Nutrient ingestion increased mTOR signaling, but not hVps34 activity in human skeletal muscle after sprint exercise.
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Rundqvist HC, Lilja MR, Rooyackers O, Odrzywol K, Murray JT, Esbjörnsson M, Jansson E., Nutrient ingestion increased mTOR signaling, but not hVps34 activity in human skeletal muscle after sprint exercise., Physiological Reports, 1, 5, 2013, e00076
Abstract
Nutrient provision after sprint exercise enhances mammalian target of rapa-
mycin (mTOR) signaling. One suggested that nutrient sensor is the class III
phosphatidylinositol 3-kinase, vacuolar protein sorting 34 (Vps34), not previ-
ously studied in human skeletal muscle. It is hypothesized that oral ingestion
of essential amino acids (EAA) and carbohydrates (Carb) increases Vps34
activity and mTOR signaling in human skeletal (hVps34) muscle after sprint
exercise. Nine subjects were performed 3
9
30-sec all-out sprints with or
without ingestion of EAA
+
Carb or placebo drinks in a randomized order
with a month interval. Muscle biopsies were performed at rest and 140 min
after last sprint and analyzed for p-mTOR, p-p70S6k, p-eEF2 and for hVps34
activity and hVps34 protein content. Venous blood samples were collected
and analyzed for amino acids, glucose, lactate, and insulin. During the sprint
exercise session, EAA, glucose, and insulin in blood increased significantly
more in EAA
+
Carb than in placebo. P-mTOR and p-p70S6k were signifi-
cantly increased above rest in EAA
+
Carb (
P
=
0.03,
P
=
0.007) 140 min
after last sprint, but not in placebo. Activity and protein expression of hVps34
were not significantly changed from rest in EAA
+
Carb 140 min after the last
sprint. However, hVps34 activity and protein expression tended to increase in
placebo (both
P
=
0.08). In conclusion, on the contrary to the hypothesis, no
increase in activation of hVps34 was found following sprint exercise in
EAA
+
Carb condition. In spite of this, the results support an activation of
mTOR during this condition. However, this does not exclude the permissive
role of hVps34 in mediating the amino acid-induced activation of mTOR and
muscle protein synthesis.
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Author's Homepage: http://people.tcd.ie/jmurray6
Type of material: Journal Article

