Gender-Specific Differences in Skeletal Muscle 11β-HSD1 Expression Across Healthy Aging

Zaki K. Hassan-Smith, Stuart A. Morgan, Mark Sherlock, Beverly Hughes, Angela E. Taylor, Gareth G. Lavery, Jeremy W. Tomlinson, Paul M. Stewart
2015 Journal of Clinical Endocrinology and Metabolism  
Context: Cushing's syndrome is characterized by marked changes in body composition (sarcopenia, obesity, and osteoporosis) that have similarities with those seen in aging. 11␤-hydroxysteroid dehydrogenase type 1 (11␤-HSD1) converts glucocorticoids to their active form (cortisone to cortisol in humans), resulting in local tissue amplification of effect. Objective: To evaluate 11␤-HSD1 expression and activity with age, specifically in muscle. To determine putative causes for increased activity
more » ... creased activity with age and its consequences upon phenotypic markers of adverse aging. Design: Cross-sectional observational study. Interventions: Day attendance at research facility for baseline observations, body composition analysis by dual-energy x-ray absorptiometry, jump-plate mechanography, grip strength analysis, baseline biochemical profiling, urine collection, and vastus lateralis muscle biopsy. Main Outcome Measure(s): Skeletal muscle gene expression, urine steroid profile, bivariate correlations between expression/activity and phenotypic/biochemical variables. Results: Skeletal muscle 11␤-HSD1 expression was increased 2.72-fold in women over 60 years of age compared to those aged 20 -40 years; no differences were observed in men. There was a significant positive correlation between skeletal muscle 11␤-HSD1 expression and age in women across the group (rho ϭ 0.40; P ϭ .009). No differences in expression of 11␤-HSD type 2, glucocorticoid receptor, or hexose-6-phosphate dehydrogenase between age groups were observed in either sex. Urinary steroid markers of 11␤-HSD1, 11␤-HSD type 2, or 5␣-reductase were similar between age groups. Skeletal muscle 11␤-HSD1 expression was associated with reduced grip strength in both sexes and correlated positively with percentage of body fat, homeostasis model of assessment for insulin resistance, total cholesterol, LH, and FSH and negatively with bone mineral content and IGF-1 in women. Conclusions: Skeletal muscle 11␤-HSD1 is up-regulated with age in women and is associated with reduced grip strength, insulin resistance, and an adverse body composition profile. Selective inhibition of 11␤-HSD1 may offer a novel strategy to prevent and/or reverse age-related sarcopenia.
doi:10.1210/jc.2015-1516 pmid:25989394 fatcat:p5rqfz6gj5gtnclsjjb7quox2e