RICHMOND, Calif. [Dec. 5, 2022] β BioAge Labs, Inc. (βBioAgeβ), a clinical-stage biotechnology company developing therapeutics that target the molecular causes of aging to extend healthy human lifespan, today announced positive results for an important new study. The study used Phase 1b clinical data for BGE-105, for a highly selective, potent, orally available small-molecule agonist in the apelin receptor APJ. BGE-105 treatment resulted in statistically significant prevention of muscle atrophy relative to placebo in healthy volunteers aged 65 or older after 10 days of strict bed rest.
Evaluating Muscle Atrophy in Older Volunteers at Bed Rest
Muscle atrophyβloss of muscle mass and strengthβis a universal feature of human aging that increases the risk of multiple morbidities, shortens lifespan, and diminishes the quality of life.
Hospitalization and periods of forced inactivity greatly accelerate this loss in older people.
βThe data from this Phase 1b study provide clinical validation of BioAgeβs AI-driven discovery platform and demonstrate the power of our unique human-first approach to identify medically relevant drug targets,β explains Kristen Fortney, Ph.D., CEO, and co-founder of BioAge Labs.
βOur analysis of BioAge Labs’ human aging cohorts revealed that the apelin pathway is a strong predictor of healthy longevity and muscle function, and now this has translated directly into our clinical finding that apelin pathway activation with BGE-105 improves muscle physiology in older adults.Todayβs announcement is a milestone in BioAge Labβs mission to create a pipeline of drugs that treat disease and extend healthy lifespan by targeting the mechanisms of aging.β – Kirsten Fortney
BioAge Lab study shows a positive association with longevity, mobility, and cognitive function
BioAgeβs analysis of proprietary human biobanks showed that apelin pathway activity, which declines with age, is positively associated with longevity, mobility, and cognitive function.
Apelin, the natural ligand of APJ, is secreted by skeletal muscle in response to exercise and regulates multiple aspects of muscle metabolism, growth, and repair. BGE-105 binds APJ and activates apelin signaling. In April 2021,
BioAge entered into an exclusive worldwide license agreement with Amgen, Inc. to develop and commercialize BGE-105 for all indications.
Photo by Marcus Aurelius from Pexels
Study design and results
The double-blind, placebo-controlled trial evaluated the safety and pharmacodynamics of BGE- 105. Twenty-one volunteers underwent 10 days of bed rest while receiving infusions of BGE-105 or placebo.
Volunteers on placebo (n=10) exhibited muscle atrophy, reflected by statistically significant
reductions in thigh circumference and ultrasound measurement of vastus lateralis muscle
dimensions (cross sectional area and thickness) and muscle quality (fatty degeneration).
Treatment with BGE-105 (n=11) significantly ameliorated muscle atrophy relative to placebo: Muscle dimensions: Volunteers receiving BGE-105 showed a 100% improvement in thigh circumference (p < 0.001) relative to placebo-treated volunteers, and ultrasound measurements showed a 58% improvement in vastus lateralis cross-sectional area (p < 0.05) and a 73% improvement in vastus lateralis thickness (p < 0.01).
Muscle quality
Ultrasound echo density measurements revealed that the Goutallier grade, an index that quantifies fatty degeneration in muscle, worsened in 8 of 10 volunteers on placebo vs. only 1 of 11 volunteers receiving BGE-105 (p < 0.005). Muscle protein synthesis
Proteomic analysis of muscle microbiopsy samples revealed that bed rest decreased production of muscle proteins, and this effect was significantly ameliorated by BGE-105 (p < 0.005).
The higher rate of muscle protein synthesis in the drug vs. placebo group provides a potential mechanistic basis for BGE-105βs protective effect on muscle dimensions. The drug was well tolerated in the study, consistent with prior phase 1 trials conducted by Amgen showing that oral or intravenous BGE-105 was safe and well-tolerated in 198 subjects.
βOlder men and women lose substantial muscle mass during periods of immobilization and bed rest, often with devastating consequences,β said William Evans, PhD, Adjunct Professor at UC- Berkeley and Duke University. “Based on the promising data from this Phase 1b study, BGE-105 should be investigated for the treatment of a wide range of age-related syndromes driven by loss of muscle, including acute myopathies in hospitalized patients as well as chronic medical conditions that are common among millions of older people but lack effective therapies, representing an enormous unmet clinical need.β
BioAge plans for advancement to Phase 2
BioAge Labs plans to proceed with a Phase 2 trial of BGE-105 to prevent adverse outcomes in older patients under mechanical ventilation in the intensive care unit (ICU). The study will assess the ability of BGE-105 to prevent two conditions: ICU diaphragmatic atrophy and critical illness myopathy, a broad weakening of the muscles due to disuse under prolonged bed rest. These conditions, which affect millions of patients every year, are both associated with poor clinical outcomes and substantially increased mortality. No effective treatment is currently available, representing a high unmet medical need.
The Phase 2 trial is anticipated to begin in 2023.
The company will also continue to develop drugs for chronic conditions related to muscle aging.
About BioAge Labs, Inc.
BioAge Labs is a clinical–stage biotechnology company developing a pipeline of therapies to extend healthy lifespan by targeting the molecular causes of aging. BioAge uses its discovery platform, which combines quantitative analysis of proprietary longitudinal human samples with detailed health records, to map the key molecular pathways that impact healthy human aging.
By targeting the mechanisms of aging with a large, mechanistically diverse portfolio of drugs, BioAge is unlocking opportunities to treat or prevent age–related disease in entirely new ways. BioAge has multiple programs targeting muscle, immune, and brain aging, including the clinical–stage apelin receptor agonist BGE–105 and a differentiated CNS–penetrant NLRP3 inhibitor.
Investors include Andreessen Horowitz, Kaiser Foundation Hospitals, Caffeinated Capital, Khosla Ventures, and others
