Kubilay Uzuner

The effect of vasoactive intestinal peptide (VIP) on mast cell invasion/degranulation in testicular interstitium of immobilized + cold stressed and β-endorphin-treated rats

The effect of VIP on mast cell invasion/degranulation in testicular interstitium of stressed (immobilization and cold) and beta-endorphin-treated rats were investigated. Fifty-three Wistar male rats were used in four series of experiments. Initially, the effect of immobilization and cold stress on mast cell invasion and degranulation in testicular interstitium was examined in three age group of rats: 15 (n = 6), 30 (n = 6), and 45 (n = 7) days of age. Five animals per age group were used as controls. Because the most obvious effect of the stress on mast cell invasion/degranulation in testicular interstitium was observed in 45-day-old rats, the action of VIP in stressed and beta-endorphin-treated rats was only investigated at this age group. Mast cells and Leydig cells were evaluated by using histochemical and light microscopic protocols. Stress caused mast cell accumulation and degranulation in the testicular interstitium. Stress decreased heparin synthesis and possibly increased histamine content of mast cells. The effect of beta-endorphin was not as high as seen with stress. In some areas of testicular interstitium of stressed rats, there were aplasic and/or inactive Leydig cells. VIP inhibited proliferation and degranulation of mast cells, increased heparin content of the cells, and protected Leydig cells. By way of mast cell accumulation and degranulation in the testicular interstitium, exposure to stress may lead to Leydig cell damage and infertility. VIP may be involved in the protection of normal testicular function under stress conditions.

Gastroprotective effect of leptin on gastric mucosal injury induced by ischemia-reperfusion is related to gastric histamine content in rats.

Leptin has cytoprotective effect to gastric mucosal injury in rats. We aimed to test the hypothesis that leptin induced histamine is involved in the prevention of ischemia-reperfusion (I/R) induced gastric mucosal injury in rats. At the end of the 30 min celiac artery occlusion and 12h reperfusion process, serum and gastric tissue samples were taken from three group of rats to measure oxidative status, histamine levels and for histological examinations. Leptin decreased ulcer and polymorphonuclear leukocyte (PMNL) index, and serum malondialdehyde (MDA) and protein carbonyl content but increased gastric tissue histamine levels. We concluded that leptin exerts a protective effect on gastric mucosa to I/R induced gastric injury probably through increasing tissue histamine content which, in turn, maintain the gastric mucosal blood flow.

Ischemic-Reperfused Rat Skeletal Muscle: The Effect of Vasoactive Intestinal Peptide (VIP) on Contractile Force, Oxygenation and Antioxidant Enzyme Systems

The effect of vasoactive intestinal peptide (VIP) on the nerve-stimulated contraction, tissue oxygenation, lipid peroxidation and antioxidant enzymes activities-superoxide dismutase and catalase was investigated in the rat gastrocnemius muscle exposed to 4 h ischemia-4hr reperfusion. Ischemia caused significant decrease in muscle contractile force, oxygenation and superoxide dismutase enzyme activity. Reperfusion of ischemic muscle increased the muscle contractile force and restored the tissue oxygenation to the baseline level. Superoxide dismutase and catalase activities of reperfused muscle increased significantly. However neither ischemia nor reperfusion affected gastrocnemius muscle malondialdehide (MDA) levels. VIP administration at the onset of reperfusion significantly increased skeletal muscle contractile force and tissue oxygenation even higher than baseline and reperfusion values. VIP also normalized the increased superoxide dismutase and catalase activities of reperfused skeletal muscle. In conclusion, VIP, acting as a powerful antioxidant and preserving contractile machinery seems to be a promising endogenous peptide that can salvage the skeletal muscle from severe ischemia-reperfusion injury.

Erythropoietin prevents nitric oxide and cathepsin-mediated neuronal death in focal brain ischemia.

We examined the preventive effect of human recombinant erythropoietin (HrEPO) on nitric oxide (NO)-mediated toxicity to neurons and cysteine protease release into cytoplasm, which is attributed to neuronal death in brain ischemia. Focal cerebral ischemia was induced by permanent occlusion of middle cerebral artery in two sets of rat. The first set was used to monitor NO concentration and cathepsin activity, while the second was used for histological examination with hematoxylin and eosin, and TUNEL staining. A group in both set was administered human recombinant erythropoietin (HrEPO). NO content, cathepsins B and L activity increased significantly in the post-ischemic cerebral tissue (p<0.05). HrEPO treatment reduced NO concentration and cathepsin activity to control level (p>0.05). A significant increase in the number of necrotic and apoptotic neurons was observed in the post-ischemic cerebral cortex (p<0.05). HrEPO treatment was markedly lowered both of these (p<0.05). It is concluded that HrEPO prevents neuronal death by protecting neuronal liposomes from NO-mediated toxicity and suppressing the release of cathepsins.

