Abstract
Postmenopausal osteoporosis (PMOP) has a high incidence in middle-aged and elderly women, leading to an increased risk of fractures and elevated rates of disability and mortality. In this work, we identified the reduction of indole-3-propionic acid (IPA) as a potential key factor contributing to the decline in bone mass observed in postmenopausal women. Mechanistically, IPA activates AhR, leading to the stabilization of key proteins in Wnt and NF-κB pathways that regulate bone formation and resorption. We evaluated efficacy in vivo using eight-week-old female C57BL/6 mice subjected to bilateral ovariectomy (OVX), with treatments initiated one week postsurgery, and performed complementary in vitro assays. Intraperitoneal IPA (20 mg/kg, 3× per week for 8 weeks) increased the trabecular bone mineral density (Tb.BMD) by ~68% versus OVX controls, whereas engineered Clostridium sporogenes that enhances IPA biosynthesis led to an even greater increase of ~118%. Together, these findings highlight the gut-bone axis as a central framework linking microbiota-derived IPA to skeletal remodeling and provide preclinical proof-of-concept for an engineered C. sporogenes-IPA strategy with therapeutic potential in PMOP.