Multifaceted Mechanisms of Vascular Calcification in Aging

Pescatore, L; Gamarra, Lionel Fernel; Liberman, Marcel

doi:10.1161/atvbaha.118.311576

Cited by 111 publications

(94 citation statements)

References 126 publications

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“…In this way, atherosclerosis, as well as aging or age-related atherosclerosis, causes vascular wall senescence and, as a consequence, VC-the final step of the pathology process. Increased VC in atherosclerosis produces numerous marked vascular effects, such as a reduction of tissue perfusion, which eventually causes end-organ damage, particularly in the elderly population [125].…”

Section: Hif and Atherosclerosismentioning

confidence: 99%

Hypoxia-Inducible Factor-1α: The Master Regulator of Endothelial Cell Senescence in Vascular Aging

Alique

Sánchez-López

Bodega

et al. 2020

Cells

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Aging is one of the hottest topics in biomedical research. Advances in research and medicine have helped to preserve human health, leading to an extension of life expectancy. However, the extension of life is an irreversible process that is accompanied by the development of aging-related conditions such as weakness, slower metabolism, and stiffness of vessels. It also debated that aging can be considered an actual disease with aging-derived comorbidities, including cancer or cardiovascular disease. Currently, cardiovascular disorders, including atherosclerosis, are considered as premature aging and represent the first causes of death in developed countries, accounting for 31% of annual deaths globally. Emerging evidence has identified hypoxia-inducible factor-1α as a critical transcription factor with an essential role in aging-related pathology, in particular, regulating cellular senescence associated with cardiovascular aging. In this review, we will focus on the regulation of senescence mediated by hypoxia-inducible factor-1α in age-related pathologies, with particular emphasis on the crosstalk between endothelial and vascular cells in age-associated atherosclerotic lesions. More specifically, we will focus on the characteristics and mechanisms by which cells within the vascular wall, including endothelial and vascular cells, achieve a senescent phenotype.

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Section: Hif and Atherosclerosismentioning

confidence: 99%

Hypoxia-Inducible Factor-1α: The Master Regulator of Endothelial Cell Senescence in Vascular Aging

Alique

Sánchez-López

Bodega

et al. 2020

Cells

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“…Numerous studies have shown that risk factors accumulating during aging contribute to VSMC osteogenic differentiation and vascular calcification, such as increased levels of the cyclin-dependent kinase inhibitors p16 and p21, extracellular matrix remodelingrelated collagen deposition and elastin degradation, impaired DNA and increased levels of prelamin A and reactive oxygen species, and matrix vesicles released by injured endothelium [2][3][4][5]. Recently, reduced levels of aging-related calcification inhibitors such as matrix γcarboxyglutamic acid (Gla) protein (MGP), anti-aging and anti-calcification factor α-klotho and sirtuin 1 (sirt1), were found to greatly promote vascular calcification [6][7][8][9][10].…”

Section: Introductionmentioning

confidence: 99%

“…Our previous research showed that exogenous IMD1-53 may attenuate CKD-associated vascular calcification by upregulating α-klotho and vitamin D3 plus nicotine (VDN)-induced vascular calcification by increasing MGP in young rats [6,7]. In addition, IMD1-53 treatment could improve vascular function by increasing endothelial nitric oxide synthase activity [25] and inhibiting reactive oxygen species production [26], which may affect vascular aging [4]. However, whether IMD inhibits aging-associated vascular calcification is unclear.…”

Section: Introductionmentioning

confidence: 99%

Intermedin1-53 attenuates aging-associated vascular calcification in rats by upregulating sirtuin 1

Chen

Zhang

Ren

et al. 2020

Aging

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Vascular calcification is a common phenomenon in older adults. Intermedin (IMD) is a cardiovascular bioactive peptide inhibiting vascular calcification. In this study, we aimed to investigate whether IMD1-53 attenuates aging-associated vascular calcification. Vascular calcification was induced by vitamin D3 plus nicotine (VDN) in young and old rats. The calcification in aortas was more severe in old rats treated with VDN than young control rats, and IMD expression was lower. Exogenous administration of IMD1-53 significantly inhibited the calcium deposition in aortas and the osteogenic transdifferentiation of vascular smooth muscle cells (VSMCs) in VDNtreated old rats. Moreover, levels of aging-related p16, p21 and β-galactosidase were all greatly decreased by IMD1-53. These results were further confirmed in rat and human VSMCs in vitro. In addition, IMD-deficient mouse VSMCs showed senescence features coinciding with osteogenic transition as compared with wild-type mouse VSMCs. Mechanistically, IMD1-53 significantly increased the expression of the anti-aging factor sirtuin 1 (sirt1); the inhibitory effects of IMD1-53 on calcification and senescence were blocked by sirt1 knockdown. Furthermore, preincubation with inhibitors of PI3K, AMPK or PKA efficiently blunted the upregulatory effect of IMD1-53 on sirt1. Consequently, IMD1-53 could attenuate aging-associated vascular calcification by upregulating sirt1 via activating PI3K/Akt, AMPK and cAMP/PKA signaling.

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“…Aging attributes to vascular calcification through multifaceted mechanisms [19]. Several researchers reported similar results that advanced age and FBG were independently related to aortic calcification in non-rheumatic population [20][21][22][23].…”

Section: Discussionmentioning

confidence: 92%

Aortic calcification in patients with rheumatoid arthritis and ankylosing spondylitis: a cross-sectional case-control study

Zhang

Wang

Luo

et al. 2020

Preprint

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Objectives: Vascular calcification contributes to cardiovascular consequences in rheumatoid arthritis (RA) and ankylosing spondilytis (AS). This study was to evaluate the aortic calcification in RA and AS, and investigate possible risk factors. Methods: The in-patients with RA or AS were consecutively recruited from a general hospital. Control subjects were healthy population recruited from the same hospital. The aortic calcification score (ACS) was obtained by 256-slice spiral CT scanners using the Heart Beat-CS program (Philips Medical Systems, Cleveland Ohio, USA). Results: 146 RA patients, 97 AS patients and 200 controls were included. Serum triglyceride, cholesterol, urate, high and low density liptein cholesterols in RA or AS were all lower than that in controls. The ACS was higher in RA group than in AS and control groups. Only young (≤50 yrs) female AS had ACS higher than controls. Compared with the controls, RA increased the risk for aortic calcification by 4.72 (95% CI 2.78-7.99) fold after adjusted for age and sex. While AS in general, did not. Advanced age, male sex and elevated blood glucose were the risk factors for ACS in controls; advanced age, high C-reactive protein (CRP) and more co-morbidities were the risk factors in AS; and advanced age, long disease course, high DAS28(CRP) were risk factors in RA. Conclusions: Patients with RA or AS were more likely to develop aortic calcification compared with age and sex-matched healthy controls. Long disease course and high inflammatory criteria were risk factors, which advocate an intense control of disease associated systemic inflammation.

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Multifaceted Mechanisms of Vascular Calcification in Aging

Cited by 111 publications

References 126 publications

Hypoxia-Inducible Factor-1α: The Master Regulator of Endothelial Cell Senescence in Vascular Aging

Hypoxia-Inducible Factor-1α: The Master Regulator of Endothelial Cell Senescence in Vascular Aging

Intermedin1-53 attenuates aging-associated vascular calcification in rats by upregulating sirtuin 1

Aortic calcification in patients with rheumatoid arthritis and ankylosing spondylitis: a cross-sectional case-control study

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