Literature DB >> 27729477

Blood-Brain Barrier Disruption and Neurovascular Unit Dysfunction in Diabetic Mice: Protection with the Mitochondrial Carbonic Anhydrase Inhibitor Topiramate.

Therese S Salameh1, Gul N Shah1, Tulin O Price1, Melvin R Hayden1, William A Banks2.   

Abstract

All forms of diabetes mellitus are characterized by chronic hyperglycemia, resulting in the development of a number of microvascular and macrovascular pathologies. Diabetes is also associated with changes in brain microvasculature, leading to dysfunction and ultimately disruption of the blood-brain barrier (BBB). These changes are correlated with a decline in cognitive function. In diabetes, BBB damage is associated with increased oxidative stress and reactive oxygen species. This occurs because of the increased oxidative metabolism of glucose caused by hyperglycemia. Decreasing the production of bicarbonate with the use of a mitochondrial carbonic anhydrase inhibitor (mCAi) limits oxidative metabolism and the production of reactive oxygen species. In this study, we have demonstrated that 1) streptozotocin-induced diabetes resulted in BBB disruption, 2) ultrastructural studies showed a breakdown of the BBB and changes to the neurovascular unit (NVU), including a loss of brain pericytes and retraction of astrocytes, the two cell types that maintain the BBB, and 3) treatment with topiramate, a mCAi, attenuated the effects of diabetes on BBB disruption and ultrastructural changes in the neurovascular unit. U.S. Government work not protected by U.S. copyright.

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Year:  2016        PMID: 27729477      PMCID: PMC5118649          DOI: 10.1124/jpet.116.237057

Source DB:  PubMed          Journal:  J Pharmacol Exp Ther        ISSN: 0022-3565            Impact factor:   4.030


  33 in total

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Journal:  Endocrinology       Date:  2012-07-20       Impact factor: 4.736

4.  High glucose-induced mitochondrial respiration and reactive oxygen species in mouse cerebral pericytes is reversed by pharmacological inhibition of mitochondrial carbonic anhydrases: Implications for cerebral microvascular disease in diabetes.

Authors:  Gul N Shah; Yoichi Morofuji; William A Banks; Tulin O Price
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  33 in total

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Review 5.  Mechanisms in blood-brain barrier opening and metabolism-challenged cerebrovascular ischemia with emphasis on ischemic stroke.

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6.  Insulin sensing by astrocytes is critical for normal thermogenesis and body temperature regulation.

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7.  Locomotor mal-performance and gait adaptability deficits in sickle cell mice are associated with vascular and white matter abnormalities and oxidative stress in cerebellum.

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9.  Sickle cell disease mice have cerebral oxidative stress and vascular and white matter abnormalities.

Authors:  Alfia Khaibullina; Luis E F Almeida; Sayuri Kamimura; Patricia M Zerfas; Meghann L Smith; Sebastian Vogel; Paul Wakim; Olavo M Vasconcelos; Martha M Quezado; Iren Horkayne-Szakaly; Zenaide M N Quezado
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Review 10.  Physiological and Pathological Factors Affecting Drug Delivery to the Brain by Nanoparticles.

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