The inotropic effect of endothelin-1 on rat atria involves hydrolysis of phosphatidylinositol

Endothelin-1 induces a positive inotropic response in isolated left atria of the rat with an IC50 value of 20 nM. The contractile effect of endothelin is larger than that of other inotropic hormones such as phenylephrine and epinephrine and smaller than that of Bay K8644. In the spontaneously active right atria, endothelin induces a positive inotropic effect with no chronotropic effect. Endothelin does not modify intracellular levels of cAMP under basal conditions or after stimulation with isoproterenol but stimulates the formation of inositol phosphates. Mobilization of inositol phospholipids is observed in the same range of concentrations as for the contractile action of endothelin. The contractile action of endothelin is not mediated by protein kinase C. It is antagonized by blockers of L-type Ca2+ channels, low external Ca2+ concentrations and drugs such as caffeine and ryanodine that interfere with Ca2+ release by the sarcoplasmic reticulum.     

The effect of chronic alloxan- and streptozotocin-induced diabetes on isolated rat heart performance

Cardiac disease is a common secondary complication appearing in chronic diabetics. Isolated perfused working hearts obtained from both acute and chronic diabetic rats have also been shown to exhibit cardiac functional abnormalities when exposed to high work loads. We studied cardiac performance at various time points after induction of diabetes in rats to determine exactly when functional alterations appeared and whether these alterations progressed with the disease state. Female Wistar rats were made diabetic by a single i.v. injection of either alloxan (65 mg/kg) or streptozotocin (STZ 60 mg/kg). Cardiac performance was assessed at 7, 30, 100, 180, 240, and 360 days after induction of diabetes using the isolated perfused working heart technique. No changes were observed in the positive and negative dP/dt development at various atrial filling pressures in the diabetic hearts 7 days after treatment. Alloxan diabetic rat hearts exhibited depressed left ventricular pressure and positive and negative dP/dt development when perfused at high atrial filling pressures, at 30, 100, and 240 days after treatment. STZ diabetic rat hearts exhibited depressed cardiac performance at high atrial filling pressures, at 100, 180, and 360 days after treatment, but not at 30 days after treatment. Control hearts exhibited slight but significant depressions in cardiac function with age. These results suggest that cardiac functional alterations appear in diabetic rats about 30 days after induction and progress with the disease. These alterations may indicate the development of a cardiomyopathy.     

Positive inotropic effect of ethylephrine on the isolated rat atria

Ethylephrine, a sympathomimetic amine which belongs to the phenolamine group, was assayed on the driven left rat atrium. The frequency response curve was performed for norepinephrine and ethylephrine. The maxima was attained for both compounds at 1 Hz. The agonist under study has an inotropic action less potent than the classical catecholamines. Propranolol (10(-8) and 10(-7) M) produced a parallel shift to the right in the log dose-response curves of ethylephrine with no decrease in the maximal response, indicating that the antagonism was competitive. In the presence of cocaine or with reserpine-pretreatment the sensitivity of the preparation to the amine did not vary. The alpha-blocker, phentolamine (10(-8) to 3.10(-5) M) did not possess an inotropic effect per se. In contrast, phentolamine, delivered to the bath beforehand, did not block the agonist. However at 10(-8) and 10(-7) M increase the maximal response both in normal and reserpinized preparations. It is suggested that ethylephrine is a direct inotropic preparation. It is suggested that ethylephrine is a direct inotropic agent on the driven left rat atrium and its effects are mediated by beta-receptors. The results also indicate the lack of evidence that ethylephrine has any action on the alpha-receptors.     

The effect of streptozotocin-induced diabetes on phenylalanine hydroxylase expression in rat liver.

The impact of experimentally induced diabetes on the expression of rat liver phenylalanine hydroxylase has been investigated. A significant elevation in maximal enzymic activity was observed in diabetes. This was associated with significant increases in the amount of enzyme, the phenylalanine hydroxylase-specific translational activity of hepatic RNA and the abundance of phenylalanine hydroxylase-specific mRNA. These changes in phenylalanine hydroxylase expression were not observed when diabetes was controlled by daily injections of insulin. These results are discussed in relation to the hormonal control of phenylalanine hydroxylase gene expression.     

