our NK-cell engaging programs for solid tumors," said Cyril Konto, M.D., President and CEO of Ichnos. "I am proud of the work achieved by the Ichnos team in successfully completing the Phase 2b with telazorlimab in atopic dermatitis and potentially opening up a new therapeutic class for this disease. Ichnos is confident in Astria Therapeutics' capabilities and vision for pursuing the development of its OX40 program and delivering a potentially life-changing treatment to patients with inflammatory and immune diseases." "We are looking forward to building on the foundational work that Ichnos has done with their OX40 portfolio," said Jill Milne, Ph.D., co-founder and CEO of Astria Therapeutics. "We believe that by using Ichnos' affinity-matured next generation monoclonal antibody OX40 antagonist and applying YTE half-life extension technology, we have the potential to deliver a best-in-class profile for atopic dermatitis patients; one that we think can be safe, effective, and long-acting. In addition to OX40 antagonism already being a clinically validated mechanism in atopic dermatitis, we also are excited about the opportunity for potential expansion into additional indications." About Ichnos Sciences Inc. A fully integrated, global biotech with the spirit of a start-up, Ichnos is shifting the way the world thinks about innovation in medicine through its research and development of transformative, disease-centric treatments in oncology. The company, with headquarters in New York, N.Y., is rapidly advancing a clinical-stage pipeline of novel, first-in-class candidates designed to address complex diseases and to treat patients holistically. With its patented BEAT® technology platform and pioneering teams, Ichnos Sciences has a mission to provide breakthrough, curative therapies that will extend and improve lives, writing a new chapter in healthcare.

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