Industrial Impact
MOMA Therapeutics | January 04, 2024
MOMA Therapeutics, a biotechnology company focused on identifying and targeting highly dynamic, difficult to drug targets in cancer and other diseases, is pleased to announce a strategic collaboration and licensing agreement with Roche. This partnership provides Roche with access to MOMA’s proprietary KnowledgeBase platform for the identification and prosecution of a certain number of novel drug targets involved in promoting cancer cell growth and survival.
MOMA’s KnowledgeBase comprises integrated structure-function capabilities, advanced lead-finding technologies and computation-enabled lead optimization. It was built upon the concept that functionally related targets lacking sequence homology still possess three dimensional structural motifs that can be exploited to produce highly impactful therapies. To date, MOMA has utilized this bespoke platform to accelerate drug discovery in the ATPase target class, a class with a high number of genetically validated targets for which industry efforts to identify therapeutically viable drugs have been hampered by the extent of dynamic protein motion.
“Given its deep expertise and global footprint in oncology, Roche represents an ideal collaborator with whom to further advance the application of MOMA’s platform in a way that impacts patients’ lives. The vision for this collaboration was crafted jointly with Roche to enable each party to bring its strengths in pursuit of this shared goal. It also contributes to the long-term sustainability of MOMA’s core focus as we advance our rich pipeline of precision oncology programs to the clinic,” said Asit Parikh, M.D., Ph.D., chief executive officer of MOMA.
Through the collaboration, MOMA will receive $66 million as an upfront cash payment and is also eligible to receive discovery, development, and commercialization milestone payments potentially exceeding US$2 billion, as well as tiered royalties. MOMA will be primarily responsible for all activities for selected targets through to development candidate confirmation, whereas Roche will be responsible for IND-enabling activities and clinical development and commercialization. Additionally, if multiple collaboration assets reach pivotal clinical studies, MOMA will receive a right to co-fund late-stage development of one product in exchange for increased royalties in the US on this product.
“We are excited to join forces with MOMA, combining our leadership in oncology with MOMA’s deep expertise in drug discovery for difficult-to-drug and novel targets in oncology. The broader field of cancer dependencies is of high importance for Roche and we are looking forward to further deepening our knowledge and discovering novel targets involved in cancer cell growth and survival leveraging MOMA’s innovative platform,” said James Sabry, M.D., Ph.D., global head of pharma partnering, Roche.
“It is exciting to utilize our industry-leading knowledge in how to identify and drug highly dynamic proteins to deliver on a breadth of discovery programs in partnership with Roche,” added Peter Hammerman, M.D., Ph.D., chief scientific officer and head of development at MOMA. “Along with bringing two MOMA-owned high-impact programs to the clinic next year, we are making exciting progress towards our goal of addressing key unmet needs for patients living with advanced cancer.”
About MOMA Therapeutics
MOMA Therapeutics is committed to discovering the next generation of precision medicines by targeting highly dynamic proteins that underlie human disease. Bringing together seminal scientific advancements in biochemistry, biophysics, structural biology, chemistry, computation, and functional genomics, the company has established the KnowledgeBase platform to exploit a key vulnerability inherent to all dynamic proteins: their dependence on well-coordinated, stepwise changes in protein conformation. By focusing this platform on disease-causing targets, MOMA aims to develop high impact, precision medicines for patients with unmet medical needs. MOMA Therapeutics is a private company launched in 2020 with seasoned leadership, a highly specialized workforce with deep expertise in oncology discovery, world-class scientific founders, and financed by leading biotech investors.
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Industrial Impact
Nimbus Therapeutics | January 08, 2024
Nimbus Therapeutics, LLC a biotechnology company that designs and develops breakthrough medicines through its powerful computational drug discovery engine, announced the advancement and expansion of its pipeline with the addition of discovery programs targeting innate immunity pathways. These programs, targeting the salt-inducible kinase (SIK) family and cyclic GMP-AMP synthase (cGAS), represent promising opportunities to leverage Nimbus’ industry-leading computational and structure-based drug design expertise to develop highly selective, potent medicines addressing areas of significant unmet need.
