Effects of prostanoids on phenylephrine-induced contractions in the mesenteric vascular bed of rats with streptozotocin-induced diabetes mellitus

The main aim of this study was to compare the vascular reactivity of the perfused (Krebs, 4 ml/min) mesenteric vascular bed (MVB) isolated from rats with streptozotocin (STZ)-induced diabetes of 8 weeks duration to that of the MVB from non-diabetic (ND) Wistar rats. There were no differences in basal perfusion pressure between the MVB isolated from STZ and ND rats. The addition of indomethacin to the perfusate increased the basal perfusion pressure in both ND (18.8 +/- 0.7 vs 29.4 +/- 3.7 mmHg, p < 0.05) and STZ rats (18.3 +/- 0.9 vs 27.2 +/- 2.6 mmHg, p < 0.05), suggesting the release of a vasodilator prostaglandin. Remotion of the endothelium did not affect this response, indicating that prostaglandin was released from vascular smooth muscle. The response to phenylephrine was reduced in STZ rats compared to ND rats (2.3 [1.6-3.8] vs 8.3 [3.5-19.4], ED50. [IC 95%]) and was not modified by removal of the endothelium or by perfusion of L-nitro-arginine (50 microM). In contrast, indomethacin was able to reduce the response to phenylephrine in ND but not in STZ rats (2.3 [1.6-3.8] vs 4.7 [3.2-6.0], ED50. [IC 95%], p=0.02), suggesting that the blunted response to phenylephrine observed in STZ was due to the abolition of the release of prostaglandin by vascular smooth muscle. In conclusion, experimental diabetes induction in the rat is followed by a reduction of the contractile effect of phenylephrine due to the lack of release of a vasoconstrictor prostaglandin from vascular smooth muscle.     

Altered tail-skin temperature responsiveness in streptozotocin-induced diabetic rats

We evaluated the tail-skin temperature response to administration of several doses of isoproterenol in streptozotocin-induced diabetic rats after 48 h and after 4 weeks of diabetes. Blood glucose concentrations were significantly increased over controls 48 hours after administration of streptozotocin (65 mg/kg, i.v.) and remained elevated to a similar degree in the 4-week group. Basal rectal temperature and tail-skin temperature (TST) were not different between controls and the diabetic groups and were not affected by administration of saline. However, administration of isoproterenol (25 micrograms/kg, s.c.) caused a significant rise in TST in the control group, but not in the rats diabetic for 4 weeks. A similar but exaggerated response was observed in the controls after subcutaneous administration of 40 micrograms/kg and 100 micrograms/kg of isoproterenol. The TST response in the 4-week diabetic rats still remained negligible with the two higher doses of isoproterenol. When the data were summarized as area under the TST curve, a dose-dependent increase was observed in the control groups and a significant absence of response was observed in the 4-week group. The rats studied 48 h after streptozotocin injection had a similar TST response to the control group after administration of 40 micrograms/kg of isoproterenol. Colonic temperatures did not significantly change between the two groups in any of the studies, although the colonic temperatures tended to rise in the control groups following administration of isoproterenol. We conclude from this study that the absence of a tail-skin temperature response in rats diabetic for 4 weeks results from either a reduced beta-adrenergic receptor mediated response or an altered neural thermoregulatory reflex response, or both. These changes are probably not due to streptozotocin treatment or increases in blood glucose.     

Enhanced plasma ghrelin levels in rats with streptozotocin-induced diabetes

Human saliva, which contains nitrite, is normally mixed with gastric juice, which contains ascorbic acid (AA). When saliva was mixed with an acidic buffer in the presence of 0.1 mM AA, rapid nitric oxide formation and oxygen uptake were observed. The oxygen uptake was due to the oxidation of nitric oxide, which was formed by AA-dependent reduction of nitrite under acidic conditions, by molecular oxygen. A salivary component SCN⁻ enhanced the nitric oxide formation and oxygen uptake by the AA/nitrite system. The oxygen uptake by the AA/nitrite/SCN⁻ system was also observed in an acidic buffer solution. These results suggest that oxygen is normally taken up in the stomach when saliva and gastric juice are mixed.     

