VYGR News & Events

Voyager Technologies and Exobiosphere announced a mission management contract on the International Space Station that marks a concrete step toward making automated biological research in microgravity commercially accessible to researchers, agencies, pharmaceutical and biotech partners. "Our mission management services exist to build a clear path for innovative ideas to become a reality in space," said Matt Magana, president of Space, Defense and National Security, Voyager. "Facilitating this access to the ISS is critical to improving life here on Earth, and irrespective of platform, we have a proven path to do that." Under the contract, Voyager Technologies Europe will serve as mission integrator for the Orbital High-Throughout Screener (OHTS), Exobiosphere's miniaturized platform aboard the ISS. Voyager will also provide project management support, including safety and verification to the NASA Safety Review standards, integration aboard the ISS and coordination of on-orbit operations for the installed OTHS payload.

Voyager Therapeutics presented three-month good laboratory practice, or GLP, toxicology data for VY1706, the Company's investigational tau silencing gene therapy for Alzheimer's disease, or AD, in a late-breaking presentation at the American Society of Gene & Cell Therapy's 2026 Annual Meeting in Boston, May 11-15. Data presented showed that VY1706 was well tolerated, with no adverse clinical pathology or histopathological findings up to the highest dose tested, and reduced tau protein up to 64% in key brain regions of non-human primates, or NHPs, at 13 weeks following a single IV dose. Voyager's FDA investigational new drug, or IND, application process for VY1706 is on track for Q2 2026 to support projected first-in-human dosing in AD patients in H2 2026. Intravenous delivery of VY1706, a CNS penetrant AAV gene therapy for Alzheimer's disease, demonstrates compelling pharmacology and safety in a 3-month GLP toxicology study in NHPs. VY1706 delivered a potent vectorized MAPT siRNA with broad central nervous system, or CNS, distribution via a single IV dose, using ALPL as its primary blood-brain barrier, or BBB, receptor. 3-month GLP toxicology data for VY1706 demonstrated a favorable tolerability profile with no adverse findings up to the highest dose tested. Treatment with VY1706 resulted in dose-dependent reductions of up to 51-75% MAPT mRNA and 48-64% tau protein in key brain regions at 13 weeks in NHPs. Data from Voyager's seven additional oral and poster presentations at ASGCT demonstrate continued capsid innovation via muscular and neuromuscular targeting, immune evasion, and manufacturability. Directed evolution of muscular and neuromuscular capsid variants in both mice and non-human primates. Voyager leveraged its TRACER platform to develop novel AAV9-based capsids with significantly increased muscle tropism over AAV9 in both mice and NHPs. In mice, the top muscle-targeted capsid achieved 100X increased expression over AAV9 in skeletal muscle and 10X increased expression in heart muscle. In NHPs, the top muscle-targeted capsid achieved 25-30X increased expression over AAV9 in skeletal muscle and 13X increased expression in heart muscle. Voyager generated neuromuscular capsids with features of both muscle and brain capsids, achieving comparable transduction levels to top muscle and brain capsids in NHPs while demonstrating significantly reduced liver exposure relative to AAV9. Intravenous delivery of a bi-functional AAV gene therapy to reduce endogenous ApoE4 and express ApoE2 in ApoE4 humanized mice. A novel BBB-penetrant capsid delivering a bi-functional payload significantly reduced endogenous ApoE4 while achieving expression of ApoE2 at physiological levels following single dose IV-delivery in murine studies. Engineering an AAV9-derived muscle-tropic capsid to evade pre-existing human neutralizing antibodies. A next-generation "stealth" capsid was able to evade pre-existing neutralizing antibodies while retaining muscle tropism, potentially increasing the number of patients eligible to receive muscle-targeted AAV gene therapies. Leveraging artificial intelligence to design AAV mutant capsids optimized for antibody evasion. Novel AAV capsid variants, generated using advanced AI models, showed improvements in antibody evasion, while maintaining favorable manufacturing and CNS-transduction properties. Exploiting an AAV capsid specific receptor to develop stable cell lines for transduction based assays for gene therapies. Cell lines overexpressing a receptor associated with Voyager's TRACER capsids overcome the challenge of lower transduction efficiency observed for engineered capsids in cell-based assays. Evaluating affinity chromatography media for capture of novel blood-brain-barrier penetrant AAV capsids. Optimized transfection platform with improved productivity and transgene packaging for scalable rAAV production.

Reports Q1 revenue $2.59M, consensus $8.79M. "As the 'Year of Tau' for Alzheimer's disease continues to unfold, Voyager looks forward to third-party data in mid-2026 that have the potential to confirm tau knockdown as the next critical approach to treating Alzheimer's disease. Then, in the second half of the year, we expect first-in-human dosing of our tau silencing gene therapy VY1706 and tau PET imaging efficacy data for our anti-tau antibody VY7523," said Alfred W. Sandrock, Jr., M.D., Ph.D., Chief Executive Officer of Voyager. "With our strong cash position of $172 million that is expected to provide runway into 2028, we continue to execute across our pipeline and platforms."