Wl. Kenney et al., EFFECT OF SYSTEMIC YOHIMBINE ON THE CONTROL OF SKIN BLOOD-FLOW DURINGLOCAL HEATING AND DYNAMIC EXERCISE, The American journal of physiology, 266(2), 1994, pp. 80000371-80000376
We previously demonstrated that systemic alpha(1)-adrenergic blockade
(prazosin) does not alter control of nonacral human skin blood flow (S
kBF) during prolonged exercise. The purpose of this investigation was
to examine the effects of systemic alpha(2)-adrenergic blockade on, an
d thus the potential contribution of alpha(2)-adrenergic vasoconstrict
ion (VC) to, control of SkBF during graded local heating and dynamic l
eg exercise. Five healthy men (aged 24-30 yr) were tested after 36 h o
f oral yohimbine (Y; a selective alpha(2)-antagonist) treatment, or no
drug [control (C)]. The dosage of Y used caused sympathetic activatio
n, as demonstrated by significant increases in resting heart rate (Del
ta = 13 beats/min; P < 0.05) and mean arterial pressure (MAP, Delta =
11 mmHg; P < 0.05). Laser Doppler flowmetry was utilized to monitor ch
anges in forearm cutaneous vascular conductance (CVC) during graded lo
cal heating of the forearm. During stepwise local heating of the forea
rm at sustained (20 min) local temperatures (T-local) of 34-42 degrees
C, the CVC-T-local, response curve was shifted leftward by Y [half-ma
ximum effective dose = 39.6 +/- 0.2 vs. 40.8 +/- 0.2 degrees C; P < 0.
05). On a different day, the subjects performed 45 min of semi-upright
dynamic leg exercise (at 48 +/- 1% maximal oxygen consumption) in a w
arm (36 degrees C) environment during which forearm blood flow (FBF; v
enous occlusion plethysmography) was measured and forearm vascular con
ductance (FVC; FBF/MAP) was calculated. From the initiation of exercis
e, FVC increased with a constant steep slope with Y [Delta FVC/initial
0.3 degrees C change in esophageal temperature (Delta T-es) = 7.2 +/-
1.8 U) but showed a slower initial rate of increase over the first fe
w minutes in the control tests (3.4 +/- 0.6 U; P < 0.05), resulting in
a more sigmoidal-shaped curve. There were no further drug effects on
FVC after this initial phase as core (esophageal) temperature (T-es) i
ncreased further and FVC rose rapidly in both conditions. Likewise, th
ere was no drug effect on the attenuated rise in FVC at higher T-es le
vels. These results suggest that local warming reduces, but does not a
bolish, alpha(2)-adrenergic vasoconstriction (VC) and that alpha(2)-re
ceptors mediate the relative VC of forearm skin during the sympathetic
activation accompanying the first few minutes of exercise. However, t
his VC is overridden by active vasodilation as T-es increases further.
These results also confirm the idea that the functional limit to incr
easing SkBF during prolonged exercise is due to an alteration in activ
e vasodilation rather than an imposition of adrenergic VC or increased
vasoconstrictor activity.