Martel, W. A.; King, S. B.; Buchanan, E.; Merrill, B. M.; Stohn, J. P.; Brooks, D. J.; Barlow, D.; Motyl, K. J.; Mountain, R.

Social isolation is a known modifiable risk factor for many chronic diseases including cardiovascular, metabolic, and brain disorders. Recent research has demonstrated that social isolation is similarly detrimental to skeletal health, but these effects may be sexually dimorphic. In rodents, isolation negatively affects bone in adult male mice, but not in females. However, these sex differences have not been systematically investigated, and it is unknown if they persist with long-term social isolation. The goal of our study was to investigate if isolation-induced bone loss may occur on different timescales between female and male mice, as well as investigate the potential roles of estrogen and testosterone. We examined bone changes in grouped (4 mice/cage) or isolated (1 mouse/cage) female and male 16-week-old C57BL/6J mice after 2, 4, or 8 weeks of treatment. We found that social isolation through single housing significantly reduced bone parameters across treatment lengths in male mice (20% reduction in Tb.BV/TV; 8% reduction in Ct.Th.) but not in females even with prolonged isolation. Isolation also decreased biomechanical properties in the femur of male but not female mice. While the females' overall bone phenotype was unaffected, isolated females did show an increase in bone turnover markers with as little as 2 weeks of isolation. Isolation also altered estrogen-related gene expression in male mice isolated for 4 or 8 weeks. Overall, our results demonstrate that short- and long-term social isolation has sexually dimorphic effects on murine bone. These findings have important clinical implications for individuals at risk for social isolation, as well as for pre-clinical rodent models utilizing single housing.