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AIM: To investigate the effects of heptanol preconditioning on the changes of structure, function and connexin 43 (Cx43) content in mitochondria in a rabbit model of myocardial isehemia-reperfusion (IR) injury. METHODS: In anesthetized open-chest rabbits, the left anterior descending artery (LAD) was occluded for 30 min and reperfused for 4 h. Sixty-four rabbits were randomly divided into 4 groups (n=16 in each group): sham operation group (sham group), ischemia-reperfusion group (IR group), ischemic preconditioning group (IP group) and heptanol preconditioning group (HT group). All rabbits in the 4 groups were killed 4 h after reperfusion. Myocardial infarct size was determined at the end of the experiment. Mitochondria was isolated by centrifugations. The ultrastructural changes of the mitochondria were observed under electronic microscope. The mitochondrial membrane potential, Ca~(2+) concentration, MDA content and SOD activity of myocardial mitochondria were also examined. The content of mitochondria Cx43 was detected by Western blotting. RESULTS: Compared to IR group, the myocardial infarct size was significantly reduced in IP (18.97%±2.80%) and HT (19.97%±3.80%) groups, the damage of mitoehondrial ultrastructure was milder (P<0.05), mitochondrial membrane potential was significantly higher and Ca~(2+) concentration was much lower (P<0.01) in IP group and HT group. No significant difference of MDA content and SOD activity in myocardial mitochondria between IR group and HT group was found. However, MDA content were much lower and SOD activity was significantly higher in IP group as compared to IR group (P<0.01). Compared to sham group, the mitochondria Cx43 expression was distinctly decreased compared to IR group (P<0.05) and no significant difference was found between IP group and HT group (P>0.05). CONCLUSION: Heptanol preconditioning protects myocardium from ischemia-reperfusion injury. The mechanism may be related to increasing in mitochondrial membrane potential, alleviating Ca~(2+) overload in myocardial mitochondria and attenuating the decrease in mitochondria Cx43 expression induced by isehemia-reperfusion.
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Aim To investigate the roles of Cx43 in mitochondria and mitochondrial ATP sensitive potassium channe1(mitoK_(ATP)~+)participating in the protection for heptanol preconditioning on myocardial ischemia/reperfusion injury of rabbits.Methods In anesthetized open-chest rabbits,the left anterior descending artery(LAD)was occluded for 30 min and reperfused for 4 hrs.All rabbits were randomly divided into five groups(n=16 in each group):sham operation group(Group Sham),ischemic reperfusion group(Group IR),ischemic preconditioning group(Group IP),heptanol preconditioning group(Group HT)and 5-HD plus heptanol preconditioning group(Group HT+5-HD),All rabbits in the five groups were killed 4h after reperfusion.Myocardial infarct size was determined at the end of the experiment.The heart rate and the mean arterial pressure(MAP)were recorded and plasma CK-MB and cTnI activity were measured at baseline,the end of ischemia,and after 2 hrs and 4 hrs of reperfusion respectively.Mitochondria was isolated with different centrifugations.Ultrastructural changes of mitochondria were observed under electron microscope.The content of the mitochondria Cx43 was detected with Western blot.Results The plasma CK-MB,cTnI activity and myocardial infarct size were significantly reduced in IP(18.97±2.8)% and HT(19.97±3.8)% groups as compared to IR groups (35.67±5.8)%,(P<0.01).Compared to group IR,the damage of mitochondria in group IP and group HT were milder(P<0.01).No significant difference was found between Group IP and Group HT.Compared to sham group, the mitochondria Cx43 expression was distinctly decreased in group IR and group HT+5-HD(P<0.01)and no significant difference was found between Group IP and Group HT.Conclusions Heptanol preconditioning can protect the heart from I/R injury by improving mitochondrial ultrastructure and by attenuating the decrease of mitochondria Cx43 expression induced by I/R.The mitochondrial Cx43 expression may be concerned with depending on mito K_(ATP)~+.
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BACKGROUND: Cells rely on gap junctions for intercellular communication, which is important for growth and contractility. The present study was conducted to test the hypothesis that contractile responses in aortic rings from two-kidney, one clip (2K1C) hypertensive rats are more dependent on gap junctional communication compared to those from normotensive rats. METHODS: 2K1C hypertension was induced by clipping the left renal artery and age-matched rats received a sham operation. Heptanol and octanol were used as inhibitors of gap junctional activity. RESULTS: The contraction induced by phenylephrine or KCl was completely reversed by either heptanol or octanol, and the relaxant response to inhibitors was more enhanced in 2K1C hypertensive rats compared to sham-operated rats. Vessels from hypertensive rats also relaxed more to nifedipine when precontracted with KCl, although it did not differ in aortic segments contracted with phenylephrine in between normotensive and hypertensive rats. CONCLUSION: These results suggest that gap junctional communication and voltage-operated calcium channels are differentially regulated in 2K1C renal hypertension.