Functional NOS 1 in the rat mesenteric arterial bed

Previously we have demonstrated functional nitric oxide synthase (NOS) 1 in large arteries. Because resistance arteries largely determine blood pressure, this study examined whether functional NOS 1 also exists in resistance arteries. Phenylephrine (PE) contraction was measured in the absence and presence of the NOS 1 inhibitor N(5)-(1-imino-3-butenyl)-L-ornithine (VNIO) in isolated mesenteric resistance arteries (endothelium intact and denuded) from Sprague-Dawley rats. For NOS 1 activity and expression, the mesenteric arterial bed was separated into cytosolic and particulate fractions. NOS activity was assayed by measuring the conversion of [(3)H]arginine to [(3)H]citrulline inhibited by a nonselective NOS inhibitor or VNIO. VNIO increased PE sensitivity in endothelium-intact and -denuded arteries. In cytosolic and particulate fractions of the arterial bed, approximately 40% of NOS activity was inhibited by VNIO. Immunoprecipitation and Western blot analysis revealed two NOS 1 immunoreactive bands. One band corresponded to the rat brain isoform, whereas the second was of a slightly lower molecular mass. The cytosolic fraction contained both isoforms; however, the particulate fraction had only the lower molecular mass form. These studies demonstrate the existence of functional NOS 1 in resistance arteries.     

Metformin reduces blood pressure and restores endothelial function in aorta of streptozotocin-induced diabetic rats

Effect of metformin treatment on blood pressure, endothelial function and oxidative stress in streptozotocin (STZ)-induced diabetes in rats was studied. In vitro effect of metformin on vascular reactivity to various agonist in the presence of metformin in untreated nondiabetic and STZ-diabetic rats were also studied. Sprague-Dawley rats were randomized into nondiabetic and STZ-diabetic groups. Rats were further randomized to receive metformin (150 mg/kg) or vehicle for 4 weeks.Metformin treatment reduced blood pressure without having any significant effect on blood glucose level in STZ-diabetic rats. Enhanced phenylephrine (PE)-induced contraction and impaired acetylcholine (Ach)-induced relaxation in STZ-diabetic rats were restored to normal by metformin treatment. Enhanced Ach-induced relaxation in metformin-treated STZ-diabetic rats was blocked due to pretreatment with 100 μM of Nω-nitro-l-arginine-methyl ester (l-NAME) or 10 μM of methylene blue but not 10 μM of indomethacin. Metformin treatment significantly increased antioxidant enzymes and reduced lipid peroxidation in STZ-diabetic rats. In vitro studies in aortic rings of untreated nondiabetic and STZ-diabetic rats showed that the presence of higher concentration of metformin (1 mM and 10 mM) significantly reduced PE-induced contraction and increased Ach-induced relaxation. Metformin per se relaxed precontracted aortic rings of untreated nondiabetic and STZ-diabetic rats in a dose-dependent manner. Pretreatment with l-NAME or removal of endothelium blocked metformin-induced relaxation at lower concentration (up to 30 μM) but not at higher concentration (above 30 μM). Metformin-induced relaxation was blocked in the presence of 1 mM of 4-aminopyridine, or 1 mM of tetraethylammonium but not in the presence of 100 μM of barium ion or 10 μM of glybenclamide. The restored endothelial function along with direct effect of metformin on aortic rings and reduced oxidative stress contributes to reduced blood pressure in STZ-diabetic rats. From the present study, it can be concluded that metformin administration to STZ-diabetic rats lowers blood pressure, and restores endothelial function.     

Modulation of neurotransmitter release by NO is altered in mesenteric arterial bed of spontaneously hypertensive rats