The effects of 4-pentenoic and pentanoic acids on the isolated rat atria

The peak developed tension and the pacemaker frequency of the isolated atria from fed and fasted rats, declined progressively during the incubation in a glucose-free medium containing 2-deoxyglucose. The atria from fed rats exhibited a faster decline than those from fasted rats, which was associated to a slower triacylglycerol lipolysis. 4-Pentenoic acid inhibited the lipolysis of both groups of atria but did not alter the atrial contractile performance. However, it enhanced the decline of the pacemaker frequency in the atria from fasted rats whereas, in contrast, it alleviated the decline in the fed atria. n-Pentanoic acid ameliorated the impairment of the contractile and pacemaker activities in both groups of atria, without affecting the lipolysis. It was concluded that, since the inhibition of the intramyocardial lipolysis did not correlate with changes of the atrial functions, 4-pentenoic acid was not appropriate to assess about the contribution of endogenous triacylglycerol to the maintenance of the atrial contractile and pacemaker activities.     

Naloxone's effect on the inotropic and chronotropic responses of isolated, electrically stimulated or spontaneously beating rat atria

Experiments were conducted to determine (i) how naloxone administration alone could modify the inotropic (in electrically stimulated (ES) rat atria) and both the inotropic and chronotropic responses (in spontaneously beating (SB) rat atria) isolated from normotensive and hypotensive (hemorrhaged) rats, and (ii) how naloxone administration would modify the inotropic and chronotropic responses of isolated rat atria previously administered an opiate agonist (morphine), a muscarinic agonist (carbachol), or an alpha- and beta-adrenergic agonist (noradrenaline). Naloxone (51-340 microM) added to ES atria caused a delayed but dose-related decrease in atrial tension (AT), whereas in SB atria, naloxone caused atrial heart rate (AHR) to fall and atrial tension (AT) to increase. Naloxone (68-340 microM), given to SB atria from acutely hypotensive rats, caused a similar increase in atrial tension as seen in the "normotensive" isolated (SB) atria and a similar decrease in atrial heart rate. Morphine sulphate (MS), 37-375 microM, administered to ES atria caused a delayed fall in AT; which was further decreased when naloxone (340 microM) was also added. In the SB atria, morphine caused a dose-related decrease in atrial heart rate whereas atrial tension increased. In SB preparations, atrial heart rate fell even further when naloxone was added to morphine compared with when morphine sulphate was given alone, whereas atrial tension was increased. Noradrenaline (3 or 12 microM) caused a positive, dose-related inotropic response in the ES atria, effects not influenced by the addition of naloxone. In the SB atria, naloxone caused no change in the dose-related increases in atrial tension and heart rate when combined with the lower dose of noradrenaline but decreased AT when combined with 12 microM noradrenaline, compared with when this dose of noradrenaline was given alone. Carbachol (683 nM-1.37 microM) caused a dose-related decrease in atrial tension in ES atria, which was reversed completely by the addition of naloxone. In SB atria, carbachol decreased both atrial tension and heart rate, and with the addition of naloxone (340 microM), a further slight drop in atrial heart rate occurred, but concurrently, a marked rise in atrial tension was observed. The results indicate that naloxone can act with receptors directly within atrial tissue to cause changes in atrial tension and heart rate. The comparable delayed responses of morphine and naloxone suggest their effects are mediated by nonopiate receptors which, in time, cause decreases in calcium influx into the atria.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of chronic streptozotocin-induced diabetes on the cardiac responses to milrinone

We have studied the effects of milrinone on various cardiac preparations obtained from 6-week streptozotocin diabetic rats. The basal rate of spontaneously beating right atrium from diabetics was significantly lower as compared with controls. Milrinone (5 X 10(-5) to 8 X 10(-4) M) produced a dose-dependent positive inotropic and positive chronotropic effect in left atrium and right atrium, respectively. The positive chronotropic response to milrinone was slightly increased in right atria from diabetic animals. In papillary muscle neither the maximum response nor the pD2 value of milrinone was altered significantly in diabetic animals. The pD2 values of milrinone in right atrium and left atrium were found to be significantly higher in diabetic preparations compared with controls. The data indicate that the responses to milrinone are either unchanged or enhanced in hearts from diabetic animals.     

