Induction of heat shock protein 70 (HSP70) by zinc bis (DL-hydrogen aspartate) reduces ischemic small-bowel tissue damage in rats

Ischaemic postconditioning reduces apoptosis in experimental jejunal ischaemia in horses

BACKGROUND

Ischaemic postconditioning (IPoC) refers to brief periods of reocclusion of blood supply following an ischaemic event. This has been shown to ameliorate ischaemia reperfusion injury in different tissues, and it may represent a feasible therapeutic strategy for ischaemia reperfusion injury following strangulating small intestinal lesions in horses. The objective of this study was to assess the degree cell death, inflammation, oxidative stress, and heat shock response in an equine experimental jejunal ischaemia model with and without IPoC.

METHODS

In this randomized, controlled, experimental in vivo study, 14 horses were evenly assigned to a control group and a group subjected to IPoC. Under general anaesthesia, segmental ischaemia with arterial and venous occlusion was induced in 1.5 m jejunum. Following ischaemia, the mesenteric vessels were repeatedly re-occluded in group IPoC only. Full thickness intestinal samples and blood samples were taken at the end of the pre-ischaemia period, after ischaemia, and after 120 min of reperfusion. Immunohistochemical staining or enzymatic assays were performed to determine the selected variables.

RESULTS

The mucosal cleaved-caspase-3 and TUNEL cell counts were significantly increased after reperfusion in the control group only. The cleaved-caspase-3 cell count was significantly lower in group IPoC after reperfusion compared to the control group. After reperfusion, the tissue myeloperoxidase activity and the calprotectin positive cell counts in the mucosa were increased in both groups, and only group IPoC showed a significant increase in the serosa. Tissue malondialdehyde and superoxide dismutase as well as blood lactate levels showed significant progression during ischaemia or reperfusion. The nuclear immunoreactivity of Heat shock protein-70 increased significantly during reperfusion. None of these variables differed between the groups. The neuronal cell counts in the myenteric plexus ganglia were not affected by the ischaemia model.

CONCLUSIONS

A reduced apoptotic cell count was found in the group subjected to IPoC. None of the other tested variables were significantly affected by IPoC. Therefore, the clinical relevance and possible protective mechanism of IPoC in equine intestinal ischaemia remains unclear. Further research on the mechanism of action and its effect in clinical cases of strangulating colic is needed.

Mother's milk-induced Hsp70 expression preserves intestinal epithelial barrier function in an immature rat pup model

Preterm infants face many challenges in transitioning from the in utero to extrauterine environment while still immature. Failure of the preterm gut to successfully mature to accommodate bacteria and food substrate leads to significant morbidity such as neonatal necrotizing enterocolitis. The intestinal epithelial barrier plays a critical role in gut protection. Heat shock protein 70 (Hsp70) is an inducible cytoprotective molecule shown to protect the intestinal epithelium in adult models. To investigate the hypothesis that Hsp70 may be important for early protection of the immature intestine, Hsp70 expression was evaluated in intestine of immature rat pups. Data demonstrate that Hsp70 is induced by exposure to mother's milk. Hsp70 is found in mother's milk, and increased Hsp70 transcription is induced by mother's milk. This Hsp70 colocalizes with the tight junction protein ZO-1. Mother's milk-induced Hsp70 may contribute to maintenance of barrier function in the face of oxidant stress. Further understanding of the means by which mother's milk increases Hsp70 in the ileum will allow potential means of strengthening the intestinal barrier in at-risk preterm infants.

Morphological data indicate a stress response at the oral border of strangulated small intestine in horses

Strangulation colic often leads to surgery. We aimed to document the molecular response in the non-resected intestine in these horses using quantitative Western blot analysis, and immunohistochemistry. The expression of hypoxia-inducible factor 1-alpha (HIF1α) was investigated together with two molecular pathways initiated after protein destruction: proteasome degradation via ubiquitin chain formation and protein restoration via molecular chaperones such as inducible heat shock protein 70 (HSP70). In addition, the expression of c-fos and c-jun could indicate an early proinflammatory response. Ubiquitin, HSP70, c-jun and c-fos protein levels did not differ between the control and colic samples nor were they related to the clinical outcome in case of strangulation colic. However, the immunohistochemical distribution of several of these proteins (ubiquitin, HSP70 and c-jun) differed significantly between colic and control samples. The elevated presence of ubiquitin in the enterocytes' nucleus, of HSP70 in the smooth muscle cells' nucleus and of c-jun in enteric neurons suggest protective and degenerative pathways are activated in the apparently healthy non-resected tissue in case of strangulation obstruction, perhaps providing a molecular and morphological basis for the development of complications like post-operative ileus.

