Cardiac norepinephrine turnover and metabolism were examined in rats 8 weeks after the induction of chronic diabetes by an intravenous injection of streptozotocin (65 mg/kg). Cardiac norepinephrine concentration, norepinephrine turnover, and norepinephrine uptake were markedly increased in chronic diabetes in comparison with control values; these changes were reversible by 28-day insulin therapy. When the animals were exposed to cold for 6 hours, norepinephrine turnover rate constant increased in control and decreased in diabetic animals; cold exposure also increased norepinephrine concentration in diabetic hearts. Both cardiac norepinephrine concentration and turnover rate in diabetic rats were restored toward control values by ganglionic blockade with pentolinium. The conversion of [3H]tyrosine to [3H]catecholamine was enhanced and tyrosine hydroxylase as well as dopa decarboxylase activities were increased in diabetic hearts. The higher concentrations of [3H]normetanephrine and deaminated catechols indicated a faster metabolic rate of norepinephrine metabolism in hearts from diabetic rats; both monoamine oxidase and catechol-O-methyltransferase activities were also increased. The increased activities of the enzymes for the synthesis and metabolism of norepinephrine were not evident on treating the diabetic animals with insulin. These data not only support the view that chronic diabetes in rats is associated with increased sympathetic activity but also indicate that the cardiac norepinephrine concentration in diabetic rats may be maintained at a higher than normal level by an increased synthesis and uptake of norepinephrine in the adrenergic nerve terminals.
The ability of hearts to store, distribute, and release norepinephrine (NE) was investigated in rats 8 wk after the induction of diabetes by an injection of streptozotocin (65 mg/kg iv). Chronic diabetes was associated with increased content and concentration of NE in heart and in other tissues such as kidney, brain, and spleen. Reserpine or tyramine treatment resulted in depletion of endogenous cardiac NE in control and diabetic rats. The depletion of NE stores at different times after a dose of reserpine was greater in diabetic hearts. On the other hand, NE stores in diabetic hearts were less sensitive than control hearts to low doses of tyramine but were more sensitive to high doses. The uptake of [3H]NE was greater in diabetic hearts in isolated perfused preparations. In comparison with the control values, diabetic hearts showed a decrease in [3H]NE in the granular fraction and an increase in the supernatant fraction. Diabetic hearts also showed an accelerated spontaneous release of [3H]NE. The increased cardiac NE and the uptake and release of NE in diabetic animals were reversible upon treatment with insulin. These results are consistent with the view that sympathetic activity is increased in diabetic cardiomyopathy and indicate that cardiac NE in diabetic rats is maintained at a higher level partly due to an increased uptake of released NE by adrenergic nerve terminals.
Hemodynamic relationships between flows, pressures, and blood volume have been examined in the denervated liver of cats anesthetized with pentobarbital. Portal and hepatic lobar venous pressures, portal and total hepatic flows, and hepatic blood volume were recorded when portal flow was varied from 0 to 240 ml X min-1 X 100 g liver-1 and when hepatic outflow pressure was varied from 0 to 9.5 mmHg, before, during, and after intravenous infusion of norepinephrine (2 micrograms X min-1 X kg body wt-1). Portal pressure was 1-2 mmHg higher than lobar venous pressure and 8-9 mmHg higher than inferior vena caval pressure, showing that the major site of resistance in the portal circuit was in the large hepatic veins. Intrahepatic pressure was linearly related to total hepatic flow, and norepinephrine increased the intercept but not the slope of this relationship. Hepatic blood volume was linearly related to intrahepatic pressure with a calculated compliance of 2.5-3.0 ml X mmHg-1 X 100 g liver-1 and a calculated unstressed volume at zero pressure of 10-15 ml/100 g liver. Norepinephrine did not significantly change vascular compliance but caused a marked reduction of 15-20 ml/100 g liver in calculated unstressed volume. Thus norepinephrine reduced hepatic blood volume by 15-20 ml/100 g liver at any given intrahepatic pressure. It is concluded that venoconstriction in the hepatic bed occurs by a decrease in unstressed volume with little change in compliance. Unstressed volume represents a true blood volume reserve, independent of passive influences, which can be mobilized by the central nervous system.