The effect of streptozotocin-induced diabetes on hepatic hexose transport

3-O-methyl-D-glucose (which is not metabolized in isolated parenchymal cells) was used to characterize the hexose transport process in hepatocytes prepared from 24 h fasted rats. The Vmax and Km obtained were 161 +/- 12 nmol/mg dry wt./min and 39 +/- 4 mM respectively (Europe-Finner GN, 1984, Biosci. Rep. 4, 483-489). Streptozotocin-induced diabetes decreased the Km of the system by 50% to a value of 19 +/- 6 mM without causing any change in the Vmax. Short term insulin treatment of cells prepared from 24 h diabetic rats appeared to partially return the system to normal.     

Chronotropic response to hyperosmotic solutions of isolated rat atria

The changes in spontaneous rate of isolated rat atria in response to increased extracellular osmotic pressure were examined using sucrose, urea and several polyhydroxyalcohols (mannitol, glycerol and ethylene glycol) as test solutes. Sucrose, mannitol and urea induced a fall in atrial rate, which was transient with the last compound. On the other hand, media made hyperosomotic by addition of glycerol or ethylene glycol increased the beating frequency. Sucrose effect was not affected by low extracellular calcium, nifedipine or atropine. Glycerol-induced increase in atrial rate was a calcium-dependent mechanism sensitive to nifedipine. Thus, positive chronotropic effect occurs in the rat atria only with certain diffusible solutes which probably promote calcium entry. The response to pure osmotic change, resulting from changes in concentration of ions within the cell as water moves out, is a negative chronotropic effect.     

The effect of streptozotocin-induced diabetes and of insulin supplementation on glycogen metabolism in rat liver.

The effects of streptozotocin-induced diabetes and of insulin supplementation to diabetic rats on glycogen-metabolizing enzymes in liver were determined. The results were compared with those from control animals. The activities of glycogenolytic enzymes, i.e. phosphorylase (both a and b), phosphorylase kinase and protein kinase (in the presence or in the absence of cyclic AMP), were significantly decreased in the diabetic animals. The enzyme activities were restored to control values by insulin therapy. Glycogen synthase (I-form) activity, similarly decreased in the diabetic animals, was also restored to control values after the administration of insulin. The increase in glycogen synthase(I-form) activity after insulin treatment was associated with a concomitant increase in phosphoprotein phosphatase activity. The increase in phosphatase activity was due to (i) a change in the activity of the enzyme itself and (ii) a decrease in a heat stable protein inhibitor of the phosphatase activity.     

Inotropic effect of PGE1 and PGE2 on isolated rat atria. Influence of adrenergic mechanisms

The effects of a wide range of PGE1 and PGE2 concentrations on the isometric developed tension of isolated rat atria beating spontaneously or paced at a fixed rate, were explored. PGE1 only produced a negative inotropic effect (NIE), whereas PGE2 elicited a biphasic inotropic action; negative at low concentrations and positive (PIE) at higher ones. Phenoxybenzamine and phentolamine failed to modify either the NIE or the PIE, but subthreshold exogenous norepinephrine abolished the NIE, suggesting a presynaptic inhibitory effect of PGEs on the adrenergic neurotransmitter release. Auricles pretreated with subthreshold norepinephrine react with a PIE to PGE1, but not to PGE2. On the contrary in the presence of subthreshold methoxamine the PIE of PGE2 was increased whereas the action of PGE1 was not modified.     

Effects of methylpalmoxirate on isolated rat atria.

The aim of the investigation was to assess whether endogenous triacylglycerol contributes to the maintenance of the contractile and pacemaker activities of the isolated atria from fed and fasted rats. To attain this information, the atria were treated with methylpalmoxirate which is a potent inhibitor of carnitine palmitoyltransferase I. In the presence of glucose, methylpalmoxirate abolished the lipolysis without affecting peak developed tension or the atrial rate. When exposed to a substrate-free medium containing 2-deoxyglucose, the atria displayed a progressive fall of the pacemaker frequency, a pronounced decay of contractile strength and the appearance of contracture. These derangements appeared faster in the atria from fed rats coinciding with a smaller triacylglycerol mobilization. Methylpalmoxirate suppressed triacylglycerol breakdown, increased the contracture strength, accelerated the fall of the atrial rate and in a significant number of fasted atria it led to a complete cessation of the spontaneous contractions. The decline of the peak tension was not altered by the inhibitor, probably because the contractile strength was too weak in the glucose-free medium, so that additional negative inotropic effects were not detectable. These data suggest that exogenous glucose in addition to that derived from glycogen meet the atrial energy requirements when the fatty acid oxidation is hindered. The deleterious effects exerted by methylpalmoxirate after the glucose metabolism was eliminated indicate that endogenous triacylglycerol supports, at least partly, the atrial functions.     

