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Literature DB >> 33875602

PIP₂ corrects cerebral blood flow deficits in small vessel disease by rescuing capillary Kir2.1 activity.

Fabrice Dabertrand^1,2,3, Osama F Harraz^4,5, Masayo Koide^4,5, Thomas A Longden⁴, Amanda C Rosehart^4,2, David C Hill-Eubanks⁴, Anne Joutel^4,6,7, Mark T Nelson^1,5,8.

Abstract

Cerebral small vessel diseases (SVDs) are a central link between stroke and dementia-two comorbidities without specific treatments. Despite the emerging consensus that SVDs are initiated in the endothelium, the early mechanisms remain largely unknown. Deficits in on-demand delivery of blood to active brain regions (functional hyperemia) are early manifestations of the underlying pathogenesis. The capillary endothelial cell strong inward-rectifier K+ channel Kir2.1, which senses neuronal activity and initiates a propagating electrical signal that dilates upstream arterioles, is a cornerstone of functional hyperemia. Here, using a genetic SVD mouse model, we show that impaired functional hyperemia is caused by diminished Kir2.1 channel activity. We link Kir2.1 deactivation to depletion of phosphatidylinositol 4,5-bisphosphate (PIP2), a membrane phospholipid essential for Kir2.1 activity. Systemic injection of soluble PIP2 rapidly restored functional hyperemia in SVD mice, suggesting a possible strategy for rescuing functional hyperemia in brain disorders in which blood flow is disturbed.

Entities: Chemical Disease Gene Species

Keywords: CADASIL; PIP2; cerebral small vessel diseases; functional hyperemia; potassium channel

Year: 2021 PMID： 33875602 DOI： 10.1073/pnas.2025998118

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

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Cited

10 in total

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4. PIP₂ as the "coin of the realm" for neurovascular coupling.

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Journal: Proc Natl Acad Sci U S A Date: 2021-05-25 Impact factor: 11.205

Review 5. Toolbox for studying neurovascular coupling in vivo, with a focus on vascular activity and calcium dynamics in astrocytes.

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Journal: Neurophotonics Date: 2022-03-14 Impact factor: 4.212

Review 6. Inward Rectifier Potassium Channels: Membrane Lipid-Dependent Mechanosensitive Gates in Brain Vascular Cells.

Authors: Maria Sancho; Jacob Fletcher; Donald G Welsh
Journal: Front Cardiovasc Med Date: 2022-03-28

7. CADASIL mutations sensitize the brain to ischemia via spreading depolarizations and abnormal extracellular potassium homeostasis.

Authors: Fumiaki Oka; Jeong Hyun Lee; Izumi Yuzawa; Mei Li; Daniel von Bornstaedt; Katharina Eikermann-Haerter; Tao Qin; David Y Chung; Homa Sadeghian; Jessica L Seidel; Takahiko Imai; Doga Vuralli; Rosangela M Platt; Mark T Nelson; Anne Joutel; Sava Sakadzic; Cenk Ayata
Journal: J Clin Invest Date: 2022-04-15 Impact factor: 19.456

8. Alzheimer's disease and cerebrovascular pathology alter inward rectifier potassium (K_IR 2.1) channels in endothelium of mouse cerebral arteries.

Authors: María Lacalle-Aurioles; Lianne J Trigiani; Miled Bourourou; Clotilde Lecrux; Edith Hamel
Journal: Br J Pharmacol Date: 2022-02-10 Impact factor: 9.473

9. Neurovascular coupling mechanisms in health and neurovascular uncoupling in Alzheimer's disease.

Authors: Winston M Zhu; Ain Neuhaus; Daniel J Beard; Brad A Sutherland; Gabriele C DeLuca
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10. Differential restoration of functional hyperemia by antihypertensive drug classes in hypertension-related cerebral small vessel disease.

Authors: Masayo Koide; Osama F Harraz; Fabrice Dabertrand; Thomas A Longden; Hannah R Ferris; George C Wellman; David C Hill-Eubanks; Adam S Greenstein; Mark T Nelson
Journal: J Clin Invest Date: 2021-09-15 Impact factor: 14.808

10 in total