Contractions of isolated strips of cat spleen due to 5-hydroxytryptamine, adrenaline, histamine and acetylcholine were antagonized by phenoxybenzamine. Responses to both 5-hydroxytryptamine and adrenaline were not blocked in strips which were protected by a high concentration of either 5-hydroxytryptamine or adrenaline throughout exposure to phenoxybenzamine. The contraction due to a large dose of 5-hydroxytryptamine lasted less than 1 hr even when the drug was still present. Strips thus desensitized to 5-hydroxytryptamine responded normally to acetylcholine and histamine but did not respond to adrenaline. The actions of 5-hydroxytryptamine and adrenaline were blocked by 2-bromolysergic acid diethylamide or by dihydroergotamine. These results indicated that 5-hydroxytryptamine and adrenaline act on the same receptors. Cocaine potentiated the action of adrenaline but inhibited the action of 5-hydroxytryptamine. The sensitivity to 5-hydroxytryptamine of spleen strips from cats treated 24 hr earlier with reserpine was only one-fiftieth of that of normal strips. Cocaine potentiated the action of 5-hydroxytryptamine on strips from reserpine-treated cats. A high concentration of 5-hydroxytryptamine in spleen strips from reserpine-treated cats and in cocaine-treated strips prevented phenoxybenzamine from blocking the actions of adrenaline. The effects of tyramine on spleen strips almost exactly paralleled the effects of 5-hydroxytryptamine. Strips showing tachyphylaxis to tyramine did not respond to 5-hydroxytryptamine. It is concluded that 5-hydroxytryptamine has a dual action, viz., a major action due to release of stored noradrenaline and a minor direct action of adrenaline receptors.
The effects of lowering the bath temperature on the responses of the isolated guinea‐pig ileum
In an analysis of inhibitors of the peristaltic reflex of the isolated guinea-pig ileum, Kosterlitz & Robinson (1957) showed that gradual cooling of the preparation affected first the emptying and then the preparatory phase. Coordinated contractions of the circular muscle ceased at about 210 C, while at 160 C the contractions of the longitudinal muscle were reduced to less than half the control values. The present paper examines the effects of lowering the temperature of the organ bath on the action of various substances causing a contraction of the longitudinal muscle layer either directly or through the medium of nervous structures. A preliminary account of some of these findings has already been given (Kosterlitz & Robinson, 1956). METHODSWhen the reflex contraction of the longitudinal muscle layer was compared with the contraction caused by drugs, Trendelenburg's method (1917) was used or, for isometric recording, the method described in an earlier paper (Kosterlitz, Pirie & Robinson, 1956). As the temperature sensitivity of the condenser myograph used in the latter technique made a recording immediately after altering the bath temperature impossible, a mechano-electrical transducer (RCA 5734) was substituted in the later experiments. The anode pin was extended by a Perspex rod of 1-2 mm diameter and about 10 mm length. The preparation was attached by a silver chain fixed to the Perspex rod at a suitable distance from the metal diaphragm carrying the anode. The changes in anode impedance were measured by making the transducer the variable component of a balanced d.c. bridge (Ranney, 1954), the output of which was fed into the d.c. amplifier of a pen oscillograph.The bath fluid was Tyrode solution with a low MgCl2 content (0.01 g/l.), aerated with 02. There were intervals of 3 or 4 min between the individual experimental procedures such as eliciting the reflex or the addition of drugs to the bath fluid, which usually measured 40 ml. and was renewed at least every 6 mi.The distal end of guinea-pig ileum was used after discarding a length of 10 cm nearest to the ileo-caecal valve. When it was desired to inactivate the cholinoceptive synapses of the myenteric plexus, hexamethonium iodide (25-30 mg/l.) was added to the bath fluid or, particularly for testing the nicotine responses, ileum was used which had been stored at 40 C for 24-72 hr (Ambache, 1946). In all experiments, the ileum was set up with an initial tension of 1 g.
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