The effect of streptozotocin-induced diabetes on glycogen metabolism in rat kidney and its relationship to the liver system.

The effects in kidney of streptozotocin-induced diabetes and of insulin supplementation to diabetic animals on glycogen-metabolizing enzymes were determined. Kidney glycogen levels were approximately 30-fold higher in diabetic animals than in control or insulintreated diabetic animals. The activities of glycogenolytic enzymes i.e., phosphorylase (both a and b), phosphorylase kinase, and protein kinase were not significantly altered in the diabetic animals. Glycogen synthase (I form) activity decreased in the diabetic animals whereas total glycogen synthase (I + D) activity significantly increased in these animals. The activities were restored to control values after insulin therapy. Diabetic animals also showed a 3-fold increase in glucose 6-phosphate levels. These data suggest that higher accumulation of glycogen in kidneys of diabetic animals is due to increased amounts of total glycogen synthase and its activator glucose 6-phosphate.     

Protective effect of tetramethylpyrazine isolated from Ligusticum chuanxiong on nephropathy in rats with streptozotocin-induced diabetes

Purpose

This study was designed to investigate the protective effect of tetramethylpyrazine isolated from Ligusticum chuanxiong, a traditional Chinese medicine, on diabetic nephropathy in a rat model, and to explore the possible mechanism involved in a protective function.

Materials

Diabetes was induced in male Sprague-Dawley rats by a single intraperitoneal injection of 70 mg/kg of streptozotocin. One week later, 200 mg/kg/day of tetramethylpyrazine was administered intragastric gavage daily for 8 weeks. Renal functions and expression of vascular endothelial growth factor were examined at 4 and 8 weeks after tetramethylpyrazine administration.

Results

Blood glucose and renal function were significantly improved in the tetramethylpyrazine-treated group compared to the untreated diabetic rats. Diabetic nephropathy resulted in an increase in the expression of vascular endothelial growth factor, while tetramethylpyrazine administration greatly decreased the expression.

Conclusions

Our results suggest that administration of tetramethylpyrazine may reduce kidney damage caused by diabetes. This protective effect may be mediated, in part, by downregulated expression of vascular endothelial growth factor in the kidney.     

myo-Inositol metabolism in rat testis in response to streptozotocin-induced diabetes

The effects of streptozotocin-induced hyperglycemia on de novo myo-inositol biosynthesis in rat testis was examined. Testicular glucose and glucose 6-phosphate levels increased significantly 10 and 12 h after stretozotocin injection, respectively. However, testis myo-inositol content did not increase appreciably until 24 h following injection of the drug. Seventy-two hours after streptozotocin administration, testis myo-inositol levels were 2.7-fold higher in diabetic rats than in controls injected with citrate buffer. No changes were observed in the Specific activities of myo-inositol-1-phosphate synthase (EC 5.5.1.4) and 1-l-myo-inositol-1-phosphatase (EC 3.1.3.25). However, hyperglycemic rats displayed testicular glucose and glucose 6-phosphate levels approximately 4- and 2-fold in excess of control values, respectively. Insulin treatment of diabetic rats resulted in the lowering of plasma glucose, and testis glucose 6-phosphate to normal or below normal levels within hours. Inositol levels remained significantly elevated compared with control animals, although slightly lower than that observed for untreated diabetic rats. Streptozotocin diabetic rats had a significantly decreased testis cytosolic $\text{NAD}{}^{\mathrm{+}}\text{NADH}$ ratio compared with control animals 72 h after injection. The potential role of testis hexokinase distribution in the regulation of glucose 6-phosphate and myo-inositol biosynthesis in normal and diabetic rats was investigated. No significant differences in testis hexokinase distribution or in the kinetic characteristics of the soluble and particulate hexokinase activities were observed. Testicular sperm counts in streptozotocin diabetic rats were not significantly different from control values.     

