Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the present study, we examined the expression of regulators of bone formation and osteoclastogenesis in human atherosclerosis because accumulating evidence suggests that atherosclerotic calcification shares features with bone calcification. The most striking finding of this study was the constitutive immunoreactivity of matrix Gla protein, osteocalcin, and bone sialoprotein in nondiseased aortas and the absence of bone morphogenetic protein (BMP)-2, BMP-4, osteopontin, and osteonectin in nondiseased aortas and early atherosclerotic lesions. When atherosclerotic plaques demonstrated calcification or bone formation, BMP-2, BMP-4, osteopontin, and osteonectin were upregulated. Interestingly, this upregulation was associated with a sustained immunoreactivity of matrix Gla protein, osteocalcin, and bone sialoprotein. The 2 modulators of osteoclastogenesis (osteoprotegerin [OPG] and its ligand, OPGL) were present in the nondiseased vessel wall and in early atherosclerotic lesions. In advanced calcified lesions, OPG was present in bone structures, whereas OPGL was only present in the extracellular matrix surrounding calcium deposits. The observed expression patterns suggest a tight regulation of the expression of bone matrix regulatory proteins during human atherogenesis. The expression pattern of both OPG and OPGL during atherogenesis might suggest a regulatory role of these proteins not only in osteoclastogenesis but also in atherosclerotic calcification.
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PMID:Differential expression of bone matrix regulatory proteins in human atherosclerotic plaques. 1174 76

Patients with vascular calcifications often have low bone mineral density (BMD), but it is still uncertain if osteoporosis and peripheral vascular disease (VD) are interrelated and linked by a common pathomechanism. Moreover, data on bone turnover in patients with advanced atherosclerosis are lacking. We measured BMD by dual-energy X-ray absorptiometry (DXA) and quantitative bone ultrasound (QUS), as well as the serum levels of osteocalcin (OC), bone-specific alkaline phosphatase (BAP), osteoprotegerin (OPG) and its ligand RANKL, and the urinary concentration of the C-terminal telopeptides of type I collagen (CrossLaps), in 36 patient (20 male and 16 female) with serious atherosclerotic involvement of the carotid and/or femoral artery to investigate the underlying mechanism of vascular and osseous disorders. Thirty age-matched and gender matched healthy individuals served as controls. After adjustment for age, BMD was significantly reduced at the lumbar spine in 23/36 (63%) patients (mean T score -1.71+/-1.42) and at the proximal femur in 34/36 (93%) patients (neck mean T score -2.5+/-0.88). Ten patients (27%) had abnormal QUS parameters. Gender and diabetes had no effect on the relationship between vascular calcification and bone density at any site measured. VD subjects had OC and BAP serum levels lower than controls (13.3+/-3.1 vs 27.7+/-3.3 ng/ml, P<0.01, and 8.4+/-2.3 vs 12.5+/-1.4 microg/l, P<0.01, respectively). Urinary CrossLaps excretion was not significantly different in patients with VD and in controls (257.9+/-138.9 vs 272.2+/-79.4 micro g/mmol Cr, respectively). Serum OPG and RANKL levels were similar in patients and in controls (3.5+/-1.07 vs 3.4+/-1.05 pmol/l, and 0.37+/-0.07 vs 0.36+/-0.06 pmol/l, respectively). We proved high occurrence of osteoporosis in VD, with evidence of age and gender independence. Negative bone remodelling balance would be a consequence of reduced bone formation, with no apparent increased activation of the OPG-RANKL system.
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PMID:Low bone density and abnormal bone turnover in patients with atherosclerosis of peripheral vessels. 1466 Oct 73

Osteoporosis is associated with both atherosclerosis and vascular calcification. No mechanism yet explains the parallel progression of these diseases. Here, we demonstrate that osteoclasts (OCL) depend on lipoproteins to modulate cellular cholesterol levels and that this controls OCL formation and survival. Removal of cholesterol in OCL via high-density lipoprotein or cyclodextrin treatment dose-dependently induced apoptosis, with actin disruption, nuclear condensation and caspase-3 activation. One mechanism linked to the induction of OCL apoptosis was the cell-type-specific failure to induce HMG-CoA reductase mRNA expression, suggesting an absence of feedback regulation of de novo cholesterol biosynthesis. Furthermore, cyclodextrin treatment substantially suppressed essential M-CSF and RANKL-induced survival signaling pathways via Akt, mTOR and S6K. Consistent with these findings, cholesterol delivery via low-density lipoprotein (LDL) significantly increased OCL viability. Interestingly, OCLs from the LDL receptor (LDLR)-/- mouse exhibited reduced size and lifespan in vitro. Remarkably, LDLR+/+ OCL in lipoprotein-deficient medium phenocopied LDLR-/- OCL, while fusion and spreading of LDLR-/- OCL was rescued when cholesterol was chemically delivered during differentiation. With hyperlipidemia being associated with disease of the vascular system and bone, these findings provide novel insights into the selective lipoprotein and cholesterol dependency of the bone resorbing cell. Cell Death and Differentiation (2004) 11, S108-S118. doi:10.1038/sj.cdd.4401399 Published online 12 March 2004
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PMID:Osteoclast formation, survival and morphology are highly dependent on exogenous cholesterol/lipoproteins. 1524 77

