Circulating Biomarkers of Testosterone's Anabolic Effects on Fat-Free Mass.

Biomarkers that predict response to anabolic therapies could expedite the development of function-promoting anabolic drugs. This study aimed to identify serum biomarkers that are responsive to testosterone administration and associated with increases in fat-free mass (FFM). Serum samples were obtained from the 5α-Reductase Trial, a randomized trial that compared the effects of graded doses of testosterone enanthate for 20 weeks in healthy men randomized with placebo or dutasteride (dual SRD5A inhibitor). Testosterone's effects on FFM or strength measures did not differ between placebo vs dutasteride groups. Accordingly, 54 subjects treated with testosterone plus placebo were included in the discovery cohort, and 48 subjects randomized to dutasteride were included in the validation cohort. A total of 1162 biomarkers were evaluated using prespecified criteria. In the discovery cohort, testosterone administration increased propeptide of type III collagen (PRO-C3) and propeptide of type VI collagen (PRO-C6) levels in a dose- and concentration-dependent manner; increases in these biomarkers from baseline to week 12 were associated with changes in FFM from baseline to week 20 (PRO-C3: r2 = 0.437, P < 0.001; PRO-C6: r2 = 0.434, P < 0.001). Changes in PRO-C3 and PRO-C6 levels were significantly associated with changes in chest press strength (PRO-C3: r2 = 0.394, P < 0.001; PRO-C6: r2 = 0.530, P < 0.001). In the SOMAscan, changes in IGF binding protein-6 (IGFBP6) and glypican 3 (GPC3) were associated with changes in total and free testosterone levels and FFM. These findings were replicated in the Validation cohort. PRO-C3, PRO-C6, IGFBP6, and GPC3 fulfilled the prespecified criteria for biomarkers of testosterone-induced muscle anabolism. Changes in these biomarkers were associated with changes in total and free testosterone concentrations and with testosterone-induced gains in FFM.

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