Application of zinc-bis-(DL-hydrogensaspartate) does not reduce apoptotic cell death in myocardial infarction in the rat heart

BACKGROUND

Early studies in different stress models have shown potential beneficial effects of exogenous zinc application with reduction in the rate of apoptotic cell death. This has not been shown in models of myocardial infarction.

METHODS

Rats were exposed to either brief episodes of acute ischemia followed by reperfusion (phase 1) or chronic coronary occlusion (phase 2). Animals were either treated with zinc or vehicle. Groups 1 and 3 received zinc-bis-(DL-hydrogenaspartate) 10 mg/kg body weight as a single 5-mL bolus administered intraperitoneally 24 hours prior to coronary occlusion, groups 2 and 4 received saline. The infarct sizes were determined by triphenyltetrazolium chloride staining and expressed at relative areas to areas of ischemia. Histological slices of the rat's myocardium at the border zones of the infarcts were stained with the TUNEL method to assess for apoptosis. Animals in groups 5, 7, and 9 received zinc, given once before and then repeated every 4 days after coronary occlusion, whereas groups 6, 8, and 10 received saline. Animals were observed for observation periods of 13 (groups 9 and 10), 16 (groups 7 and 8), or 19 weeks (groups 5 and 6), respectively. Two-dimensional echocardiography was performed to measure ejection fraction (EF) at baseline and at the end of the observation periods. TUNEL staining was used to detect and quantify apoptosis rate in the border zones of infarcts after the hearts were excised.

RESULTS

Infarct sizes were 49% + 22% in group 1 (zinc + 30 minutes ischemia + 30 minutes reperfusion); 48% + 10% in group 2 (vehicle + 30 minutes ischemia + 30 minutes reperfusion); 42% + 11% in group 3 (zinc + 60 minutes ischemia + 30 minutes reperfusion); and 41% + 23% in group 4 (vehicle + 60 minutes ischemia + 60 minutes reperfusion). In group 1, 11% + 6% of cells were apoptotic compared to 12% + 4% in group 2, 16% + 9% in group 3, and 17% + 7% in group 4 (P > .05). In phase 2, echocardiography revealed a significant reduction in EF in all groups after coronary occlusion. There were no significant differences in EF between the 5 groups at baseline and at follow-up. TUNEL staining did not reveal any significant apoptosis after 13 to 19 weeks.

CONCLUSION

Application of zinc failed to result in reduction of infarct size after temporary coronary occlusion followed by reperfusion and did not demonstrate any reduction in apoptotic cell death. In chronic coronary occlusion, zinc also did not improve EF compared to controls in the presented model in rats. The mechanisms involved in antiapoptotic effects seem to be more complex and might not be inducible by simple zinc injections.

Zinc reverses malathion-induced impairment in antioxidant defenses

Malathion toxicity has been related to the inhibition of acetylcholinesterase and induction of oxidative stress, while zinc has been shown to possess neuroprotective effects in experimental and clinical studies. In the present study the effect of zinc chloride (zinc) was addressed in adult male Wistar rats following a long-term treatment (30 days, 300mg/L in tap water ad libitum) against an acute insult caused by a single malathion exposure (250mg/kg, i.p.). Malathion produced a significant decrease in hippocampal acetylcholinesterase, as well as a decrease in the activity of several hippocampal antioxidant enzymes: glutathione reductase, glutathione S-transferase, catalase and superoxide dismutase. The pretreatment with zinc did not completely prevent acetylcholinesterase activity impairment; however, antioxidant activity was completely restored. Zinc administration significantly increased HSP60, but not HSP70, expression. The HSP60 increase suggests a novel zinc-dependent pathway, which may be related to a counteracting mechanism against malathion effects. Based on these results the following hypothesis can be presented: the published "pro-oxidative" effect of malathion may be related, among others, to compromised antioxidant defenses, while the zinc "antioxidant" action may be related to the preservation of antioxidant defenses. In conclusion, our data points to the inhibition of antioxidant enzymes as an important non-cholinergic effect of malathion, which can be rescued by oral zinc treatment.

Ischemia-Reperfusion Injury in Rat Skeletal Muscle is Attenuated by Zinc Aspartate

BACKGROUND

Oxygen-derived free radical-induced cell injury has been suggested to have a pivotal role in the etiology of ischemia-reperfusion injury. Thus, several lines of evidence indicate that antioxidant agents may be useful therapeutics in this condition. In this regard, the effect of zinc aspartate on ischemia-reperfusion injury was investigated in skeletal muscle.