Nitric oxide (NO) reacts with catecholamines resulting in their deactivation. In the present study with the use of the perfused mesenteric arterial bed as a model of the sympathetic neuroeffector junction, the NO synthase (NOS) inhibitor N(omega)-nitro-l-arginine methyl ester (l-NAME) resulted in the enhancement of the periarterial nerve stimulation-induced increase in perfusion pressure and norepinephrine overflow while decreasing neuropeptide Y (NPY) overflow. These changes were prevented by l-arginine, demonstrating that the effects of l-NAME were specific to the inhibition of NOS. From the fact that norepinephrine acts on prejunctional alpha(2)-adrenoceptors to inhibit the evoked release of sympathetic cotransmitters, we carried out experiments in the presence of the alpha(2)-adrenergic receptor antagonist yohimbine to investigate the possibility that the decrease in NPY observed in the presence of l-NAME was due to the increase in bioactive norepinephrine acting on its autoreceptor. Periarterial nerve stimulation in the presence of both l-NAME and yohimbine prevented the previously observed decrease in NPY, indicating that the cause of this decrease was, as predicted, due to alpha(2)-adrenoceptor activation. The periarterial nerve stimulation-induced increase of norepinephrine overflow was greater in the spontaneously hypertensive rat compared with normotensive rats. In contrast to what was observed in the isolated perfused mesenteric arterial bed obtained from normotensive animals, inhibition of NOS did not result in a further increase in the overflow of norepinephrine or in a subsequent decrease in NPY. These results demonstrate that, in addition to being a direct vasodilator, NO, by deactivating norepinephrine, can modulate sympathetic neurotransmission and that this modulation is altered in the spontaneously hypertensive rat.     

Depressed arteriolar responsiveness to norepinephrine in streptozotocin-induced diabetes in the rat

We examined the contribution of prostaglandins to altered reactivity to norepinephrine in rat cremaster third order arterioles of streptozotocin (STZ) treated rats and age-matched controls. NE was applied topically to the cremaster muscle of pentobarbital (35 mg/kg) anesthetized rats before and during topical administration of indomethacin (IND: 10 μg/ml) four and eight weeks after i.v. injection with of 50 mg/kg STZ (STZ-4W; STZ-8W) or vehicle (C-4W; C-8W), and before and during topical administration of 5,8,11,14 eicosatetraynoic acid (ETYA; 20 μg/ml) in STZ-8W and C-8W. Plasma glucose was elevated significantly in STZ-treated rats. Blood pressures and resting arteriolar diameters did not differ. However, vasoconstrictor responses to NE were depressed in STZ-4W and to a greater degree in STZ-8W. IND normalized reactivity to the low doses of NE and partially restored reactivity to the higher doses. ETYA enhanced reactivity to all doses of NE to a greater extent than did IND. These data are consistent with a role for locally produced vasomodulatory arachidonic acid metabolites, including prostaglandins, in the decreased reactivity to NE in diabetic rat cremaster muscle arterioles.     

糖尿病大鼠肠系膜动脉降钙素基因相关肽释放减少以及一氧化氮的作用

我们以前的工作已表明,内毒素可引起降钙素基因相关肽（ＣＧＲＰ）从大鼠肠系膜动脉床释放,此作用部分是通过一氧化氮介导的。我们在离体肠系膜动脉床研究了内毒素引起糖尿病大鼠ＣＣＲＰ释放的改变以及一氧化氮所起的作用。采用ＣＣＲＰ放射免疫分析法测定灌流液中ＣＣＲＰ含量,ＲＴ－ＰＣＲ法测定背根神经节ＣＧＲＰｍＲＮＡ水平。结果显示：内毒素累积灌流引起ＣＧＲＰ浓度依赖性地释放增多,此作用在糖尿病大鼠系膜动脉术明显     

Oxidative stress attenuates NO-induced modulation of sympathetic neurotransmission in the mesenteric arterial bed of spontaneously hypertensive rats

