Businesswire | June 07, 2023
Matica Biotechnology, Inc. a contract development and manufacturing organization specializing in the GMP production of cell and gene therapies, today unveiled the company’s new MatiMax™ cell lines at the BIO International Convention, taking place in Boston, MA..
Proprietary to Matica Bio, MatiMaxTM HEK293 and HEK293T cell lines have been rigorously optimized to enable.
Faster doubling times – Reaching as low as 17 hours, which can significantly shorten processing timelines; 30% faster than industry standards
Improved transfection efficiencies – Reducing the amount of DNA and transfection reagents required for production
Increased titers – Supporting higher virus production at a lower cost
“The current industry standard for media-based cell line development — typically focused on a limited set of factors, such as glucose, glutamine, nitrogen and ammonia — can potentially limit scalability, which is mission critical when selecting cell lines during the early stages of cell and gene therapy development to stay competitive,” said Michael Stewart, Matica Bio’s chief technology officer. “As a specialized CDMO, we are changing the rules of the game by incorporating a more holistic, multi-dimensional philosophy into our cell line platforms for cell and gene therapies, which incorporates some of the most advanced processes, analytical technologies and media analysis available. This fine tuning is absolutely necessary to reduce bottlenecks for any viral vector expression system, which, in turn, can improve yields and enable doubling times that are faster than other cell line service offerings on the market.”.
MatiMaxTM is available for customers to use today, and comes in four different cell line options.
“As advances in gene modified therapies continue to grow, Matica Bio is well-positioned to support the exploding number of cell and gene therapy candidates under development, which helps our clients reach the clinic faster with high-quality products,” said Andrew Arrage, Matica Bio’s Chief Commercial Officer. “We already have several clients currently using MatiMaxTM lines, which have immediate availability and attractive licensing terms. Our objective is to empower biopharmaceutical developers to achieve their clinical and commercial goals, and, ultimately, treat more patients.”.
About Matica Biotechnology, Inc.
Matica Biotechnology, Inc. is a contract development and manufacturing organization (CDMO) specializing in fully integrated cell and gene therapy manufacturing. The industry-leading experts at our state-of-the-art facility in College Station, Texas, deliver breakthrough therapies rapidly and safely through innovative manufacturing solutions.
PRNewswire | June 06, 2023
PhenomeX Inc. the functional cell biology company, announced the launch of the Beacon Quest™ optofluidic system, with Opto® T Cell Profiling workflows for immunotherapy translational research and a platform price under $1 million USD, less than half of the higher-throughput Beacon system, enabling broader accessibility to the cutting-edge technology critical for next-generation precision medicine.
The Opto T Cell Profiling workflows have enabled scientists to comprehensively profile single T cells to correlate polyfunctionality with cytotoxicity and recover those same cells for downstream analysis such as transcriptome and genome sequencing, revealing functional connections of phenotype with molecular mechanism. This depth of understanding of biology and response to therapeutics is not available on any other platform. Combined with the value-matched Beacon Quest system, more academic, non-profit, and government customers can now access the power of optofluidic and NanoPen® chamber technology and propriety single T Cell Profiling applications along with the optimum level of features to meet their research and budgetary needs.
"At PhenomeX, we are excited to launch the Beacon Quest, as it supports our objective of offering scientists and researchers globally the ability to affordably access the main applications of the Beacon system, including antibody discovery, cell line development and single-cell functional multiomic T-cell profiling," said Siddhartha Kadia, Ph.D., chief executive officer of PhenomeX. "We look forward to partnering with and providing significant value in the academic research segments, particularly in immuno-oncology translational cancer centers and innovative cell and gene therapy development centers."
Beacon Quest for T Cell Profiling Workflow Features
Opto T Cell Profiling workflows on the Beacon Quest system enable multi-functional characterization of single T cells, including for development of efficacious immunotherapies and cell-based cancer therapeutics, that are ideally suited for academic, non-profit, and government customers.
The Beacon Quest system enables a variety of assays to profile single T cells including detection of cytokine secretion, cytotoxicity, cell surface markers, transcriptome profiling and TCRSeq, with the potential to study growth characteristics and cell motility. The resulting analysis is used to identify cells with phenotypes of interest and guide recovery of the same cells for downstream assays, enabling researchers to gain a deeper understanding of the underlying biology by
Investigating molecular mechanisms associated with polyfunctional T cells;
Identifying desirable phenomes by correlating polyfunctionality with cytotoxicity; and
Linking desirable phenotypes to T cell receptor sequences of the same cells.