MATERIALS AND METHODS

Tourniquet ischemia-reperfusion injury method was applied to Sprague-Dawley rats. Experimental groups were as follows: 1) sham control, 2) rats received zinc aspartate, 3) rats received hind limb tourniquet operation (left side), and 4) rats received hind limb tourniquet operation and zinc aspartate. Viability of muscle was evaluated by triphenyltetrazolium chloride dye method by using a spectrophotometer. Malondialdehyde, superoxide dismutase, catalase, glutathione, and glutathione peroxidase were measured in muscle, heart, lung, and blood via a spectrophotometer.

RESULTS

The viabilities of ischemic limbs, percentage of the contralateral control muscle, in group 1, 2, 3, and 4 were 114 +/- 12%, 87% +/- 5%, 20% +/- 2%, and 95 +/- 10%, respectively. In muscle, increased malondialdehyde and decreased superoxide dismutase, catalase, and glutathione levels in group 3 were normalized by zinc aspartate in both left and right limbs. While malondialdehyde levels in heart and blood increased in group 3, the levels of superoxide dismutase, catalase, glutathione, and glutathione peroxidase were lower in group 3 than those in group 1. All these alterations were prevented by zinc aspartate. Malondialdehyde level of lung in group 3 was significantly higher than group 1 and 2. However, this augmentation was halted by zinc aspartate. The decrease in superoxide dismutase levels in group 3 was statistically reversed by the administration of zinc aspartate.

CONCLUSION

Zinc aspartate seems to be an effective treatment option against ischemia-reperfusion injury.

Ketamine reduces mortality of severely burnt rats, when compared to midazolam plus fentanyl

Ketamine can provide protective effects, through its anti-inflammatory properties, as shown in animal models of septic shock and endotoxemia, and has elicited the heat-shock response (HSR) in experimental studies. The HSR has reduced the mortality after severe burns in rats. This study has tested the hypothesis that ketamine could be protective in experimental burns and that it could generate the HSR. One hundred and twenty adult male Fischer rats were randomly divided into five groups. Rats in the first group (n = 20) were sham-anesthetized. In the second group (n = 20), rats were anesthetized with ketamine and shaved. In the third group (n = 20) rats were anesthetized with midazolam plus fentanyl and shaved. In the fourth group (n = 30), rats were anesthetized with ketamine, shaved and submitted to 29% body surface third-degree burns using a brass bar. In the fifth group (n = 30), rats were anesthetized with midazolam plus fentanyl, shaved and submitted to 29% body surface third-degree burns using a brass bar. Mortality rates were measured at 1, 2, 3, 5, 7, 10, 15 and 25 days. Liver and lung samples were collected from all groups for heat-shock protein 70 (HSP70) detection. No animals died in the first, second or third group. Animals anesthetized with ketamine showed significantly decreased mortality, as compared to those anesthetized with midazolam plus fentanyl, from day 2 to day 10 (P < 0.01, Fischer's exact test) and from day 10 to day 25 (P < 0.05). HSP70 was positive in the lungs of animals from all groups, without any differences among them, and was found in none of the liver samples. In conclusion, the mortality was significantly lesser in ketamine-anesthetized burnt rats than in burnt animals anesthetized with midazolam plus fentanyl. Ketamine has not elicited the HSR in this model of experimental burns and, therefore, its protective effects were not shown to be mediated through this mechanism.

The effect of zinc aspartate pretreatment on ischemia-reperfusion injury and early changes of blood and tissue antioxidant enzyme activities after unilateral testicular torsion-detorsion

BACKGROUND/PURPOSE

The aim of this study is to investigate the effect of zinc aspartate (ZA) pretreatment on ischemia-reperfusion (I/R) injury and blood and tissue antioxidant enzyme activity early after unilateral testicular torsion-detorsion (T/D).

METHODS

Forty prepubertal male Sprague-Dawley rats (weight 160 to 220 g) were divided into 4 groups each containing 10 rats. Surgery was conducted under intraperitoneal 1-shot ketamine (50 mg/kg) anesthesia. The scrotum was entered through a midline incision. Rotating the left testis 720 degrees in a clockwise direction was the model of the testicular torsion. Group 1 was for the basal values. Group 2 had 4 hours T/D. Group 3 also had 4 hours T/D and pretreated with 50 mg/kg intraperitoneal ZA injection half an hour before detorsion. Group 4 was designed as a sham group. In the Group 2 and Group 3, the tunica vaginalis was opened, and left testicles were rotated clockwise 720 degrees and maintained in this torsion position by fixing with a silk suture to the scrotal wall. The scrotum was closed and 4 hours later reentered for testicular detorsion. After spermatic cord detorsion, the scrotum was closed. At the end of 4 hours detorsion period, bilateral orchiectomies were performed, and 5-mL intracardiac blood samples were taken. Blood and tissue superoxide dismutase (SOD), catalase (CAT) activities, and malondialdehyde (MDA) levels were measured, and histopathologic examination was performed.