Subject(s)
Rats , AnimalsABSTRACT
BACKGROUND: Cells rely on gap junctions for intercellular communication, which is important for growth and contractility. The present study was conducted to test the hypothesis that contractile responses in aortic rings from two-kidney, one clip (2K1C) hypertensive rats are more dependent on gap junctional communication compared to those from normotensive rats. METHODS: 2K1C hypertension was induced by clipping the left renal artery and age-matched rats received a sham operation. Heptanol and octanol were used as inhibitors of gap junctional activity. RESULTS: The contraction induced by phenylephrine or KCl was completely reversed by either heptanol or octanol, and the relaxant response to inhibitors was more enhanced in 2K1C hypertensive rats compared to sham-operated rats. Vessels from hypertensive rats also relaxed more to nifedipine when precontracted with KCl, although it did not differ in aortic segments contracted with phenylephrine in between normotensive and hypertensive rats. CONCLUSION: These results suggest that gap junctional communication and voltage-operated calcium channels are differentially regulated in 2K1C renal hypertension.
Subject(s)
Rats , AnimalsABSTRACT
The effect of 1% Na-Hyaluronan(Na-HA) on the morphogenesis of microvilli in superficial epithelial cells and of hemidesmosomes in basal epithelial cells together with the organization of superficial stromal collagen were evaluated in n-heptanol induced corneal epithelial wounds. Epithelial wounds were produced by applying a 5.5mm round filter paper, soaked in n-heptanol, on the central cornea for 60 seconds. 1% Na-HA in phosphate buffered saline(PBS) or PBS alone were instilled 4 times a day for 3 days. Epithelial healing rates determined during the first two days were not altered by Na-HA. The number of microvilli in superficial epithelial cells and of collagens fibers in superficial stroma were approximately the same between two groups. However, the number of hemidesmosome in the central cornea, which was counted in 2micrometer length of the basement membrane, significantly increased by the treatment with 1% Na-HA, being 10.0+/-1.1 in the 1% Na-HA treated group and 6.5+/-2.5 in the control group. The results suggest that topically applied 1% Na-HA may enhance the formation of hemidesmosome in n-heptanol wounded cornea.
Subject(s)
Basement Membrane , Collagen , Cornea , Epithelial Cells , Hemidesmosomes , Heptanol , Microvilli , Morphogenesis , Wounds and InjuriesABSTRACT
The role of limbal epithelial cells on the initial re-surfacing of the central epithelial defect was evaluated. Central or peripheral corneal wounds were produced by using n-heptanol in New Zealand white rabbit, and the epithelial healing rates were evaluated. Central corneal wounds made by applying a filter paper soaked in 0.2 N NaOH with vs without limbal damage were produced for the paralleled set of experiment. A 5.5 mm round filter paper for central wound and a 2 mm filter paper strip for limbal damage were used for the initial wounding. Epithelial defect areas were photodocumented after fluorescein stainmg at 0.6, 18, 30, 42, 48 hours following initial damage. Epithelial healing rates were measured by linear regression analysis, The epithelial healing rates of central and peripheral heptatlol wounds were 0.71 +/- 0.14 mm2/h, and 0.79 +/- 0.10 mm2/h(p>0.05), respectively, NaOH central wound without limbal damage and with limbal damage were 0.77 +/- 0.11 mm2/h, and 0.76 +/- 0.11 mm2/h, respectively(p>0.05). These data suggest that the limbal epithelium has no influence on the initial re-surfacing of the central epithelial defect.
Subject(s)
Rabbits , Epithelial Cells , Epithelium , Fluorescein , Heptanol , Linear Models , New Zealand , Wounds and InjuriesABSTRACT
AIM: To determine the effect of heptanol on the in vivo heart subjected to ischemia and reperfusion, on the whole-tissue resistance and electrical uncoupling in the isolated rat heart during prolonged ischemia. METHODS: The effect of heptanol at different doses (0.03, 0.06, 0.30, and 0.60 mg/kg) on the intact rat heart during 30 min ischemia (ligation of left anterior descending coronary artery) and 2 h of reperfusion was observed. The effect of heptanol on electrical uncoupling in the isolated rat heart was investigated by measuring the changes in whole-tissue resistance using the four-electrode method. RESULTS: Heptanol reduced infarct size and the severity of arrhythmia during ischemia and reperfusion within a range of doses (0.06-0.60 (mg/kg)). No effect was observed at dose of 0.03 mg/kg and the severity of arrhythmia during ischemia was increased at dose of 0.60 mg/kg. Heptanol at different concentrations (0.05-1.00 mmol/L) delayed the onset of electrical uncoupling and plateau time during prolonged ischemia, and reduced the maximal rate of uncoupling. CONCLUSION: Heptanol conferred cardioprotection on ischemia-reperfusion myocardium. The mechanism may be related to its uncoupling effect.