Current evidence suggests that hyperactivity of the sympathetic nervous system and endothelial dysfunction are important factors in the development and maintenance of hypertension. Under normal conditions the endothelial mediator nitric oxide (NO) negatively modulates the activity of the norepinephrine portion of sympathetic neurotransmission, thereby placing a "brake" on the vasoconstrictor ability of this transmitter. This property of NO is diminished in the isolated, perfused mesenteric arterial bed taken from the spontaneously hypertensive rat (SHR), resulting in greater nerve-stimulated norepinephrine and lower neuropeptide Y (NPY) overflow from this mesenteric preparation compared with that of the normotensive Wistar-Kyoto rat (WKY). We hypothesized that increased oxidative stress in the SHR contributes to the dysfunction in the NO modulation of sympathetic neurotransmission. Here we demonstrate that the antioxidant N-acetylcysteine reduced nerve-stimulated norepinephrine and increased NPY overflow in the mesenteric arterial bed taken from the SHR. Furthermore, this property of N-acetylcysteine was prevented by inhibiting nitric oxide synthase with N(omega)-nitro-l-arginine methyl ester, demonstrating that the effect of N-acetylcysteine was due to the preservation of NO from oxidation. Despite a reduction in norepinephrine overflow, the nerve-stimulated perfusion pressure response in the SHR mesenteric bed was not altered by the inclusion of N-acetylcysteine. Studies including the Y(1) antagonist BIBO 3304 with N-acetylcysteine demonstrated that this preservation of the perfusion pressure response was due to elevated NPY overflow. These results demonstrate that the reduction in the bioavailability of NO as a result of elevated oxidative stress contributes to the increase in norepinephrine overflow from the SHR mesenteric sympathetic neuroeffector junction.     

Calcium signalling in cortical and thalamic neurons of rats with streptozotocin-induced diabetes

Intracellular Ca²⁺ transients were measured with the use of a Ca²⁺-sensitive fluorescent indicator, fura-2, in neocortical and thalamic neurons in brain slices from control rats and rats with uncompensated streptozotocin-induced diabetes. The transients were evoked by high-potassium (50 mM)-induced membrane depolarization. The amplitude of depolarization-induced Ca²⁺ transients demonstrated a tendency to increase under diabetic conditions, beeing more expressed in cortical neurons compared with thalamic ones. The transients in cortical neurons from diabetic animals became also more susceptible to the blocking action of nifedipine (100μM) and less sensitive to Ni²⁺ (50μM), indicating that diabetic changes affect mostly Ca²⁺ transients triggered by high-voltage activated (L-type) calcium channels. The duration of a statistically significant increase was observed in the residual elevation of intracellular Ca²⁺ changes. However, a statistically significant increase was observed in the residual elevation of intracellular Ca²⁺ measured 60 sec after termination of membrane depolarization in both cortical and thalamic neurons, indicating alterations in the mechanisms that restore the resting level of Ca²⁺ in the cytosol. It is concluded that uncomensated insulin-dependent diabetes, which according to earlier data substantially alters calcium signalling in primary sensory neurons, also affects such signalling in the neurons of higher brain structures including the thalamus and cortex.     

Antidiabetic and antihyperlipidemic effect of Duvalia corderoyi in rats with streptozotocin-induced diabetes

Diabetes mellitus (DM) is a metabolic syndrome distinguished with glucose increasing in blood, insulin resistance, and hyperlipidemia. It results in decease of millions of people yearly. Duvalia corderoyi is a traditional diabetes and hypertension medicine from the Arabian region. D. corderoyi extract was administered to diabetes rats for estimate its anti-diabetic and antihyperlipidemic activities in Wistar rats were induced using (60 mg/kg) of streptozotocin (STZ) intraperitoneally. The rats were randomly divided into five groups: control, diabetic, diabetic receiving glibenclamide, and two diabetic D. corderoyi-treatment groups. Rats were weighted weekly, and the biochemical analysis were carried out in serum, and liver homogenate samples. Body weight of diabetic rats was lessening significantly D. corderoyi improved body weight, glucose concentration, lipid profiles, hepatic enzymes, urea, creatinine, insulin, and HDL-C. These results are the first to indicate the potential antidiabetic and antihyperlipidemic activities of D. corderoyi.     

