Role of Osteoprotegerin in Arterial Calcification

Orita, Yuichi; Yamamoto, Hideya; Kohno, Nobuoki; Sugihara, Masaaki; Honda, Hiroaki; Kawamata, Seiichi; Mito, Shinji; Soe, Nwe Nwe; Yoshizumi, Masao

doi:10.1161/atvbaha.107.147868

Cited by 70 publications

(56 citation statements)

References 42 publications

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“…110 OPG was shown to inhibit ALP activity in aortic tissue and prevent the progression of medial layer vascular calcification. 111 Similar results were observed in the diabetic LdlrϪ/Ϫ mouse model, showing again OPG administration diminishes vascular calcium accumulation, potentially through immunomodulatory actions upon dietinduced low-grade mural inflammation. 112 Although little is known about the direct effect of OPG on VSMCs, it is important to understand further its role in osteogenesis and its involvement in the inflammatory response, which is important for the osteoblastic differentiation of VSMCs.…”

Section: Osteopontinsupporting

confidence: 66%

Vascular Calcification

Mizobuchi¹,

Towler²,

Slatopolsky³

2009

Journal of the American Society of Nephrology

471

352

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Section: Osteopontinsupporting

confidence: 66%

Vascular Calcification

Mizobuchi¹,

Towler²,

Slatopolsky³

2009

Journal of the American Society of Nephrology

471

352

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“…In this context, the use of either recombinant OPG or a monoclonal antibody against RANKL has been very powerful at alleviating bone erosion in the above mentioned diseases [49,[51][52][53][54][55]. Moreover, recent studies have also shown that the OPG/RANKL ratio plays an important role in controlling vascular calcification [56][57][58][59]: a low OPG/RANKL ratio was correlated with increased vascular smooth muscle cell calcification.…”

Section: Discussionmentioning

confidence: 99%

Differential modulation of RANKL isoforms by human osteoarthritic subchondral bone osteoblasts: Influence of osteotropic factors

Tat

Pelletier

Lajeunesse

et al. 2008

Bone

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Background-Osteoarthritis (OA) is the most common human joint disease. Recent studies suggest that an abnormal subchondral bone metabolism is intimately involved in the genesis of this disease. Bone remodelling is tightly regulated by a molecular triad composed of OPG/RANK/ RANKL. RANKL exists as 3 isoforms: RANKL1, 2, and 3. RANKL1 and 2 enhance osteoclastogenesis whereas RANKL3 inhibits this phenomenon. We previously reported that human OA subchondral bone osteoblasts can be discriminated into two subgroups according to their level of PGE 2 [low (L) or high (H)]. Moreover, we also showed that L-OA osteoblasts express higher levels of total RANKL compared to H-OA osteoblasts. In this study, we investigated the level of membranous RANKL, comparing L-and H-OA subchondral bone osteoblasts, as well as its modulation by osteotropic factors. The impact of the modulation of RANKL1 and 3 on the membranous RANKL level was also studied.

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“…14 These findings are in further agreement with the frequent arterial dissection and rupture in mouse models with aortic vascular calcification. 15,16 Thus, vascular calcification introduces compliance mismatch that can promote mechanical failure due to stress concentration at the interfaces of calcium deposits with softer plaque components.…”

Section: Clinical Impact Of Arterial Calcificationmentioning

confidence: 99%

Vascular Calcification

2008

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M ost individuals aged Ͼ60 years have progressively enlarging deposits of calcium mineral in their major arteries. 1 This vascular calcification reduces aortic and arterial elastance, which impairs cardiovascular hemodynamics, resulting in substantial morbidity and mortality [2][3][4] in the form of hypertension, aortic stenosis, cardiac hypertrophy, myocardial and lower-limb ischemia, congestive heart failure, and compromised structural integrity. [5][6][7] The severity and extent of mineralization reflect atherosclerotic plaque burden 8 and strongly and independently predict cardiovascular morbidity and mortality. 9 Previously considered passive and degenerative, vascular calcification is now recognized as a pathobiological process sharing many features with embryonic bone formation. As evidence of this change in paradigm, research on vascular calcification has accelerated dramatically in the past decade. A search of PubMed (www.ncbi.nlm.nih.gov; US National Library of Medicine) under the key words vascular calcification returned Ϸ16 articles in 1982, 100 in 1994, and 250 in 2004. This year, 400 new publications are expected, for a total Ͼ3500.A breakthrough in this field was the recognition of its similarity to bone development and metabolism, in which endothelial, mesenchymal, and hematopoietic cells interact and respond to mechanical, inflammatory, metabolic, and morphogenetic signals governing skeletal mineralization; their counterparts in the artery wall govern arterial mineralization. With increasing age and dysmetabolic conditions in our population, the clinical burden of vascular calcification will continue to increase. Clinical Impact of Arterial CalcificationAortic calcification promotes congestive heart failure by eroding compliance and elastance. The hemodynamic demands of the cardiovascular system require that the aorta store energy in its elastance during systole and release it during diastole, which minimizes cardiac work and is the basis for balloon counterpulsation. This function, known as Windkessel physiology, is reflected in the high density of elastin in the arch, where mechanical energy is highest. Its loss is detectable as increased arterial pulse wave velocity in calcified arteries, resulting in thoracic summation of reflected and orthograde pressure waves, thereby increasing systolic and pulse pressures. It also increases cardiac work, promoting heart failure, left ventricular hypertrophy, and diastolic dysfunction, independently of atherosclerosis, aging, or diabetes. The link between aortic rigidity and heart failure is most evident in the hypertensive cardiomyopathy observed in patients with idiopathic infantile arterial calcification and in animal models with aortic banding.In the aortic valve, calcification produces life-threatening aortic stenosis. Although previously considered a passive, degenerative, untreatable disorder of "wear and tear" unrelated to atherosclerosis, recent findings now show that valvular calcification is regulated in a manner similar to that of atheroscler...

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Role of Osteoprotegerin in Arterial Calcification

Cited by 70 publications

References 42 publications

Vascular Calcification

Vascular Calcification

Differential modulation of RANKL isoforms by human osteoarthritic subchondral bone osteoblasts: Influence of osteotropic factors

Vascular Calcification

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