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Vascular ?1A Adrenergic Receptors as a Potential Therapeutic Target for IPAD in Alzheimer's Disease.


ABSTRACT: Drainage of interstitial fluid from the brain occurs via the intramural periarterial drainage (IPAD) pathways along the basement membranes of cerebral capillaries and arteries against the direction of blood flow into the brain. The cerebrovascular smooth muscle cells (SMCs) provide the motive force for driving IPAD, and their decrease in function may explain the deposition of amyloid-beta as cerebral amyloid angiopathy (CAA), a key feature of Alzheimer's disease. The ?-adrenoceptor subtype ?1A is abundant in the brain, but its distribution in the cerebral vessels is unclear. We analysed cultured human cerebrovascular SMCs and young, old and CAA human brains for (a) the presence of ?1A receptor and (b) the distribution of the ?1A receptor within the cerebral vessels. The ?1A receptor was present on the wall of cerebrovascular SMCs. No significant changes were observed in the vascular expression of the ?1A-adrenergic receptor in young, old and CAA cases. The pattern of vascular staining appeared less punctate and more diffuse with ageing and CAA. Our results show that the ?1A-adrenergic receptor is preserved in cerebral vessels with ageing and in CAA and is expressed on cerebrovascular smooth muscle cells, suggesting that vascular adrenergic receptors may hold potential for therapeutic targeting of IPAD.

SUBMITTER: Frost M 

PROVIDER: S-EPMC7560129 | biostudies-literature | 2020 Sep

REPOSITORIES: biostudies-literature

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Vascular α1A Adrenergic Receptors as a Potential Therapeutic Target for IPAD in Alzheimer's Disease.

Frost Miles M   Keable Abby A   Baseley Dan D   Sealy Amber A   Andreea Zbarcea Diana D   Gatherer Maureen M   Yuen Ho Ming HM   Sharp Matt MacGregor MM   Weller Roy O RO   Attems Johannes J   Smith Colin C   Chiarot Paul R PR   Carare Roxana O RO  

Pharmaceuticals (Basel, Switzerland) 20200922 9


Drainage of interstitial fluid from the brain occurs via the intramural periarterial drainage (IPAD) pathways along the basement membranes of cerebral capillaries and arteries against the direction of blood flow into the brain. The cerebrovascular smooth muscle cells (SMCs) provide the motive force for driving IPAD, and their decrease in function may explain the deposition of amyloid-beta as cerebral amyloid angiopathy (CAA), a key feature of Alzheimer's disease. The α-adrenoceptor subtype α<sub  ...[more]

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