"Building on the success of our TYK2 program, we are broadening our drug discovery engine to unlock new difficult-to-drug targets with compelling biology,” said Peter Tummino, Ph.D., Chief Scientific Officer of Nimbus. “SIK and cGAS are critical targets in highly prevalent diseases that are well suited to Nimbus’ structure-based drug design approach. We look forward to advancing our discovery and development programs across oncology, immunology, and metabolism to deliver transformative medicines to patients.”
Nimbus is advancing its Phase 1/2 trial (NCT05128487) of NDI-101150, a small molecule inhibitor of hematopoietic progenitor kinase 1 (HPK1), and has reported positive dose escalation data showing potential monotherapy clinical benefit for patients with solid tumors. Furthermore, the company expects to initiate IND-enabling activities this year for its oncology program targeting Werner syndrome helicase (WRN). In collaboration with Eli Lilly and Company, Nimbus continues to progress the development of novel targeted therapies that activate AMPK to potentially treat a broad range of metabolic disorders.
Nimbus continues to expand its platform capabilities with ongoing investments in cutting-edge technology for drug discovery. Alongside proprietary computational tools which the company has developed in-house, Nimbus’ platform leverages state-of-the-art technology through collaborations such as its recently announced partnership with Anagenex, a leader in generative AI for drug design.
Jeb Keiper, M.S., MBA, Nimbus’ Chief Executive Officer, will provide an overview of the company’s progress and pipeline and anticipated milestones for 2024 and beyond at the 42nd Annual J.P. Morgan Healthcare Conference on Monday, January 8, 2024 at 7:30 am PT.
About Nimbus Therapeutics
Nimbus Therapeutics is a clinical-stage, structure-based drug discovery company developing novel small molecule medicines designed to act against well-validated but difficult-to-drug targets implicated in multiple human diseases. Nimbus combines leading-edge computational technologies with a tailored array of machine learning-based predictive modeling approaches. Nimbus’ pipeline includes a clinical-stage HPK1 inhibitor for the treatment of cancer (NCT05128487), as well as a diverse portfolio of preclinical programs focused on cancer, autoimmune conditions, and metabolic diseases. Nimbus is headquartered in Boston, Mass.
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Medical
Twist Bioscience Corporation | January 30, 2024
Twist Bioscience Corporation a company enabling customers to succeed through its offering of high-quality synthetic DNA using its silicon platform, today announced the expansion of Twist Express Genes, a new leading gene synthesis service with an order to shipping turnaround starting at five business days1, to include larger DNA preparations up to 1 milligram.
The Express Genes offering, initially launched in November 2023, now extends to larger midiprep (10μg to 100 μg) and maxiprep (100μg to 1mg) DNA preparations. As with Twist standard speed Clonal Genes, all Twist Express Genes are NGS-verified as clonally perfect.
“Since the initial launch of our Express Genes service in November, we have received positive and enthusiastic feedback from existing customers on our consistent and rapid turnaround time. By expanding Express Genes to include midiprep and maxiprep, we can now offer rapid gene synthesis at all gene prep scales, enabling large scale experimentation for pharmaceutical, biotechnology, academic and industrial chemical researchers,” said Emily M. Leproust, Ph.D., CEO and co-founder of Twist Bioscience. “With the expanded offering of Twist Express Genes, more researchers can gain access to Twist genes fast and at scale, including those using alternative providers and those cloning their own genes. The ability to order and receive synthetic DNA fast and at scale means more time for cutting-edge research, more make-test-learn cycles, and an accelerated journey to game-changing discoveries.”
Twist leverages its ability to miniaturize the chemical reaction to create DNA using its silicon-based DNA synthesis platform along with expertise, software, optimized processes and the expanded layout of its Wilsonville facility to deliver Clonal Genes and Gene Fragments at scale and with rapid turnaround times. Twist’s Express Genes are offered with dynamic pricing, which reflects market demand and manufacturing capacity in a responsive premium price. Customers are able to quickly and easily place orders for Express Genes through Twist’s ecommerce platform.