Vascular calcification often occurs with advancing age, atherosclerosis, various metabolic disorders such as diabetes mellitus and end-stage renal disease, or in rare genetic diseases, leading to serious clinical consequences. Such mineralization can occur at various sites (cardiac valves, arterial intima or media, capillaries), involve localized or diffuse widespread calcification, and result from numerous causes that provoke active inflammatory and osteogenic processes or disordered mineral homeostasis. Although valuable research has defined many key factors and cell types involved, surprising new insights continue to arise that deepen our understanding and suggest novel research directions or strategies for clinical intervention in calcific vasculopathies. One emerging area in vascular biology involves the RANKL/RANK/OPG system, molecules of the tumor necrosis factor-related family recently discovered to be critical regulators of immune and skeletal biology. Evidence is accumulating that such signals may be expressed, regulated, and function in vascular physiology and pathology in unique ways to promote endothelial cell survival, angiogenesis, monocyte or endothelial cell recruitment, and smooth muscle cell osteogenesis and calcification. Concerted research efforts are greatly needed to understand these potential roles, clarify whether RANKL (receptor activator of nuclear factor kappaB ligand) promotes and osteoprotegerin (OPG) protects against vascular calcification, define how OPG genetic polymorphisms relate to cardiovascular disease, and learn whether elevated serum OPG levels reflect endothelial dysfunction in patients. Overall, the RANKL/RANK/OPG system may mediate important and complex links between the vascular, skeletal, and immune systems. Thus, these molecules may play a central role in regulating the development of vascular calcification coincident with declines in skeletal mineralization with age, osteoporosis, or disease.
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PMID:Regulation of vascular calcification by osteoclast regulatory factors RANKL and osteoprotegerin. 1556 64

Artery calcification occurring in atherosclerosis is connected with a high risk of cardiovascular events. Quantitative calcification evaluation using electron beam tomography indicated a correlation between artery calcification and well-known cardiovascular risk factors, i.e. smoking, obesity, and hyperlipidemia. Elevated calcium scores are especially observed in diabetic patients, which may even explain the higher mortality in this group. Calcification leads to increased blood vessel rigidity and, consequently, elevated arterial vascular resistance and left ventricular hypertrophy. An increased risk of plaque rupture in relation to calcium-rich atherosclerotic lesions was not proved. Plaque rupture and thromboembolitic complications are probably higher in the case of lipid-rich lesions. Atherosclerotic calcification is an active process in which many cells (monocytes/macrophages, vascular smooth muscle cells, and endothelial cells) participate. Many substances and transcription factors normally participating in the bone remodeling process are found in calcified atherosclerotic lesions (e.g. Cbfa-1, osteocalcin, alkaline phosphatase, BMP-2, osteopontin, osteoprotegrin, and RANKL). On monocytes, cells playing an important role in atherosclerosis progression, the presence of a calcium-sensing receptor (CaR) has been demonstrated. Increase in monocyte chemotaxis and increased interleukin 6 secretion in response to extracellular calcium were observed. Monocytes also directly and indirectly enhance vascular calcification. Immune cells and cytokines participating in vascular calcification are connected in one pathogenetic mechanism, i.e. atherosclerosis as an inflammatory disease and calcification.
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PMID:[The role of calcium ions in the pathomechanism of the artery calcification accompanying atherosclerosis]. 1576 85

Adiponectin, an adipose-derived hormone, exhibits various biological functions, such as increasing insulin sensitivity, protecting hypertension, and suppression of atherosclerosis, liver fibrosis, and tumor growth. Here, we report the role of adiponectin on bone metabolism. C57BL/6J mice were treated with adenovirus expressing lacZ or adiponectin, and their bones were analyzed by three-dimensional microcomputed tomography. Adiponectin-adenovirus treatment increased trabecular bone mass, accompanied by decreased number of osteoclasts and levels of plasma NTx, a bone-resorption marker. In vitro studies showed that adiponectin inhibited M-CSF- and RANKL-induced differentiation of mouse bone marrow macrophages and human CD14-positive mononuclear cells into osteoclasts and also suppressed the bone-resorption activity of osteoclasts. Furthermore, adiponectin enhanced mRNA expression of alkaline phosphatase and mineralization activity of MC3T3-E1 osteoblasts. Our results indicate that adiponectin exerts an activity to increase bone mass by suppressing osteoclastogenesis and by activating osteoblastogenesis, suggesting that adiponectin manipulation could be therapeutically beneficial for patients with osteopenia.
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PMID:Adiponectin increases bone mass by suppressing osteoclast and activating osteoblast. 1585 Jul 90

