BEIJING & CAMBRIDGE, Mass.--(BUSINESS WIRE)--CANbridge Pharmaceuticals Inc. (HKEX:1228), a leading China-based global biopharmaceutical company committed to the research, development and commercialization of transformative rare disease and rare oncology therapies, announced the presentation of the initial data from its gene therapy research agreement with the Horae Gene Therapy Center, at the UMass Chan Medical School, at the ASGCT 25th Annual Meeting, in Washington DC, today.
In work led by Jun Xie Ph.D., in the lab of Guangping Gao, Ph.D., researchers concluded that a novel second-generation scAAV9 gene therapy, expressing co-hSMN1 from an endogenous hSMN1 promoter, demonstrated superior potency, efficacy and safety in mice with spinal muscular atrophy (SMA), compared to the benchmark vector, scAAV9-CMVen/CB-hSMN1, which is similar to the vector used in the gene therapy approved by the US Food and Drug Administration for the treatment of SMA.
The novel second-generation gene therapy showed superior efficacy to the benchmark vector in SMA mice along several endpoints, including extended lifespan, restored muscle function and better neuromuscular junction innervation, without the liver toxicity shown in the benchmark-treated animals. Specifically, the second-generation gene therapy significantly extended the lifespan of SMA mice in a dose-dependent manner, with all doses showing improved survival, compared to both the benchmark gene therapy vector high dose and to untreated SMA mice. The second-generation gene therapy also restored muscle function in SMA mice significantly better than the benchmark vector. This was observed in both the righting test, in which second-generation gene therapy-treated SMA mice were able to right themselves faster than the benchmark vector-treated mice, and in the grid test, in which they demonstrated better muscle function. In addition, the second-generation vector restored the innervation of the neuromuscular junctions in SMA mice to close to that of wild-type mice, and significantly better than in SMA mice treated with the benchmark vector.
Finally, SMA mice treated with the second-generation gene therapy showed higher SMN1 expression in the central nervous system and lower peripheral tissue than the benchmark vector-treated mice, in a pattern that was similar to that of healthy carrier mice. Furthermore, the benchmark vector produced liver damage in four out of seven SMA mice, eight days post-injection, compared to no liver toxicity in mice treated with the second-generation gene therapy vector, or in healthy carrier mice, suggesting that the second-generation gene therapy has the potential to reduce liver toxicity and overcome current therapeutic limitations.
This is the first data to be presented from the gene therapy research collaboration between CANbridge and the Gao Lab at the Horae Gene Therapy Center.
What differentiates our novel second-generation gene therapy vector from the benchmark vector is the genetic engineering of a codon-optimized SMN1 transgene under the control of the endogenous SMN1 promoter, which enables highly efficient and regulated gene expression across tissues, with the potential to improve both efficacy and safety, while at a lower dose than is currently used in patients, said Yunxiang Zhu, Ph.D., Vice President, Head of Global Research, CANbridge Pharmaceuticals, and a study author. These data encourage us to support the continued development of this second-generation vector as a potential best-in-class gene therapy for SMA.
We are seeking to develop a next-generation gene therapy for SMA that leverages the advances in gene therapy that have occurred since the first gene therapy was developed, over a decade ago, said Guangping Gao, Ph.D., Co-Director, Li Weibo Institute for Rare Diseases Research, Director, the Horae Gene Therapy Center and Viral Vector Core, Professor of Microbiology and Physiological Systems and Penelope Booth Rockwell Professor in Biomedical Research at UMass Chan Medical School, and a lead study author. Dr. Gao is also a former ASCGT president.
Presentation Details:
Title: Endogenous Human SMN1 Promoter-driven Gene Replacement Improves the Efficacy and Safety of AAV9-mediated Gene Therapy for Spinal Muscular Atrophy in Mice
Poster #: M-144
Category: Neurologic Diseases: AAV Vectors- Preclinical and Proof-of-Concept Studies
Category: Neurologic Diseases I
Session Date and Time: Monday, May 16, 5:30-6:30 PM EDT
Authors: Qing Xie, Hong Ma, Xiupeng Chen, Yunxiang Zhu, Yijie Ma, Leila Jalinous, Qin Su, Phillip Tai, Guangping Gao, Jun Xie
Abstracts are available on the ASGCT website: https://annualmeeting.asgct.org/abstracts
About the Horae Gene Therapy Center at UMass Chan Medical School
The faculty of the Horae Gene Therapy Center is dedicated to developing therapeutic approaches for rare inherited disease for which there is no cure. We utilize state of the art technologies to either genetically modulate mutated genes that produce disease-causing proteins or introduce a healthy copy of a gene if the mutation results in a non-functional protein.