In addition to supporting the Opto T Cell Profiling workflows, Beacon Quest will enable customers to access the Opto B Discovery workflows and Opto Cell Line Development workflows. To further increase customer accessibility and affordability, PhenomeX will also offer reduced priced OptoSelect® chips (OptoSelect® Research chips) for Beacon Quest, helping academic customers accelerate the pace of scientific discovery for clinical research use applications.
About PhenomeX Inc.
PhenomeX is empowering scientists to leverage the full potential of each cell and drive the next era of functional cell biology that will advance human health. We enable scientists to reveal the most complete insights on cell function and obtain a full view of the behavior of each cell. Our unique suite of proven high-throughput tools and services offer unparalleled resolution and speed, accelerating the insights that are key to advancing discoveries that can profoundly improve the prevention and treatment of disease. Our award-winning platforms are used by researchers across the globe, including those at the top 15 global pharmaceutical companies and approximately 85% of leading U.S. comprehensive cancer centers.
CELL AND GENE THERAPY, AI
Businesswire | June 05, 2023
BenevolentAI, a leader in the development of cutting-edge AI that accelerates biopharma discovery, announces the successful delivery of its pre-clinical candidate for the potential treatment of amyotrophic lateral sclerosis (ALS), BEN-34712.
BEN-34712 is an oral, potent and selective brain penetrant RARɑβ (retinoic acid receptor alpha beta) biased agonist and will now enter investigational new drug (IND)-enabling studies.
Impaired retinoic acid signalling has been shown to result in neuroinflammation, oxidative stress and mitochondrial dysfunction, all hallmarks of ALS. In preclinical studies conducted by the Company, BEN-34712 was neuroprotective in a patient-derived, disease-relevant in vitro motor neuron/iAstrocyte co-culture model, demonstrating significant efficacy in both sporadic and familial subtypes of ALS. In addition, BEN-34712 has demonstrated both central nervous system (CNS) target engagement and functional protective effects in the SOD1G93A mouse model of ALS after 50-day repeat dosing.
BenevolentAI collaborated with the Sheffield Institute for Translational Neuroscience (SITraN) at the University of Sheffield on this programme, utilising their patient-derived motor neuron/iAstrocyte co-culture systems and in vivo model expertise.
Anne Phelan, Chief Scientific Officer, BenevolentAI, said: “There remains a significant and urgent need for new and alternative therapies for patients with ALS. We are pleased by the promising advancement of our drug candidate, BEN-34712, towards clinical development, backed by the compelling preclinical data generated by our collaborators at SITraN.”
Richard Mead, Senior Lecturer in Translational Neuroscience at SITraN, commented: "ALS patients suffering from this devastating neurodegenerative disease are in dire need of effective therapy, with the current standard of care options focusing on symptom management or offering limited clinical benefit. We believe BEN-34712 represents an exciting development in our research for a potential new treatment, particularly as it shows effectiveness in both the SOD1G93A mouse model system as well as familial and C9orf72 related ALS patient-derived cell models."
BenevolentAI is a leading developer of advanced artificial intelligence technologies that unlock the value of multimodal data, surface novel insights, and accelerate biomedical discovery. Through the combined capabilities of its AI platform, its scientific expertise, and wet-lab facilities, the Company is developing an in-house drug pipeline of high-value assets. The Company is headquartered in London, with a research facility in Cambridge (UK) and a further office in New York.
ALS is a progressive neurologic disorder characterised by the loss of cortical and spinal motor neurons, leading to the denervation of nerve endplates, axonal retraction and subsequent muscle atrophy. The average survival time following the initial diagnosis is around two-three years, and while there are drugs approved by the US FDA for ALS, they provide only modest benefits to patients, underwriting the urgent need for new and alternative therapies.
About SITraN at the University of Sheffield
The Sheffield Institute for Translational Neuroscience (SITraN) is an essential development in the fight against motor neurone disease and other common neurodegenerative disorders, including Parkinson's and dementia, as well as stroke and multiple sclerosis. SITraN has the potential to bring new treatments and new hope to patients and carers in the UK and worldwide, by significantly accelerating the pace of therapeutic development using technologies such as experimental modelling of disease, gene therapy and stem cell biology, gene expression profiling and bioinformatics analysis and modelling of the biological processes. Since its opening by Queen Elizabeth II in 2010, SITraN has grown immensely and developed into a leading global facility which is at the forefront of research and expertise.