Effect of kefir and low-dose aspirin on arterial blood pressure measurements and renal apoptosis in unhypertensive rats with 4 weeks salt diet

Abstract We aim to study the effect of low-dose aspirin and kefir on arterial blood pressure measurements and renal apoptosis in unhypertensive rats with 4 weeks salt diet. Forty adult male Sprague-Dawley rats were divided into five groups: control, high-salt (HS) (8.0% NaCl), HS + aspirin (10 mg/kg), HS + kefir (10.0%w/v), HS + aspirin + kefir. We measured sistolic blood pressure (SBP), mean arterial pressure (MAP), diastolic pressure, pulse pressure in the rats. Cathepsin B, L, DNA fragmentation and caspase-3 activities were determined from rat kidney tissues and rats clearance of creatinine calculated. Although HS diet increased significantly SBP, MAP, diastolic pressure, pulse pressure parameters compared the control values. They were not as high as accepted hypertension levels. When compared to HS groups, kefir groups significantly decrease Cathepsin B and DNA fragmentation levels. Caspase levels were elevated slightly in other groups according to control group. While, we also found that creatinine clearance was higher in HS + kefir and HS + low-dose aspirin than HS group. Thus, using low-dose aspirin had been approximately decreased of renal function damage. Kefir decreased renal function damage playing as Angiotensin-converting enzyme inhibitor. But, low-dose aspirin together with kefir worsened rat renal function damage. Cathepsin B might play role both apoptosis and prorenin-processing enzyme. But not caspase pathway may be involved in the present HS diet induced apoptosis. In conclusion, kefir and low-dose aspirin used independently protect renal function and renal damage induced by HS diet in rats.

Effect of nitric oxide inhibition on rat liver ischemia reperfusion injury

Objective: to determine the role of nitric oxide (NO) in rat liver ischemia reperfusion we examined the effects of competitive NO synthesis inhibitor L-nitro-arginine-methyl-ester (L-NAME) and NO precursor L-arginin. Methods: 46 Sprague-Dawley rats were divided into five groups. Group 1, sham operated; group 2, 30-min ischemia administered; group 3, 60-min reperfusion administered after ischemia; group 4, 50 mg/kg L-NAME was given i.v. immediately before reperfusion; group 5, 50 mg/kg L-NAME+250 mg/kg L-arginin was given i.v. immediately before reperfusion. At the end of the experiment, liver was removed and superoxide dismutase (SOD), catalase, and malondialdehyde (MDA) were measured, transaminases SGOT and SGPT were measured in sera. Liver was also evaluated histopathologically. Results: transaminase levels were the highest in ischemia reperfusion group. Transaminases in this group were high compared with sham, ischemia, L-NAME and L-arginin groups (***P<0.001, ***P<0.001, *P<0.05, *P<0.05, respectively). SOD activity was 29.8+4 U/mg protein in L-arginin group. This level was the lowest level in all groups. SOD activity in L-arginin group was lower than that of sham and ischemia reperfusion groups (**P<0.01, *P<0.05, respectively). There were no significant differences in catalase activity and MDA levels among groups. Tissue damage was significant in ischemia and ischemia reperfusion groups. Tissue damages in these groups were greater than that of sham group (***P<0.001). In L-NAME treated group, tissue damage was similar to sham group, and significantly less than ischemia reperfusion group and L-arginin group (**P<0.01). Conclusion: even though there was significant tissue damage, we have not observed oxidative stress in the length of ischemia reperfusion period that we have performed. Mechanism of this damage seems to be independent from lipid peroxidation. NO supplementation decreased SOD, but did not cause further tissue damage. NO may dispose O(2)(-) by formation of peroxynitrite. L-NAME did not change lipid peroxidation, but clearly reduced reperfusion injury.

Effect of vasoactive intestinal peptide on the wound healing of alkali-burned corneas.