Antihypertensive treatment in spontaneously hypertensive rats with streptozotocin-induced diabetes mellitus

Recent clinical reports have suggested that hypertension accelerates the progress of diabetic nephropathy and retinopathy, whereas antihypertensive treatments may retard them. Thus, the effect of antihypertensive treatment in diabetes mellitus with hypertension was evaluated in rats. A model of diabetes mellitus with hypertension has been developed in spontaneously hypertensive (SHR) rats by unilateral nephrectomy and streptozotocin (STZ, 30 mg/kg, i.v. treatment). The rats were treated with four antihypertensive drugs orally for 12 weeks thereafter. STZ treatment induced chronic hypeglycaemia (300-400 mg/dl), decreased body weight and heart rate, and caused vascular changes of ophthalmic fundi and cataracta. The kidney of these rats showed proliferative changes such as periarteritis nodosa, hyperplasia, or fibronecrosis of the arterioles, exudative changes, mesangial proliferation, or thickening of the basement membrane of the glomeruli. Enalapril (10 mg/kg per day) and remipril (Hoe 498) (1 mg/kg per day), converting enzyme inhibitors, or arotinolol (20 mg/kg per day), a beta-adrenoceptor blocking drug, decreased blood pressure, prevented the development of renal and ocular lesions, and tended to increase creatinine clearance. Nisoldipine (3 mg/kg per day), a calcium-entry blocking drug, tended to decrease blood glucose, and prevented the decrease of body weight and development of ocular lesions. In conclusion, antihypertensive treatments were effective in preventing the progress of diabetic retinopathy and nephropathy, and renal insufficiency in this animal model.     

Early molecular events in the hippocampus of rats with streptozotocin-induced diabetes

In our study, we tried to find whether changes in expressions of inducible nitric oxide synthase (iNOS), corticosteroid (gluco-and mineralocorticoid) receptors (GRs and MRs, respectively), and bcl₂ protein within the early stages of streptozotocin (STZ)-induced diabetes in Wistar rats can be involved in hippocampal dysfunction. Expressions of iNOS and bcl₂ were studied using indirect immunofluorescence techniques, while GR and MR expressions were estimated using in situ mRNA hybridization. The concentrations of insulin, ACTH, and corticosterone in the blood serum were measured using ELISA kits. It was found that expression of iNOS in the CA2 and CA3 hippocampal areas increased significantly at day 3 after STZ injection, and corticosterone and ACTH levels in the serum increased at day 14. The iNOS expression was downregulated at day 14 of the development of diabetes. These changes were accompanied by significantly increased expression of GRs in the hippocampus. Neither bcl₂ nor MR expression increased in the CA2 and CA3 hippocampal areas within the examined period of the development of diabetes. Thus, we first obtained proof of noticeable early molecular events in the rat hippocampus related to experimental diabetes. These events may be linked with diabetes-associated cognitive decline observed in patients suffering from diabetes. Neirofiziologiya/Neurophysiology, Vol. 39, No. 6, pp. 498–502, November–December, 2007.     

Tissue antioxidant status in streptozotocin-induced diabetes in rats

Interactions between manganese (Mn) deficiency and streptozotocin (STZ)-diabetes with respect to tissue antioxidant status were investigated in male, Sprague-Dawley rats. All rats were fed either a Mn-deficient (1 ppm) or a Mn-sufficient (45 ppm) diet for 8 wk. Diabetes was then induced by tail-vein injection of STZ (60 mg/kg body weight), after which the rats were kept for an additional 4 or 8 wk. The control groups comprised rats not injected with STZ and fed either Mn-deficient or Mn-sufficient diets for a total of 12 wk. The Mn-deficient diet decreased the activities of manganese superoxide dismutase (MnSOD) in kidney and heart, and of copperzinc superoxide dismutase (CuZnSOD) in kidney, in the non-diabetic animals. In the diabetic rats, the Mn-deficient diet induced more pronounced decreases in activities of these same enzymes, and also increased liver MnSOD activity. Plasma and hepatic vitamin E levels increased progressively with the duration of diabetes, independent of dietary Mn intake. Lipid peroxidation, as measured by H₂O₂-induced production of thiobarbituric acid reactive substances in erythrocytes, also increased, concomitant with decreased liver and kidney glutathione (GSH) levels. These findings demonstrate for the first time an interactive effective between Mn deficiency and STZ-diabetes, resulting in amplification of tissue antioxidant changes seen with either Mn deficiency or STZ-diabetes alone. This effect of Mn deprivation in experimental diabetes suggests a physiological role for Mn as an antioxidant nutrient.     

