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Vascular Pericyte Impairment and Connexin43 Gap Junction Deficit Contribute to Vasomotor Decline in Diabetic Retinopathy.

The Journal of neuroscience : the official journal of the Society for Neuroscience (2017-07-05)
Elena Ivanova, Tamas Kovacs-Oller, Botir T Sagdullaev
RESUMEN

Adequate blood flow is essential to brain function, and its disruption is an early indicator in diseases, such as stroke and diabetes. However, the mechanisms contributing to this impairment remain unclear. To address this gap, in the diabetic and nondiabetic male mouse retina, we combined an unbiased longitudinal assessment of vasomotor activity along a genetically defined vascular network with pharmacological and immunohistochemical analyses of pericytes, the capillary vasomotor elements. In nondiabetic retina, focal stimulation of a pericyte produced a robust vasomotor response, which propagated along the blood vessel with increasing stimulus. In contrast, the magnitude, dynamic range, a measure of fine vascular diameter control, and propagation of vasomotor response were diminished in diabetic retinas from streptozotocin-treated mice. These functional changes were linked to several mechanisms. We found that density of pericytes and their sensitivity to stimulation were reduced in diabetes. The impaired response propagation from the stimulation site was associated with lower expression of connexin43, a major known gap junction unit in vascular cells. Indeed, selective block of gap junctions significantly reduced propagation but not initiation of vasomotor response in the nondiabetic retina. Our data establish the mechanisms for fine local regulation of capillary diameter by pericytes and a role for gap junctions in vascular network interactions. We show how disruption of this balance contributes to impaired vasomotor control in diabetes.SIGNIFICANCE STATEMENT Identification of mechanisms governing capillary blood flow in the CNS and how they are altered in disease provides novel insight into early states of neurological dysfunction. Here, we present physiological and anatomical evidence that both intact pericyte function as well as gap junction-mediated signaling across the vascular network are essential for proper capillary diameter control and vasomotor function. Changes to capillary blood flow precede other anatomical and functional hallmarks of diabetes establishing a significant window for prevention and treatment.

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Sigma-Aldrich
Anti-Connexin-43 antibody produced in rabbit, affinity isolated antibody, buffered aqueous solution