K. A. Dora

Serotonin-mediated acute insulin resistance in the perfused rat hindlimb but not in incubated muscle: A role for the vascular system

We have recently shown that the vasoconstrictor serotonin (5-HT) inhibits oxygen uptake in perfused hindlimb possibly due to vascular shunting. Thus in the present study the effect of 5-HT on insulin-mediated glucose uptake was assessed. Rat hindlimbs were perfused at constant flow with medium containing 8.3 mM glucose and a tracer amount of 2-deoxy-D-[1-3]glucose (2DG) with and without 10 microM 5-HT, 15 nM insulin and a combination of the two. 5-HT inhibited insulin-mediated stimulation of glucose uptake by 30.4% when added after insulin and 34.4% when added before insulin. In addition, 5-HT inhibited insulin-mediated 2DG uptake by perfused muscles with inhibition ranging from 32% (soleus) to 80% (extensor digitorum longus). The effects of 5-HT on insulin-mediated glucose uptake were partially reversed by vasodilation with carbachol. In contrast to the results for the hindlimb, 10 microM 5-HT had no significant effect on either basal glucose uptake or the stimulation of glucose uptake mediated by 15 nM insulin by isolated incubated soleus or extensor digitorum longus muscles. It is concluded that 5-HT impairs insulin-mediated glucose uptake in the perfused rat hindlimb that may derive from vascular shunting not apparent when muscles are incubated with 5-HT in vitro. These findings may have implications for the link between hypertension and diabetes.

Resiniferatoxin and piperine: Capsaicin-like stimulators of oxygen uptake in the perfused rat hindlimb

The naturally occurring capsaicin-like molecules, resiniferatoxin (RTX, Euphorbia spp.) and piperine (Piper nigrum), each stimulated oxygen uptake (VO2) in association with increased vascular resistance in a concentration-dependent manner when infused into the perfused rat hindlimb. 5 microM glyceryl trinitrate (GTN, a nitrovasodilator) significantly blocked the oxygen and pressure responses to both RTX and piperine, indicating a close relationship between changes in VO2 and the vasoconstriction. Concentrations greater than those required for maximal VO2 resulted in an inhibition of VO2, although perfusion pressure continued to increase. Time course studies showed that both RTX and piperine at high doses resulted in a tri-phasic response. An initial phase of transient VO2 stimulation was followed by a second phase of inhibition. A third phase involving an often larger but transient stimulation of VO2 followed removal of the agents and continued after the pressure returned to basal. The actions of RTX and piperine were similar to those of other active capsaicin-like molecules tested previously in this system, including capsaicinoids (Capsicum spp.), gingerols (Zingiber officinale), and shogoals (Zingiber officinale). RTX was the most potent, and piperine the least potent of this series. Although receptor involvement has yet to be unequivocally established, the data are consistent with the presence of a functional capsaicin-like (vanilloid) receptor in the vasculature of the rat hindlimb that mediates vasoconstriction and oxygen uptake. These findings may have implications for the future development of thermogenic agents.

The apparent absence of serotonin-mediated vascular thermogenesis in perfused rat hindlimb may result from vascular shunting

Vasoconstriction by norepinephrine, angiotensin II and vasopressin in the constant-flow perfused rat hindlimb is associated with increased oxygen uptake and has given rise to the concept of vascular thermogenesis. In the present study serotonin (5-hydroxytryptamine, 5HT) was found to inhibit oxygen uptake by up to 40% in a dose dependent manner whilst inducing vasoconstriction in this model, whereas norepinephrine increased oxygen consumption by up to 100% during vasoconstriction. This contrasted with the perfused isolated rat mesenteric artery arcade in which serotonin stimulated oxygen uptake by up to 130% in association with vasoconstriction in a dose dependent manner similar to the previously described norepinephrine induced vascular thermogenesis in this arterial preparation. In both perfusion systems, changes in pressure and oxygen uptake mediated by serotonin were completely blocked by ketanserin. These results and evidence from dye washout studies suggest that serotonin-mediated vascular thermogenesis, if it occurs in the constant-flow hindlimb, is masked by vascular shunting.