The Horae Gene Therapy Center faculty is interdisciplinary, including members from the departments of Pediatrics, Microbiology & Physiological Systems, Biochemistry & Molecular Pharmacology, Neurology, Medicine and Ophthalmology. Physicians and PhDs work together to address the medical needs of rare diseases, such as Alpha 1-Antitrypsin Deficiency, Canavan Disease, Tay-Sachs and Sandhoff diseases, Retinitis Pigmentosa, Cystic fibrosis, Lou Gehrig's disease, TNNT1 nemaline myopathy, Rett syndrome, N-Gly 1 deficiency, Pitt-Hopkins syndrome, Marple Syrup Urine Disease, Sialidosis, GM3 synthase deficiency, Huntington's disease, ALS and others. More common diseases such as cardiac arrhythmia and hypercholesterolemia are also investigated. The hope is to treat a wide spectrum of diseases by various gene therapeutic approaches. Additionally, the University of Massachusetts Chan Medical School conducts clinical trials on site and some of these trials are conducted by the investigators at the Gene Therapy center.
About CANbridge Pharmaceuticals Inc.
CANbridge Pharmaceuticals Inc. (HKEX:1228) is a China-based global biopharmaceutical company committed to the research, development and commercialization of transformative therapies for rare disease and rare oncology. CANbridge has a differentiated drug portfolio, with three approved drugs and a pipeline of 11 assets, targeting prevalent rare disease and rare oncology indications that have unmet needs and significant market potential. These include Hunter syndrome and other lysosomal storage disorders, complement-mediated disorders, hemophilia A, metabolic disorders, rare cholestatic liver diseases and neuromuscular diseases, as well as glioblastoma multiforme. CANbridge is also building next-generation gene therapy development capability through a combination of collaboration with world-leading researchers and biotech companies and internal capacity. CANbridge global partners include: Apogenix, GC Pharma, Mirum, Wuxi Biologics, Privus, the UMass Chan Medical School and LogicBio.
For more on CANbridge Pharmaceuticals Inc., please go to: http://www.canbridgepharma.com.
Forward-Looking Statements
The forward-looking statements made in this article relate only to the events or information as of the date on which the statements are made in this article. Except as required by law, we undertake no obligation to update or revise publicly any forward-looking statements, whether as a result of new information, future events or otherwise, after the data on which the statements are made or to reflect the occurrence of unanticipated events. You should read this article completely and with the understanding that our actual future results or performance may be materially different from what we expect. In this article, statements of, or references to, our intentions or those of any of our Directors or our Company are made as of the date of this article. Any of these intentions may alter in light of future development.
- Clemson professor Trudy Mackay elected to the National Academy of Medicine - Clemson News - October 22nd, 2024
- Research sheds new light on the behavior of KRAS gene in pancreatic and colorectal cancer - News-Medical.Net - October 22nd, 2024
- Pushing the boundaries of rare disease diagnostics with the help of the first Undiagnosed Hackathon - Nature.com - October 22nd, 2024
- Tailored Genetic Medicine: AAV Gene Therapy and mRNA Vaccines Redefine Healthcare's Future - Intelligent Living - October 22nd, 2024
- The Genetic Link to Parkinson's Disease - Hopkins Medicine - August 27th, 2022
- Epic Bio makes gene therapies by editing the epigenome - Labiotech.eu - August 27th, 2022
- Ovid turns to gene therapy startup to restock drug pipeline - BioPharma Dive - August 27th, 2022
- Whole-exome analysis of 177 pediatric patients with undiagnosed diseases | Scientific Reports - Nature.com - August 27th, 2022
- First Gene Therapy for Adults with Severe Hemophilia A, BioMarin's ROCTAVIAN (valoctocogene roxaparvovec), Approved by European Commission (EC) -... - August 27th, 2022
- Arbor Biotechnologies Enters into Agreement with Acuitas Therapeutics for Lipid Nanoparticle Delivery System for Use in Rare Liver Diseases - BioSpace - August 27th, 2022