Increased expression of iNOS is associated with endothelial dysfunction and impaired pressor responsiveness in streptozotocin-induced diabetes

Studies in streptozotocin (STZ)-induced diabetic rats have demonstrated cardiovascular abnormalities such as depressed mean arterial blood pressure (MABP) and heart rate (HR), endothelial dysfunction, and attenuated pressor responses to vasoactive agents. We investigated whether these abnormalities are due to diabetes-associated activation of inducible nitric oxide synthase (iNOS). In addition, the effect of the duration of diabetes on these abnormalities was also evaluated. Diabetes was induced by administration of 60 mg/kg STZ via the tail vein. One, 3, 9, or 12 wk after STZ injection, MABP, HR, and endothelial function were measured in conscious unrestrained rats. Pressor response curves to bolus doses of methoxamine (MTX) and angiotensin II (ANG II) were constructed in the presence of N-[3(aminomethyl)benzyl]-acetamidine, dihydrochloride (1400W), a specific inhibitor of iNOS. Depressed MABP and HR and impairment of endothelial function were observed as early as 3 wk after induction of diabetes. Acute inhibition of iNOS with 1400W (3 mg/kg i.v.) restored the attenuated pressor responses to both MTX and ANG II without affecting the basal MABP and HR. Immunohistochemical and Western analysis blot studies in cardiovascular tissues revealed decreased expression of endothelial nitric oxide synthase (eNOS) concomitant with increased expression of iNOS and nitrotyrosine with the progression of diabetes. Our findings suggest that induction of iNOS in cardiovascular tissues is dependent on the duration of diabetes and contributes significantly to the depressed pressor responses to vasoactive agents and potentially to endothelial dysfunction.     

Studies on retinal microangiopathy and coronary macroangiopathy in rats with streptozotocin-induced diabetes

Diabetes mellitus was induced in male rats by streptozotocin injection. After 4, 8 and 12 months, retinal and coronary vessels were prepared and their structure was studied. An age-dependent increase in thickness of the capillary basement membrane of retinal vessels was found both in controls and diabetics. Furthermore, diabetics had an added 20%, disease-related thickening, present after 4 months and thereafter. No significant change in coronary arteries was found. After 8 and 12 months, plasma lipids, triiodothyronin and thyroxin were measured. In diabetics, triglycerides were higher at both time intervals, high density lipoprotein was slightly increased and thyroxin was reduced after 8 months, and triiodothyronin was reduced after both 8 and 12 months. Diabetes of 12 months duration appears insufficient to induce significant arteriosclerotic changes in rats.     

Sevoflurane reduces ischemic brain injury in rats with diet and streptozotocin-induced diabetes

Abstract

To investigate the role of S100B, oxidative stress and the apoptosis signaling pathways in the sevoflurane induced neuroprotective effect on stroke. The brain injury, molecular and cellular damage, and functional recovery were investigated upon ischemic brain injury followed by sevoflurane treatment. Longa rodent stroke scales was used to quantify neurological deficits. TTC staining was used to measure infarct volume of brain tissue. Absolute brain water content was measured by wet/dry weight method. The neuronal morphological change was assessed by H and E staining. The spatial learning and memory ability were measured by water maze test. Serum proteins including S100B, GSH-PX, SOD, Bcl-2, Bax, Caspase-3 were measured by ELISA. The level of NOS and NO in serum was determined by colorimetric method. Compared with control, the serum proteins including S100B, Bax, NO, Caspase-3, and NOS activity in cerebral infarction rats increased significantly while SOD, GSH-PX, and Bcl-2 decreased significantly. Diabetic mellitus complicated with cerebral infarction rats showed more dramatic increase for S100B, Bax, NO, Caspase-3, and NOS activity and dramatic decrease for SOD, GSH-PX, and Bcl-2. Interestingly, sevoflurane reduced the changes significantly. The S100B level positively correlated with brain damage, NO, Bax, caspase-3, and NOS activity but negatively correlated with SOD, Bax, and GSH-PX. Brain damage in sevoflurane groups decreased while behavior outcomes including Longa neurologic score, learning, and memory increased significantly. The neuroprotective effect of sevoflurane is associated with defense mechanisms against free radical-induced oxidative stress and inhibition of apoptosis. S100B protein correlated with oxidative stress and the apoptosis signaling pathways.