Objectives: To examine the effects of testosterone (TST) loss on skeletal m
uscle contractile function and the potential interactive effects of TST los
s and physical inactivity.
Design: Randomized control trial. Animals: Forty-eight male rats (age, 6mo)
were placed into control (Con) or gonadectomized (Orx) groups.
Intervention: Two weeks after Orx or sham surgery, half the Con and On; rat
s were hind-limb unloaded (HLU) to reduce muscle activity for 2 weeks. Subs
equently, in situ contractile function tests were performed on the soleus (
SOL), plantaris (PLAN), peroneus longus (PER), and extensor digitorum longu
s (EDL). These 4 muscles and gastrocnemius (GAST) then were removed( weighe
d, sectioned, and stained with adenosine triphosphatase for fiber typing an
d fiber area measures.
Main Outcome Measures: Peak tetanic tension (P-o), time to peak twitch cont
raction (TPT), half relaxation time (RT1/2), muscle mass, fiber area, and s
pecific tension (ratio of P-o/muscle mass).
Results: Body weight and muscle mass were similar in the Con and Orx groups
. The ratio of P-o to muscle mass was significantly (p <.05) reduced with O
rx in SOL (20%), PLAN (18%), PER (28%), and EDL (20%). TPT and RT1/2 were s
ignificantly faster after Or. in PLAN, PER, and EDL. HLU significantly redu
ced muscle mass in SOL, PLAN, and CAST in Orx and intact groups. HLU also c
aused a significant decline in SOL and PLAN P-o. The loss in P-o in the Orx
-HLU rats was no greater than the decline in P-o with HLU alone.
Conclusions: Gonadectomy results in a loss of P-o regardless of muscle fibe
r type or function, it is likely to speed up TPT and RT1/2, and it does not
exacerbate HLU-related atrophy and P-o loss. Findings may have implication
s for men with reduced TST levels, as in aging, for instance.