RESULTS

Group 2 and group 3 had decreased blood SOD and CAT activities and elevated MDA levels indicating I/R injury. The 2 groups were also different from each other for these parameters reflecting the beneficial effect of ZA pretreatment (P <.05). The decreased ipsilateral tissue SOD and CAT activities in group 2 were different from the other groups including group 3 (P <.05). Ipsilateral tissue MDA levels of both group 2 and group 3 were elevated. Group 2 had higher values than group 3 (P <.05). In addition, specimens from group 2 had a significantly greater histologic injury than group 3 (P <.05). These findings were also supporting the beneficial effect of ZA pretreatment. All measurements of contralateral tests were similar to the basal values for all groups (P >.05).

CONCLUSIONS

ZA pretreatment reduces I/R injury by its antioxidant effects after unilateral testicular T/D and affects the antioxidant enzyme systems.

The antioxidant properties of zinc

The ability of zinc to retard oxidative processes has been recognized for many years. In general, the mechanism of antioxidation can be divided into acute and chronic effects. Chronic effects involve exposure of an organism to zinc on a long-term basis, resulting in induction of some other substance that is the ultimate antioxidant, such as the metallothioneins. Chronic zinc deprivation generally results in increased sensitivity to some oxidative stress. The acute effects involve two mechanisms: protection of protein sulfhydryls or reduction of (*)OH formation from H(2)O(2) through the antagonism of redox-active transition metals, such as iron and copper. Protection of protein sulfhydryl groups is thought to involve reduction of sulfhydryl reactivity through one of three mechanisms: (1) direct binding of zinc to the sulfhydryl, (2) steric hindrance as a result of binding to some other protein site in close proximity to the sulfhydryl group or (3) a conformational change from binding to some other site on the protein. Antagonism of redox-active, transition metal-catalyzed, site-specific reactions has led to the theory that zinc may be capable of reducing cellular injury that might have a component of site-specific oxidative damage, such as postischemic tissue damage. Zinc is capable of reducing postischemic injury to a variety of tissues and organs through a mechanism that might involve the antagonism of copper reactivity. Although the evidence for the antioxidant properties of zinc is compelling, the mechanisms are still unclear. Future research that probes these mechanisms could potentially develop new antioxidant functions and uses for zinc.

Heat shock response reduces mortality after severe experimental burns

The heat shock response has imparted protective effects in animal models of septic shock and endotoxemia. This study has tested the hypothesis that it could be protective in experimental burns. One hundred and fifteen adult male Fischer rats were randomly divided into four groups. Rats in the first group (n = 12) were anesthetized and shaved. In the second group (n = 15) rats were anesthetized and heated in a 45 degrees C water bath. In the third group (n = 44), rats were anesthetized, shaved and submitted to 26-30% body surface third-degree burns using a brass bar. In the fourth group (n = 44), rats were anesthetized, heated and, 1 day after, they were burnt. Mortality rates were measured at 3, 7, 15 and 25 days. Liver and lung samples were collected from all groups for heat-shock protein 70 detection. Heat-shock protein 70 was positive in heated animals. No animals died in the first or second group. Heated and burnt animals showed significantly decreased mortality at days 3 (p < 0.05, Fischer's exact test) and at days 7, 15 and 25 (p < 0.01) after burns, when compared to unheated burnt animals. In conclusion, eliciting the heat-shock response significantly reduced mortality rates in this model of experimental burns.

A SIMPLE EXPERIMENTAL MODEL OF HEAT SHOCK RESPONSE IN RATS

Objective: To obtain a simple model for the elicitation of the heat shock response in rats. Design: Laboratory study. Setting: University research laboratories. Sample: Seventy-nine adult male albino rats (weight range 200 g to 570 g). Procedures: Exposure to heat stress by heating animals in a warm bath for 5 min after their rectal temperatures reached 107.60 F (420 C). Liver and lung samples were collected for heat-shock protein 70 (HSP70) detection (Western analysis). Results: Western analysis was positive for HSP70 in the liver and in the lungs of heated animals. There was a temporal correlation between heating and HSP70 detection: it was strongest 1 day after heating and reduced afterwards. No heated animals died. Conclusion: These data show that heating rats in a warm (45o C) bath, according to parameters set in this model, elicits efficiently the heat shock response.