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001-es BibID:	BIBFORM085246
Első szerző:	Tarantini, Stefano
Cím:	Insulin-like growth factor 1 deficiency exacerbates hypertension-induced cerebral microhemorrhages in mice, mimicking the aging phenotype / Tarantini Stefano, Valcarcel-Ares Noa M., Yabluchanskiy Andriy, Springo Zsolt, Fulop Gabor A., Ashpole Nicole, Gautam Tripti, Giles Cory B., Wren Jonathan D., Sonntag William E., Csiszar Anna, Ungvari Zoltan
Dátum:	2017
ISSN:	1474-9718 1474-9726
Megjegyzések:	Clinical and experimental studies show that aging exacerbates hypertension-induced cerebral microhemorrhages (CMHs), which progressively impair neuronal function. There is growing evidence that aging promotes insulin-like growth factor 1 (IGF-1) deficiency, which compromises multiple aspects of cerebromicrovascular and brain health. To determine the role of IGF-1 deficiency in the pathogenesis of CMHs, we induced hypertension in mice with liver-specific knockdown of IGF-1 (Igf1f/f + TBGCre-AAV8) and control mice by angiotensin II plus L-NAME treatment. In IGF-1-deficient mice, the same level of hypertension led to significantly earlier onset and increased incidence and neurological consequences of CMHs, as compared to control mice, as shown by neurological examination, gait analysis, and histological assessment of CMHs in serial brain sections. Previous studies showed that in aging, increased oxidative stressmediated matrix metalloprotease (MMP) activation importantly contributes to the pathogenesis of CMHs. Thus, it is significant that hypertension-induced cerebrovascular oxidative stress and MMP activation were increased in IGF-1-deficient mice. We found that IGF-1 deficiency impaired hypertension-induced adaptive media hypertrophy and extracellular matrix remodeling, which together with the increased MMP activation likely also contributes to increased fragility of intracerebral arterioles. Collectively, IGF-1 deficiency promotes the pathogenesis of CMHs, mimicking the aging phenotype, which likely contribute to its deleterious effect on cognitive function. Therapeutic strategies that upregulate IGF-1 signaling in the cerebral vessels and/or reduce microvascular oxidative stress, and MMP activation may be useful for the prevention of CMHs, protecting cognitive function in high-risk elderly patients.
Tárgyszavak:	Orvostudományok Elméleti orvostudományok idegen nyelvű folyóiratközlemény külföldi lapban folyóiratcikk arteriole dementia gait dysfunction microbleed oxidative stress
Megjelenés:	Aging Cell. - 16 : 3 (2017), p. 469-479. -
További szerzők:	Valcarcel Ares, Marta Noa Yabluchanskiy, Andriy Springó Zsolt Fülöp Gábor Áron (1988-) (általános orvos) Ashpole, Nicole Gautam, Tripti Giles, Cory B. Wren, Jonathan D. Sonntag, William E. Csiszár Anna Ungvári Zoltán
Internet cím:	Szerző által megadott URL DOI Intézményi repozitóriumban (DEA) tárolt változat
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001-es BibID:	BIBFORM076739
035-os BibID:	(cikkazonosító)e12731 (WoS)000427234300020 (Scopus)85041585148
Első szerző:	Tarantini, Stefano
Cím:	Treatment with the mitochondrial-targeted antioxidant peptide SS-31 rescues neurovascular coupling responses and cerebrovascular endothelial function and improves cognition in aged mice / Stefano Tarantini, Noa M. Valcarcel-Ares, Andriy Yabluchanskiy, Gabor A. Fulop, Peter Hertelendy, Tripti Gautam, Eszter Farkas, Aleksandra Perz, Peter S. Rabinovitch, William E. Sonntag, Anna Csiszar, Zoltan Ungvari
Dátum:	2018
ISSN:	1474-9718
Megjegyzések:	Moment-to-moment adjustment of cerebral blood flow (CBF) via neurovascular coupling has an essential role in maintenance of healthy cognitive function. In advanced age, increased oxidative stress and cerebromicrovascular endothelial dysfunction impair neurovascular coupling, likely contributing to age-related decline of higher cortical functions. There is increasing evidence showing that mitochondrial oxidative stress plays a critical role in a range of age-related cellular impairments, but its role in neurovascular uncoupling remains unexplored. This study was designed to test the hypothesis that attenuation of mitochondrial oxidative stress may exert beneficial effects on neurovascular coupling responses in aging. To test this hypothesis, 24-month-old C57BL/6 mice were treated with a cell-permeable, mitochondria-targeted antioxidant peptide (SS-31; 10 mg kg-1 day-1 , i.p.) or vehicle for 2 weeks. Neurovascular coupling was assessed by measuring CBF responses (laser speckle contrast imaging) evoked by contralateral whisker stimulation. We found that neurovascular coupling responses were significantly impaired in aged mice. Treatment with SS-31 significantly improved neurovascular coupling responses by increasing NO-mediated cerebromicrovascular dilation, which was associated with significantly improved spatial working memory, motor skill learning, and gait coordination. These findings are paralleled by the protective effects of SS-31 on mitochondrial production of reactive oxygen species and mitochondrial respiration in cultured cerebromicrovascular endothelial cells derived from aged animals. Thus, mitochondrial oxidative stress contributes to age-related cerebromicrovascular dysfunction, exacerbating cognitive decline. We propose that mitochondria-targeted antioxidants may be considered for pharmacological microvascular protection for the prevention/treatment of age-related vascular cognitive impairment (VCI).
Tárgyszavak:	Orvostudományok Klinikai orvostudományok idegen nyelvű folyóiratközlemény külföldi lapban folyóiratcikk aging cerebral circulation endothelial dysfunction oxidative stress vascular cognitive impairment
Megjelenés:	Aging Cell. - 17 : 2 (2018), p. 1-12. -
További szerzők:	Valcarcel Ares, Marta Noa Yabluchanskiy, Andriy Fülöp Gábor Áron (1988-) (általános orvos) Hertelendy Péter Gautam, Tripti Farkas Eszter Perz, Aleksandra Rabinovitch, Peter S. Sonntag, William E. Csiszár Anna Ungvári Zoltán
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