Twist Express Genes
Twist Express Genes are 0.3kb to 5.0kb in length. Due to scale enabled by Twist’s platform, orders of any size both small and large can be filled, and as with standard speed Twist Clonal Genes, Twist Express Genes are NGS sequence-verified as one hundred percent accurate. Twist Express Genes can be cloned into catalog vectors or custom vectors so that customers can move right to experimentation. They can also be shipped in customers’ preferred delivery formats, including tubes and plates. For more information and product specifications click here.
Current turnaround times for some Twist Bioscience products
Express Genes1 (50ng-10µg): starting at 5 business days, now for up to 10µg
Standard Clonal Genes (50ng-10µg): starting at 10 business days
Express Genes1 (10µg-1mg): starting at 8 business days
Standard Clonal Genes (10µg-1mg): starting at 13 business days
1 Express Clonal Genes ship in 5-7 business days. DNA prep sizes including 10 μg - 100 μg, and 100 μg - 1 mg may incur an additional 3-5 days for synthesis. Orders placed outside of the US will incur additional delivery turnaround time. Express Genes orders that require new custom vector onboarding will incur an additional 1-2 weeks for processing.
About Twist Bioscience Corporation
Twist Bioscience is a leading and rapidly growing synthetic biology and genomics company that has developed a disruptive DNA synthesis platform to industrialize the engineering of biology. The core of the platform is a proprietary technology that pioneers a new method of manufacturing synthetic DNA by “writing” DNA on a silicon chip. Twist is leveraging its unique technology to manufacture a broad range of synthetic DNA-based products, including synthetic genes, tools for next-generation sequencing (NGS) preparation, and antibody libraries for drug discovery and development. Twist is also pursuing longer-term opportunities in digital data storage in DNA and biologics drug discovery. Twist makes products for use across many industries including healthcare, industrial chemicals, agriculture and academic research.
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Industry Outlook
Virica Biotech | January 17, 2024
Virica Biotech Inc. (“Virica”), a leading developer of cell enhancers for scaling of viral vector as well as cell and gene therapy manufacturing will expand its bioprocessing services through a partnership with Carleton University. Slated to open this spring, Virica’s new facility at the university multiplies the Company’s capacity to provide high throughput virology services for customers looking to optimize production of their cell and gene therapies.
“Carleton’s new Health Sciences Building provides us with greater access to modern infrastructure and analytical expertise,” said Jean Simon Diallo, Ph.D., CEO of Virica Biotech. “Their state-of-the-art analytical research facilities and world-class researchers across multiple disciplines open the door to exciting opportunities for partnering with Carleton University as we continue to invest to meet customer demand.”
“We are very pleased to welcome Virica Biotech to the Carleton campus,” said Rafik Goubran, Ph.D., Vice-President (Research and International) and Chancellor’s Professor, Carleton University. “This multi-year, multi-million-dollar research and infrastructure partnership will help drive innovation and talent development in the Ottawa region for the creation and manufacturing of advanced therapies.”
This partnership expands on Carleton’s history of supporting Ottawa biotechnology companies. The new open concept facility will include high throughput equipment to accelerate Virica’s bioprocess development and optimizations. In addition to expanded modern infrastructure, this new location enables the development and recruitment of world-class talent with experiential learning and training opportunities for Carleton students. Through this partnership, Carleton will coordinate the establishment of a scholarship fund designed to empower graduate students from traditionally underrepresented groups in science.
About Virica Biotech
Virica develops cell enhancers for viral vectors that improve the yield and quality of vaccines and cell and gene therapies, allowing developers to economically deploy their products at scale. Virica’s Viral Sensitizer (VSE™) platform reduces production inefficiencies caused by anti-viral defenses in manufacturing cells. Purpose formulated VSE combinations substantially increase manufacturing yields and reduce the cost of goods for a range of life-changing products, including vaccines, gene therapies, and cell therapies.
About Carleton University
Carleton University is a dynamic, research-intensive institution that engages in partnerships to address the world’s most pressing challenges. The university’s corporate collaborations bring together world-class companies, researchers and a new generation of talent with over 30,000 students to deliver innovations and results that are driving a more prosperous, sustainable future.
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