Hyperglycemia (HG) is a well-established risk factor for secondary osteoporosis, primarily due to suppressed osteoblast activity. While gut microbiota (GM) dysbiosis has been implicated in various diseases, its role in HG-induced osteoporosis remains poorly understood. Here, we demonstrate that HG mice develop low-turnover osteoporosis accompanied by reduced GM diversity. Fecal microbiota transplantation (FMT) from HG mice (GMHG-FMT) induced osteoporosis in recipient mice, independent of blood glucose levels. A depletion of Bifidobacterium pseudolongum was associated with bone loss, whereas supplementation with either microbiota of normoglycemic mice or B. pseudolongum alleviated osteoporosis in HG mice. Both HG and GMHG-FMT recipient mice exhibited elevated serum interleukin-17A (IL-17A) levels, and anti–IL-17A antibody treatment mitigated osteoporosis in the GMHG-FMT model. Furthermore, decanoic acid levels were elevated in the feces of HG mice and the serum of GMHG-FMT recipients. Decanoic acid promoted the differentiation of naive CD4+ T cells into T helper17 cells, leading to increased IL-17A production. These findings reveal a microbiome dysbiosis-driven decanoic acid/IL-17A axis in HG-induced osteoporosis and highlight the therapeutic potential of microbiome-associated targets.
- This study investigated the role of gut microbiota dysbiosis in hyperglycemia-induced osteoporosis, a condition with unclear mechanisms.
- We explored whether gut microbiota dysbiosis drives bone loss in hyperglycemia and identified key microbial and molecular pathways.
- Hyperglycemic mice showed disturbed gut microbiota symbiosis, decreased Bifidobacterium pseudolongum, and elevated decanoic acid, which promoted T helper 17 differentiation and interleukin-17A (IL-17A) production, leading to osteoporosis.
- Fecal microbiota transplantation from control mice, B. pseudolongum supplementation, and IL-17A blockade alleviated bone loss, highlighting both B. pseudolongum supplementation and IL-17A inhibition as potential therapeutic strategies for hyperglycemia-induced osteoporosis.
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