Pharmacologically induced impairment of neurovascular coupling responses alters gait coordination in mice

Tarantini, Stefano; Yabluchanksiy, Andriy; Fülöp, Gábor; Hertelendy, Péter; Valcarcel‐Ares, Marta Noa; Kiss, Tamás; Bagwell, Jonathan M.; O’Connor, Daniel H.; Farkas, Eszter; Sorond, Farzaneh A.; Csiszár, Anna; Ungvári, Zoltán

doi:10.1007/s11357-017-0003-x

Cited by 47 publications

(50 citation statements)

References 101 publications

(149 reference statements)

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“…Recent evidence has suggested that the accumulation of senescent astrocytes may drive neurodegenerative disorders (Di Malta et al 2012) and recent work shows that clearance of senescent glial cells may help with by preventing the accumulation of Tau aggregates and prevent cognitive decline in mouse models (Bussian et al 2018;Baker and Petersen 2018). Pre-clinical studies have shown that pharmacological impairment of astrocytic function recapitulates cognitive deficits that are observed in old age (Tarantini et al 2017a). It is also noteworthy that irradiation-induced accumulation of senescent cells is associated with neurovascular dysfunction in animal models (Ungvari et al 2017).…”

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confidence: 99%

Astrocyte senescence contributes to cognitive decline

Csípő¹,

Lipécz²,

Ashpole³

et al. 2019

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mentioning

confidence: 99%

Astrocyte senescence contributes to cognitive decline

Csípő¹,

Lipécz²,

Ashpole³

et al. 2019

GeroScience

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“…Neurovascular coupling (functional hyperemia) is a critical homeostatic mechanism that ensures adequate adjustment of cerebral blood flow to increases in the oxygen and nutrient demands of activated neurons (Ungvari et al 2017a;Csiszar et al 2017;Tarantini et al 2017b;Tarantini et al 2017c). Several cardiovascular risk factors promote cognitive decline by impairing neurovascular coupling.…”

Section: Measurement Of Neurovascular Coupling Responsesmentioning

confidence: 99%

“…There is strong evidence that impairment of neurovascular coupling responses associates with cognitive decline (Tarantini et al 2015;Tarantini et al 2017c). Neurovascular coupling responses are sensitive to a wide range of cardiovascular risk factors (Tarantini et al 2019;Tarantini et al 2018a;Toth et al 2014Toth et al , 2015bTarantini et al 2017dTarantini et al , 2018bToth et al 2017;Tucsek et al 2014b), including changes in the hemodynamic environment (De Silva and Faraci 2012;Dunn and Nelson 2014;Faraco et al 2016;Kazama et al 2004).…”

Section: Jugular Vein Ligation Does Not Affect Neurovascular Couplingmentioning

confidence: 99%

Cerebral venous congestion promotes blood-brain barrier disruption and neuroinflammation, impairing cognitive function in mice

et al. 2019

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“…Recent advances in the study of cellular and molecular processes underlying neurovascular coupling has allowed for developing novel therapeutic strategies to restore microvascular blood flow, rescue neurovascular responses, and thus improving cognition in older individuals (62,64). Endothelial dysfunction is pervasive during vascular aging, thus it is likely that interventional strategies that improve cerebral blood flow will exert beneficial effects on other vascular beds as well in older individuals (62,72).…”

Section: Advances In Cardiovascular Agingmentioning

confidence: 99%

Advances and challenges in geroscience research: An update

et al. 2018

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Aging remains the most pervasive risk factor for a wide range of chronic diseases that afflict modern societies. In the United States alone, incidence of age-related diseases (e.g., cardiovascular disease, stroke, Alzheimer’s disease, vascular cognitive impairment and dementia, cancer, hypertension, type-2 diabetes, chronic obstructive pulmonary disease, and osteoarthritis) is on the rise, posing an unsustainable socioeconomic burden even for the most developed countries. Tackling each and every age-related disease alone is proving to be costly and ineffective. The emerging field of geroscience has posed itself as an interdisciplinary approach that aims to understand the relationship between the biology of aging and the pathophysiology of chronic age-related diseases. According to the geroscience concept, aging is the single major risk factor that underlies several age-related chronic diseases, and manipulation of cellular and systemic aging processes can delay the manifestation and/or severity of these age-related chronic pathologies. The goal of this endeavor is to achieve health improvements by preventing/delaying the pathogenesis of several age-related diseases simultaneously in the elderly population by targeting key cellular and molecular processes of aging instead of managing diseases of aging as they arise individually. In this review, we discuss recent advances in the field of geroscience, highlighting their implications for potential future therapeutic targets and the associated scientific challenges and opportunities that lay ahead.

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Pharmacologically induced impairment of neurovascular coupling responses alters gait coordination in mice

Cited by 47 publications

References 101 publications

Astrocyte senescence contributes to cognitive decline

Astrocyte senescence contributes to cognitive decline

Cerebral venous congestion promotes blood-brain barrier disruption and neuroinflammation, impairing cognitive function in mice

Advances and challenges in geroscience research: An update

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