Altered dynamics of neurovascular coupling in CADASIL

Huneau, Clément; Houot, Marion; Joutel, Anne; Béranger, Benoît; Giroux, Christian; Benali, Habib; Chabriat, Hugues

doi:10.1002/acn3.574

Cited by 31 publications

(23 citation statements)

References 40 publications

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“…Experimental studies have amply demonstrated that hypertension and aging, 2 leading risk factors for VaD and SVD, have profound impact on vessel wall structure and CBF regulation (57,58). Recent human studies using BOLD or arterial spin labeling-MRI provided convincing evidence that cerebrovascular reactivity is altered in patients with SVD (59,60). Moreover, a recent post-mortem study in patients with VaD showed that endothelium-dependent arteriolar dilation was significantly reduced in the WM-penetrating arterioles (61).…”

Section: Pathobiologymentioning

confidence: 99%

Vascular Cognitive Impairment and Dementia

Iadecola

Duering

Hachinski

et al. 2019

Journal of the American College of Cardiology

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483

386

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Cognitive impairment associated with aging has emerged as one of the major public health challenges of our time. Although Alzheimer’s disease is the leading cause of clinically diagnosed dementia in Western countries, cognitive impairment of vascular etiology is the second most common cause and may be the predominant one in East Asia. Furthermore, alterations of the large and small cerebral vasculature, including those affecting the microcirculation of the subcortical white matter, are key contributors to the clinical expression of cognitive dysfunction caused by other pathologies, including Alzheimer’s disease. This scientific expert panel provides a critical appraisal of the epidemiology, pathobiology, neuropathology, and neuroimaging of vascular cognitive impairment and dementia, and of current diagnostic and therapeutic approaches. Unresolved issues are also examined to shed light on new basic and clinical research avenues that may lead to mitigating one of the most devastating human conditions.

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Section: Pathobiologymentioning

confidence: 99%

Vascular Cognitive Impairment and Dementia

Iadecola

Duering

Hachinski

et al. 2019

Journal of the American College of Cardiology

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483

386

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“…Importantly, disturbances in blood flow and the processes that regulate it are increasingly appreciated to play a key role in a variety of pathological conditions. These include dementias such as Alzheimer's disease (AD) (Alsop et al, 2000;Iadecola, 2004;Nicolakakis and Hamel, 2011;Iturria-Medina et al, 2016), small vessel disease of the brain (Dabertrand et al, 2015;Capone et al, 2016;Huneau et al, 2018), psychological conditions such as schizophrenia (Mathew et al, 1988;Zhu et al, 2017) and chronic stress (Longden et al, 2014;Han et al, 2019), plus diabetes (Mogi and Horiuchi, 2011;Vetri et al, 2012), hypertension (Girouard and Iadecola, 2006;Capone et al, 2012), and stroke (Girouard and Iadecola, 2006;Koide et al, 2012;Balbi et al, 2017), and pericytes appear to be exceptionally sensitive to pathological perturbations (Winkler et al, 2011).…”

Section: Control Of Pericyte V M By Pericyte Ion Channels and Gpcrs-cmentioning

confidence: 99%

The Ion Channel and GPCR Toolkit of Brain Capillary Pericytes

Hariharan

Weir

Robertson

et al. 2020

Front. Cell. Neurosci.

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Brain pericytes reside on the abluminal surface of capillaries, and their processes cover ~90% of the length of the capillary bed. These cells were first described almost 150 years ago (Eberth, 1871; Rouget, 1873) and have been the subject of intense experimental scrutiny in recent years, but their physiological roles remain uncertain and little is known of the complement of signaling elements that they employ to carry out their functions. In this review, we synthesize functional data with single-cell RNAseq screens to explore the ion channel and G protein-coupled receptor (GPCR) toolkit of mesh and thin-strand pericytes of the brain, with the aim of providing a framework for deeper explorations of the molecular mechanisms that govern pericyte physiology. We argue that their complement of channels and receptors ideally positions capillary pericytes to play a central role in adapting blood flow to meet the challenge of satisfying neuronal energy requirements from deep within the capillary bed, by enabling dynamic regulation of their membrane potential to influence the electrical output of the cell. In particular, we outline how genetic and functional evidence suggest an important role for Gs-coupled GPCRs and ATP-sensitive potassium (KATP) channels in this context. We put forth a predictive model for long-range hyperpolarizing electrical signaling from pericytes to upstream arterioles, and detail the TRP and Ca2+ channels and Gq, Gi/o, and G12/13 signaling processes that counterbalance this. We underscore critical questions that need to be addressed to further advance our understanding of the signaling topology of capillary pericytes, and how this contributes to their physiological roles and their dysfunction in disease.

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“…Cerebral hypoperfusion, particularly in the white matter, has been documented in sporadic SVDs and CADASIL, although it is not yet clear whether a reduction in CBF is a causative factor or a secondary response to the reduced metabolic demand of the injured brain (41). Furthermore, functional MRI studies have provided convincing evidence that cerebrovascular reactivity-the CBF increase in response to neuronal activation or a vasodilatory stimulus, such as inhaled carbon dioxide (CO2)-is an early alteration in patients with sporadic SVD or CADASIL (40,42).…”

Section: Reduced Cerebral Blood Flowmentioning

confidence: 99%

Prospects for Diminishing the Impact of Nonamyloid Small-Vessel Diseases of the Brain

Joutel

2020

Annu. Rev. Pharmacol. Toxicol.

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Small-vessel diseases (SVDs) of the brain are involved in about one-fourth of ischemic strokes and a vast majority of intracerebral hemorrhages and are responsible for nearly half of dementia cases in the elderly. SVDs are a heavy burden for society, a burden that is expected to increase further in the absence of significant therapeutic advances, given the aging population. Here, we provide a critical appraisal of currently available therapeutic approaches for nonamyloid sporadic SVDs that are largely based on targeting modifiable risk factors. We review what is known about the pathogenic mechanisms of vascular risk factor–related SVDs and cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL), the most frequent hereditary SVD, and elaborate on two mechanism-based therapeutic approaches worth exploring in sporadic SVD and CADASIL. We conclude by discussing opportunities and challenges that need to be tackled if efforts to achieve significant therapeutic advances for these diseases are to be successful.

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Altered dynamics of neurovascular coupling in CADASIL

Cited by 31 publications

References 40 publications

Vascular Cognitive Impairment and Dementia

Vascular Cognitive Impairment and Dementia

The Ion Channel and GPCR Toolkit of Brain Capillary Pericytes

Prospects for Diminishing the Impact of Nonamyloid Small-Vessel Diseases of the Brain

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