The cardiovascular risk of patients undergoing dialysis is 20-30 times higher than that of individuals of the same age, without abnormal renal function, from the general population. Observational studies of patients with normal and abnormal renal function have shown that there is an association between bone disease, vascular calcification and cardiovascular outcome and that worsening of these conditions happens in parallel. Basic science studies are elucidating several mechanisms that could explain the interaction between bone disease, vascular calcification and cardiovascular outcome. For example, the expression of osteoprotegerin-a protein that regulates bone resorption by binding receptor activator of nuclear factor kappaB (RANK) ligand (RANKL), thus preventing interaction with the receptor RANK and the stimulation of osteoclast maturation-is regulated by several cytokines. Additionally, osteoprotegerin seems involved in the genesis of atherosclerosis. Imbalances of bone mineral metabolism, bone matrix secretion and vascular smooth-muscle-cell apoptosis seem involved in the ossification of the arterial wall in chronic kidney disease, and could explain some of the complex interactions between bone and vascular disease in renal failure. In this article we present a brief review of some of the basic mechanisms involved in vascular calcification and the clinical evidence of an association of vascular and bone disease.
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PMID:Interaction of vascular and bone disease in patients with normal renal function and patients undergoing dialysis. 1718 Jan 47

Atherosclerosis and vascular calcification often co-exist in chronic kidney disease (CKD) patients. Although the former has been recently recognized as an active inflammatory process, atherosclerosis-related calcification of the intima is still viewed as a passive epiphenomenon. Recent experimental data showed that ossification of the internal vascular wall might also be an active inflammatory process interrelated to atherosclerosis. Factors like RANKL (receptor activator of nuclear factor kappaB ligand), RANK and osteoprotegerin modulate vascular calcification and at the same time are involved in the process of atherosclerosis. Moreover, basic calcium phosphate crystals could interact with and activate monocytes-macrophages that produce proinflammatory cytokines capable of initiating - via endothelial activation and leukocyte adhesion - the atherosclerotic process. Thus, vascular calcification might be an active player and not simply an epiphenomenon in atherosclerosis. Should the above-mentioned data be confirmed in future studies, calcification of the internal vascular wall and atherosclerosis might be viewed and treated as tightly interconnected and linked by inflammation processes in CKD patients.
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PMID:Is inflammation the link between atherosclerosis and vascular calcification in chronic kidney disease? 1726 26

Fundamental cytokine regulating remodelation of the skeleton is receptor activator of nuclear factor kappa B ligand (RANKL). RANKL is counter regulated by soluble receptor osteoprotegerin (OPG). While RANKL activates osteoclastic bone resorption, the OPG stimulates bone formation. RANKL/OPG system (TRANCE axis) is activated in favour of RANKL in estrogen deficiency, inflammation, bone malignancies and during the treatment with glucocorticoids. TRANCE axis is functional also in other tissues including vessel wall, where dysbalance with superiority of RANKL leads to atherogenesis. Molecules blocking RANKL (specific antibodies and OPG) are potential drugs for treatment of osteoporosis, atherosclerosis, inflammation diseases, myeloma or osteolytic bone metastases. This review is focused on pathogenetic role of TRANCE axis in the development of osteoporosis and atherosclerosis and on its use in diagnosis and treatment of both degenerative diseases.
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PMID:[Osteoporosis and aterosclerosis--is there any pathogenetic association?]. 1741 8

Vascular calcification, a degenerative process considered in the past to be a passive procedure, has now been suggested to be related to ossification. Many proteins responsible for bone formation have been identified on the arterial wall. The OPG/RANKL/RANK axis, responsible for ossification and bone mineralization, seems to play a major role in vasculature and atherosclerosis. Mice lacking OPG gene present osteoporosis and arterial calcification, while overexpression of OPG gene leads to osteopetrosis. In the present review the latest knowledge related to the effects of the OPG/RANKL/RANK axis on vasculature, including atherosclerosis, will be analyzed. The clinical significance of circulating OPG and RANKL levels in vascular diseases will also be referred.
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PMID:Role of OPG/RANKL/RANK axis on the vasculature. 1822 7


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