The influence of chronic experimental diabetes on contractile responses of rat isolated blood vessels

The influence of experimental diabetes induced by streptozotocin on responses of rat isolated aortae and portal veins to noradrenaline, 5-hydroxytryptamine, and KCl was examined 7, 100, 180, and 360 days after the onset of diabetes. No significant changes in reactivity were seen 7 days after the onset of diabetes. After 100 days aortae from diabetic rats were supersensitive (defined as a significant increase in the pD2 value) to noradrenaline. However, 180 days after the onset of diabetes, the sensitivity of diabetic aortae to noradrenaline was not significantly different from control, while the responsiveness (defined as the maximum developed tension divided by cross-sectional area of aorta) to 5-hydroxytryptamine was reduced. A generalized increase in both the sensitivity and responsiveness of diabetic aortae to all three agonists was observed after 360 days of diabetes. In contrast, no changes in either the sensitivity or the responsiveness of portal veins to noradrenaline, 5-hydroxytryptamine, or KCl could be detected at any time after the onset of diabetes. These results indicate that changes in vascular reactivity can be detected with increasing duration of experimental diabetes. However, these changes do not follow a consistent pattern and are not seen in all parts of the vasculature.     

Dopamine 4-sulfate: effects on isolated perfused rat heart and role of atria

We studied the effects of sulfate conjugate of dopamine on the isolated perfused rat heart (Langendorff preparation). In the experimental group, we removed atria from half number of the hearts. In the hearts with intact atria, dopamine 4-sulfate significantly improved the DT (developed tension), +dT/dt max (maximal rate of contraction), -dT/dt max (maximum rate of relaxation) over baseline values. But when atria were removed, dopamine 4-sulfate had no effect on the mechanical functions of heart. We analysed the effluent perfusate for the free and conjugated catecholamines. In the control group (no drug), and when atria were excised, the free catecholamine levels were negligible. But when the atria were kept intact, the effluent contained significant amount of free dopamine (DA), and norepinephrine (NE). These data suggested that dopamine sulfate had no direct effect on the ventricular muscle of rat heart, but was converted within the atrial tissues into free catecholamines which might be responsible for the positive inotropic actions.     

Microvascular versus macrovascular dysfunction in type 2 diabetes: differences in contractile responses to endothelin-1

Vascular dysfunction characterized by a hyperreactivity to vasoconstrictors and/or impaired vascular relaxation contributes to increased incidence of cardiovascular disease in diabetes. Endothelin (ET)-1, a potent vasoconstrictor, is chronically elevated in diabetes. However, the role of ET-1 in resistance versus larger vessel function in mild diabetes remains unknown. Accordingly, this study investigated vascular function of third-order mesenteric arteries and basilar arteries in control Wistar and Goto-Kakizaki (GK) rats, a model of mild Type 2 diabetes. Six weeks after the onset of diabetes, contractile responses to 0.1-100 nM ET-1 and relaxation responses to 1 nM-10 microM acetylcholine (ACh) in vessels preconstricted (baseline + 60%) with serotonin (5-HT) were assessed by myograph studies in the presence or absence of a nitric oxide synthase (NOS) inhibitor, N-nitro-L-arginine (L-NNA). Maximum contractile response to ET-1 was augmented in mesenteric vessels (155 +/- 18% in GK vs. 81 +/- 6% in control; n = 5-7) but not in the basilar artery (134 +/- 29% in GK vs. 107 +/- 17% in control; n = 4 per group). However, vascular relaxation was impaired in the basilar arteries (22 +/- 4% in GK vs. 53 +/- 7% in control; n = 4 per group) but not in mesenteric arteries of GK rats. Inhibition of NOS decreased the relaxation response of basilar arteries to 15 +/- 8% and 42 +/- 5% in GK and control rats, respectively; whereas, in resistance vessels, corresponding values were 56 +/- 7% and 89 +/- 3% (vs. 109 +/- 2% and 112 +/- 3% without NOS blockade), indicating the involvement of different vasorelaxation-promoting pathways in these vascular beds. These findings provide evidence that the ET system is activated even under mild hyperglycemia and that it contributes to the hyperreactivity of resistance vessels, therefore, the ET system may play an important role in elevated blood pressure in Type 2 diabetes.