Functional and metabolic evidence for two different vanilloid (VN1 and VN2) receptors in perfused rat hindlimb

Vanilloid spice principles, including capsaicin, stimulate vasoconstriction in the rat hindlimb perfused at constant flow and, depending on dose, either stimulate or inhibit oxygen consumption by this vascular bed. We now present metabolic and functional evidence for two different vanilloid (VN1 and VN2) receptor types. These receptors can be distinguished on the basis of their differing agonist affinity for capsaicin, their different calcium and oxygen dependencies for inducing vasoconstriction, and whether they stimulate, or inhibit, oxygen consumption. The higher affinity vanilloid receptor, VN1 can be distinguished on the basis of initiating vasoconstriction at low doses of capsaicin and simultaneously stimulating oxygen consumption. Its apparent biological function is dependent on the presence of oxygen and external calcium. In contrast, the lower affinity receptor, VN2 induces vasoconstriction associated with inhibition of oxygen consumption. Its vasoconstriction action can occur independently of either external calcium ions, or the presence of oxygen in the perfusate.

Resting Muscle: A Source of Thermogenesis Controlled by Vasomodulators

Perfused, but neither incubated nor perifused, hindlimb muscle responds to a variety of vasomodulators, including noradrenaline, by rapidly altering the rate of oxygen consumption and metabolite release. The vascular tissue of muscle is identified as highly energetic and may be the major contributor to hindlimb thermogenesis. In addition, vasomodulators may control the delivery of nutrients to specialized skeletal muscle mitochondria by altering the microvascular distribution of flow. We propose that resting skeletal muscle contributes to whole body thermogenesis of endotherms and that it is controlled by total, as well as zonal (within muscle), nutrient delivery.

A close association between vasoconstrictor-mediated uracil and lactate release by the perfused rat hindlimb

1. Angiotensin II (5 nM) increased perfusion pressure, O2 uptake and the release of lactate, uracil and uric acid from the perfused rat hindlimb. The release of all three substances was greatest 5 min after commencement of angiotensin II infusion and then decreased over the next 20 min to reach a plateau value that was approx. 2.5-fold basal values. Following removal of angiotensin, pressure, O2 uptake as well as lactate, uracil and uric acid release each returned to pre-infusion (basal) values. 2. Cyanide (1 mM) when added during angiotensin II (5 nM) infusion blocked the pressor effect and completely inhibited all O2 uptake. Cyanide (1 mM) also inhibited the angiotensin-induced increase in uric acid, uracil and lactate release, but the effects differed. Whereas uric acid release remained inhibited throughout the cyanide infusion, uracil and lactate release were only temporarily interrupted and a secondary release of both ensued. 3. Nitroprusside (0.5 mM) when added during angiotensin II (5 nM) infusion blocked pressure and O2 uptake. Lactate and uracil release were partly blocked and returned to pre-infusion (basal) values. However uric acid release was totally blocked and no release occurred when nitroprusside was present with angiotensin II. 4. Combined data showed a significant correlation (r = 0.831; P less than 0.001) between effluent lactate and effluent uracil. 5. It is concluded that lactate and uracil release which increase markedly during vasoconstriction of the hindlimb reflect an association between glycolysis and uracil nucleotide turnover within the same tissue, possibly vascular smooth muscle.

Vasoconstrictor-mediated release of purines and pyrimidines from perfused rat hindlimb, perfused mesenteric arcade and incubated de-endothelialized aorta

1. Reperfusion of hindlimbs that had previously been exposed to either 10 or 60 min global ischaemia resulted in transient washouts of uracil and uric acid in approximate proportion to the interval of ischaemia. However, changing the interval of sequential angiotensin II infusions from 10 to 60 min did not affect the magnitude of sustained uracil and uric acid release. 2. Perfused rat mesenteric artery arcade released uracil and uric acid and each was further increased approximately 2-fold by exposure to the vasoconstrictor, serotonin (6.7 microM). 3. Incubated de-endothelialized rat aorta also released purines and pyrimidines and this was increased further when subjected to increased work loads. 4. The increased rates of release of purines and pyrimidines from hindlimb, and the simpler vascular preparations of mesenteric arcade and aorta, were in proportion to the relative rates of increase in oxygen consumption under maximum vascular load. 5. It is concluded that the release of purine and pyrimidine nucleosides and their catabolites from perfused rat hindlimb occurring as a consequence of vasoconstriction is not the result of release from previously ischaemic tissue. In addition, release of purines and pyrimidines appears to be a general feature of vascular smooth muscle subjected to high workloads.