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W2023804543 endingPage "351" @default.
W2023804543 startingPage "340" @default.
W2023804543 abstract "Exercise reduces ischemia and reperfusion (I/R) injury in the rat stroke model. We investigated whether pre-ischemic exercise ameliorates blood–brain barrier (BBB) dysfunction in stroke by reducing matrix metalloproteinase (MMP)-9 expression and strengthening basal lamina. Adult male Sprague–Dawley rats were subjected to a 30 min exercise program on a treadmill 5 days a week for 3 weeks. Stroke was induced by a 2-h middle cerebral artery (MCA) occlusion using an intraluminal filament in the exercised and non-exercised groups. Brain infarction was measured and neurological deficits were scored. BBB dysfunction was determined by examining brain edema and Evans Blue extravasation. Expression of collagen IV, the major component of basal lamina essential for maintenance of the endothelial permeability barrier, was quantitatively detected by Western blot and immunocytochemistry. Ex vivo techniques were used to compare collagen IV–labeled vessels in response to ischemic insult. Temporal relationship of expression of MMP-9 and its endogenous inhibitor, the tissue inhibitors of metalloproteinase-1 (TIMP-1), was determined by real-time PCR for mRNA and Western blot for protein during reperfusion. Brain edema and Evans Blue leakage were both significantly (P<0.01) reduced after stroke in the exercised group, in association with reduced brain infarct volume and neurological deficits. Western blot analysis indicated that exercise enhanced collagen IV expression and reduced the collagen loss after stroke. Immunocytochemistry demonstrated that collagen IV-labeled vessels were significantly (P<0.01) increased in exercised rats. In the ex vivo study, after exercised brains were incubated with ischemic brain tissue, a significantly (P<0.01) higher level of collagen IV-labeled vessels was observed as compared with non-exercised brains following the same treatment. The ex vivo study also revealed a key role of MMP-9 in exercise-strengthened collagen IV expression against I/R injury. TIMP-1 protein levels were significantly (P<0.01) increased by exercise. Our results indicate that pre-ischemic exercise reduces brain injury by improving BBB function and enhancing basal lamina integrity in stroke. This study suggests that the neuroprotective effect of physical exercise is associated with an imbalance of MMP-9 and TIMP-1 expression." @default.
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W2023804543 date "2008-01-01" @default.
W2023804543 modified "2023-09-27" @default.
W2023804543 title "Pre-ischemic exercise reduces matrix metalloproteinase-9 expression and ameliorates blood–brain barrier dysfunction in stroke" @default.
W2023804543 cites W1491678226 @default.
W2023804543 cites W1764824114 @default.
W2023804543 cites W1813589123 @default.
W2023804543 cites W1857364306 @default.
W2023804543 cites W1955736456 @default.
W2023804543 cites W1964034315 @default.
W2023804543 cites W1964236764 @default.
W2023804543 cites W1967115349 @default.
W2023804543 cites W1970881264 @default.
W2023804543 cites W1974867595 @default.
W2023804543 cites W1975773106 @default.
W2023804543 cites W1976807374 @default.
W2023804543 cites W1977311786 @default.
W2023804543 cites W1983401409 @default.
W2023804543 cites W1987197699 @default.
W2023804543 cites W1988086690 @default.
W2023804543 cites W1992981081 @default.
W2023804543 cites W1998557118 @default.
W2023804543 cites W1999675886 @default.
W2023804543 cites W2008194277 @default.
W2023804543 cites W2010856791 @default.
W2023804543 cites W2010909622 @default.
W2023804543 cites W2011096901 @default.
W2023804543 cites W2011875859 @default.
W2023804543 cites W2012257028 @default.
W2023804543 cites W2026233779 @default.
W2023804543 cites W2027144504 @default.
W2023804543 cites W2032305483 @default.
W2023804543 cites W2035569448 @default.
W2023804543 cites W2036743679 @default.
W2023804543 cites W2041835207 @default.
W2023804543 cites W2044175751 @default.
W2023804543 cites W2046297960 @default.
W2023804543 cites W2047745765 @default.
W2023804543 cites W2048047884 @default.
W2023804543 cites W2048392046 @default.
W2023804543 cites W2050457254 @default.
W2023804543 cites W2054649340 @default.
W2023804543 cites W2065384588 @default.
W2023804543 cites W2068780254 @default.
W2023804543 cites W2070155357 @default.
W2023804543 cites W2070543132 @default.
W2023804543 cites W2071738514 @default.
W2023804543 cites W2081074698 @default.
W2023804543 cites W2084406633 @default.
W2023804543 cites W2086414747 @default.
W2023804543 cites W2087638038 @default.
W2023804543 cites W2088355263 @default.
W2023804543 cites W2099992963 @default.
W2023804543 cites W2106209450 @default.
W2023804543 cites W2106361045 @default.
W2023804543 cites W2109267317 @default.
W2023804543 cites W2112505121 @default.
W2023804543 cites W2113892795 @default.
W2023804543 cites W2126394436 @default.
W2023804543 cites W2126634468 @default.
W2023804543 cites W2126923232 @default.
W2023804543 cites W2138406651 @default.
W2023804543 cites W2140584985 @default.
W2023804543 cites W2143167573 @default.
W2023804543 cites W2145684092 @default.
W2023804543 cites W2155215582 @default.
W2023804543 cites W2164578725 @default.
W2023804543 cites W2792583460 @default.
W2023804543 doi "https://doi.org/10.1016/j.neuroscience.2007.10.006" @default.
W2023804543 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18160227" @default.
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