An intrinsic endothelial dysfunction causes cerebral small vessel disease

Author:

Quick SophieORCID,Procter Tessa V.ORCID,Moss Jonathan,Lawson Angus,Baker Serena,Walton Marc,Mohammad Mehreen,Mungall Will,Onishi Ami,Tobola Zuzanna,Stringer Michael,Jansen Maurits A.,Vallatos Antoine,Giarratano Ylenia,Bernabeu Miguel O.,Wardlaw Joanna M.ORCID,Williams Anna C.ORCID

Abstract

Small Vessel Disease (SVD) is the leading cause of vascular dementia, causes a quarter of strokes, and worsens stroke outcomes(1, 2). The disease is characterised by cerebral small vessel and white matter pathology, but the underlying mechanisms are poorly understood. Classically, the microvascular and tissue damage has been considered secondary to extrinsic factors, such as hypertension, consisting of microvessel stiffening, impaired vasoreactivity and blood-brain barrier dysfunction identified in human sporadic SVDs. However, increasing evidence points to an underlying vulnerability to SVD-related brain damage, not just extrinsic factors. Here, in a novel normotensive transgenic rat model where the phospholipase flippase Atp11b is deleted, we show pathological, imaging and behavioural changes typical of those in human sporadic SVD, but that occur without hypertension. These changes are due to an intrinsic endothelial cell dysfunction, identified in vessels of the brain white matter and the retina, with pathological evidence of vasoreactivity and blood-brain barrier deficits, which precipitate a secondary maturation block in oligodendroglia and myelin disruption around the small vessels. This highlights that an intrinsic endothelial dysfunction may underlie vulnerability to human sporadic SVD, providing alternative therapeutic targets to prevent a major cause of stroke and dementia.

Publisher

Cold Spring Harbor Laboratory

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