- ElevateBio Partners with the California Institute for Regenerative Medicine to Accelerate the Development of Regenerative Medicines - Business Wire - August 27th, 2022
- ElevateBio and the University of Pittsburgh Announce Creation of Pitt BioForge BioManufacturing Center at Hazelwood Green to Accelerate Cell and Gene... - August 27th, 2022
- Genetic variants cause different reactions to psychedelic therapy - The Well : The Well - The Well - August 27th, 2022
- Personalized Medicine for Prostate Cancer: What It Is and How It Works - Healthline - August 27th, 2022
- Four radical new fertility treatments just a few years away from clinics - The Guardian - August 27th, 2022
- Why are Rats Used in Medical Research? - MedicalResearch.com - August 27th, 2022
- The Columns Stepping Stones in STEM Washington and Lee University - The Columns - August 27th, 2022
- Study points to new approach to clearing toxic waste from brain Washington University School of Medicine in St. Louis - Washington University School... - August 27th, 2022
- ALS Gene Therapy SynCav1 Found to Extend Survival in Mouse Model |... - ALS News Today - August 27th, 2022
- A New Kind of Chemo | The UCSB Current - The UCSB Current - August 27th, 2022
- Unraveling the mystery of who gets lung cancer and why - Genetic Literacy Project - June 16th, 2022
- How diet and the microbiome affect colorectal cancer - EurekAlert - June 16th, 2022
- Akouos Presents Nonclinical Data Supporting the Planned Clinical Development of AK-OTOF and Strategies for Regulated Gene Expression in the Inner Ear... - May 20th, 2022
- Money on the Move: SwanBio, Remix, Locus, Mirvie and More - BioSpace - May 20th, 2022
- DiNAQOR Opens DiNAMIQS Subsidiary to Partner with Gene Therapy Companies Bringing New Treatments to Patients - PR Newswire - May 20th, 2022
- Brain tumor growth may be halted with breast cancer drug - Medical News Today - May 20th, 2022
- LogicBio Therapeutics to Present at HC Wainwright Global Investment Conference - PR Newswire - May 20th, 2022
- Genascence Announces Data From Phase 1 Clinical Trial on GNSC-001, Company's Lead Program in Osteoarthritis, Presented at American Society of Gene... - May 20th, 2022
- Encoded Therapeutics Presents Nonclinical Data Showing Genomic Medicine Platform Yields Selective Expression to Optimize Gene Therapy Performance at... - May 20th, 2022
- California, Other States to Cover Rapid WGS of Newborns Under Medicaid, but Questions of Access Loom - GenomeWeb - May 20th, 2022
- Researchers Identify Role of 'Sonic the Hedgehog' Gene in Bone Repair - BioSpace - May 20th, 2022
- Targeting the Uneven Burden of Kidney Disease on Black Americans - The New York Times - May 20th, 2022
- ASC Therapeutics, U Mass Medical School, and the Clinic for Special Children Announce Podium Presentation of Safety and Efficacy in Murine and Bovine... - May 20th, 2022
- UC Davis Looks to Expand Genetic Breast Cancer Risk Education, Outreach for Hispanic Women - Precision Oncology News - May 20th, 2022
- Fly Researchers Find Another Layer to the Code of Life - Duke Today - May 20th, 2022
- Omicron BA.4 and BA.5: What to know about the new variants - Medical News Today - May 20th, 2022
- Krystal Biotech to Present Additional Data on B-VEC from the GEM-3 Phase 3 Study at the Society for Investigative Dermatology Annual Meeting -... - May 20th, 2022
- FDA approves Lilly's Mounjaro (tirzepatide) injection, the first and only GIP and GLP-1 receptor agonist for the treatment of adults with type 2... - May 20th, 2022
- Elucidating the developmental origin of life-sustaining adrenal glands | Penn Today - Penn Today - May 20th, 2022
- 5 questions facing gene therapy in 2022 - BioPharma Dive - January 17th, 2022
- In a First, Man Receives a Heart From a Genetically Altered Pig - The New York Times - January 17th, 2022
- Antibodies, Easy Single-Cell, Genomics for All: Notes from the JP Morgan Healthcare Conference - Bio-IT World - January 17th, 2022
- Using genetics to conserve wildlife - Pursuit - January 17th, 2022
- Genetics of sudden unexplained death in children - National Institutes of Health - January 17th, 2022