AIM To study the effect of vasoactive intestinal peptide (VIP) on wound healing in experimental alkali burns of the cornea. METHODS Twenty-seven albino rabbits, weighing 3.2±0.75 kg were used. Alkali burns were induced on corneas by applying 10 mm Whatman paper No:50 soaked in 1 mol/L NaOH. They have further classified into 5 groups as follows: 1) control group given no treatment (n=5); 2) VIP given subconjunctivally (n=6); 3) VIP injected into anterior chamber (n=6); 4) NaCl 0.9% given subconjunctivally (n=5); 5) NaCl 0.9% given into the anterior chamber (n=5). All treatment protocols except control group were followed by topical eye drops composed of VIP at two hourly intervals for one week from 8 a.m. to 6 p.m. RESULTS VIP treated groups of rabbits with alkali burns were found to have better wound healing findings histo-pathologically when compared to those of control group who have received no treatment on day 30. No differences were observed between groups in respect to degree of polymorphonuclear leukocytes (PMNL) infiltration and degree of loss of amorphous substrate on day 15. However, PMNL infiltration and degree of loss of amorphous substrate were lower in Groups 2 and 3 when compared to that of control group on day 30 (P<0.05). CONCLUSION We have shown that VIP has positive effects on alkali induced corneal burns. VIP may inhibit PMNL migration to cornea through an immunomodulatory effect. Inhibition of PMNL migration might reduce the release of collagenases and this might prevent the extracellular amorphous substance loss.

Relaxing effects of vasoactive intestinal peptide (VIP) on the contractile actions of endothelin-3, histamine, and acetylcholine in isolated guinea pig tracheal smooth muscle with or without epithelium

The role of VIP on the contractile effects of endothelin-3 (ET-3) (10(-8) M) or a combination of ET-3 plus histamine (Hist) (10(-5) M) or ET-3 plus acetylcholine (Ach) (10(-5) M) were investigated in guinea pig isolated tracheal smooth muscle. Strips of guinea pig trachea, in some of which the epithelium had been removed mechanically, were suspended in organ chambers and isometric tension was recorded. ET-3 contracted the tracheal smooth muscle in a dose-dependent manner ranging from 2 x 10(-12) to 2 x 10(-8) M. The removal of the epithelium significantly potentiated the ET-3-induced contractions. VIP significantly relaxed ET-3 contractile responses about 46 +/- 12% for the intact trachea (p < 0.05) and 39 +/- 6% for the rubbed trachea (p < 0.05). The removal of the epithelium did not significantly change the relaxation effect of VIP on ET-3-induced contraction of guinea pig isolated tracheal smooth muscle. On the other hand, the presence of tracheal epithelium was required for VIP (10(-8)) relaxation in Hist (10(-5)) contracted trachea. Apart from this finding, other Hist and all Ach-induced contractions (10(-5)) of the trachea were not significantly affected by ET-3 (10(-8)) or VIP treatments with or without epithelium. These findings indicate that VIP may play a role in inhibiting the contractile actions of ET-3 in guinea pig trachea and that an intact epithelium is not required for the relaxation but it is required for the VIP relaxation of Hist-induced contraction.

Erythropoietin Protects the Kidney by Regulating the Effect of TNF-α in L-NAME-Induced Hypertensive Rats

Background/Aims: Hypertension is the leading cause of death worldwide. Chronic high blood pressure induces inflammation. Tumor necrosis factor (TNF)-α plays a major role in inflammation and also depresses the synthesis of erythropoietin, which exerts protective effects on tissue; however, the mechanism is still unclear. We investigated the protective effect of erythropoietin against tissue damage caused by hypertension in the kidney and whether this effect was suppressed by TNF-α. Methods: First, we detected the optimum chronic dose for darbepoetin-α (Depo), which is a long-acting erythropoietin analog for rats. We separated 60 female adult rats into 6 groups: control, Nω-nitro-L-arginine methyl ester hydrochloride (L-NAME), L-NAME+Depo, L-NAME+Remicade (an anti-TNF-α antibody), L-NAME+Depo+Remicade, Depo, and control. After 1 month of treatment, we measured cardiovascular parameters, took blood samples, sacrificed the rats, and removed kidneys for analyses. Results: The apoptotic index and the plasma and kidney mRNA levels of TNF-α increased in the L-NAME group and decreased in all other treatment groups. Macrophage accumulation increased in the L-NAME and L-NAME+Remicade groups, while it decreased in the Depo group. The mRNA abundance of TNF receptor 1 (TNFR1) decreased slightly in the Depo group and TNFR2 increased significantly in the same group. Conclusion: Erythropoietin protects kidney tissue against hypertension by preventing the apoptotic effects of TNF-α by blocking macrophage accumulation, decreasing TNF-α levels, and switching the TNF-α receptors from the apoptotic receptor TNFR1 to the proliferative receptor TNFR2.