- Amicus Therapeutics Reports Preliminary 2021 Revenue and Provides 2022 Strategic Outlook and Revenue Guidance - Yahoo Finance - January 17th, 2022
- Maze Therapeutics Announces $190 Million Financing to Support the Advancement of Nine Precision Medicine Programs and Compass Platform for Genetically... - January 17th, 2022
- How The mRNA Vaccines Were Made: Halting Progress and Happy Accidents - The New York Times - January 17th, 2022
- Press Registration Is Now Open for the 2022 ACMG Annual Clinical Genetics Meeting - PRNewswire - January 17th, 2022
- A Novel Mutation in the TRPM4 Gene | RRCC - Dove Medical Press - January 17th, 2022
- Biomarkers and Candidate Therapeutic Drugs in Heart Failure | IJGM - Dove Medical Press - January 17th, 2022
- Genetic counseling program helps patients take control of their health - Medical University of South Carolina - June 24th, 2021
- One-year-old baby in UAE receives imported genetic medicine to treat rare disease - Gulf News - June 24th, 2021
- Black and non-Hispanic White Women Found to Have No Differences in Genetic Risk for Breast Cancer - Cancer Network - June 24th, 2021
- What's in your genes | The Crusader Newspaper Group - The Chicago Cusader - June 24th, 2021
- Immusoft Announces Formation of Scientific Advisory Board - Business Wire - June 24th, 2021
- Arrowhead Presents Positive Interim Clinical Data on ARO-HSD Treatment in Patients with Suspected NASH at EASL International Liver Congress - Business... - June 24th, 2021
- Pacific Biosciences and Rady Children's Institute for Genomic Medicine Announce its First Research Collaboration for Whole - GlobeNewswire - June 24th, 2021
- Despite the challenges of COVID-19, Yale-PCCSM section members continued their work on scientific papers - Yale School of Medicine - June 24th, 2021
- Veritas Intercontinental: Genetics makes it possible to identify cardiovascular genetic risk and prevent cardiac accidents such as those that have... - June 24th, 2021
- New Research Uncovers How Cancers with Common Gene Mutation Develop Resistance to Targeted Drugs - Newswise - June 24th, 2021
- Celebrate the Third Annual Medical Genetics Awareness Week April 13-16, 2021 - PRNewswire - February 14th, 2021
- How will WNY fare in the race between vaccines and coronavirus variants? - Buffalo News - February 14th, 2021
- Myriad Genetics to Participate in Multiple Upcoming Health and Technology Conferences - GlobeNewswire - February 14th, 2021
- ASCO GU 2021: The Landscape of Genetic Alterations Using ctDNA-based Comprehensive Genomic Profiling in Pat... - UroToday - February 14th, 2021
- The Human Genome and the Making of a Skeptical Biologist - Scientific American - February 14th, 2021
- Breast Cancer Gene Mutations Found in 30% of All Women - Medscape - February 1st, 2021
- Mysterious untreatable fevers once devastated whole families. This doctor discovered what caused them - CNN - February 1st, 2021
- CCMB team identifies variants of genes that metabolise drugs - BusinessLine - February 1st, 2021
- NeuBase Therapeutics Announces Acquisition of Gene Modulating Technology from Vera Therapeutics - GlobeNewswire - February 1st, 2021
- Copy number variations linked to autism have diverse but overlapping effects - Spectrum - February 1st, 2021
- Genomes, Maps, And How They Affect You - IFLScience - February 1st, 2021
- SMART Study Finds 22q11.2 Microdeletion Prevalence Much Higher than Expected - PRNewswire - February 1st, 2021
- Are Phages Overlooked Mediators of Health and Disease? - The Scientist - February 1st, 2021
- When Your Chance for a Covid Shot Comes, Dont Worry About the Numbers - Kaiser Health News - February 1st, 2021
- Global CRISPR Gene Editing Market: Focus on Products, Applications, End Users, Country Data (16 Countries), and Competitive Landscape - Analysis and... - February 1st, 2021
- The First Targeted Therapy For Lung Cancer Patients With The KRAS Gene MutationExtraordinary Results With Sotorasib - SurvivorNet - February 1st, 2021
- Genetic Testing: MedlinePlus - January 29th, 2021
- 21 Common Genetic Disorders: Types, Symptoms, Causes ... - January 29th, 2021
- Genetic Counseling Online Course - School of Medicine ... - January 29th, 2021
- 4 New Life Sciences Licensing Deals and Investments to Watch - BioSpace - January 29th, 2021