Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0007222 (cardiovascular disease)
 65,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Angiogenic cell therapy with the transplantation of endothelial progenitor cells (EPC) or bone marrow mononuclear cells (BM-MNC) receives considerable attention as an approach to revascularize ischemic tissues. Adiponectin is a circulating hormone produced by the apM1 gene in adipocytes. Adiponectin modulates lipid metabolism and obesity, and it was recently found to promote physiological angiogenesis in response to ischemia. Patients with multiple cardiovascular disease risk factors or myocardial infarction may benefit from progenitor cell therapy, but they display depressed adiponectinemia. We hypothesized that adiponectin stimulation of transplanted cells is critical for their pro-angiogenic function. We aimed to establish whether adiponectinemia in the cell donor or in the cell recipient determines the success of pro-angiogenic cell therapy. In vitro, we found that conditioned media derived from wild-type adipocytes (adipo-CM) or purified adiponectin strongly enhanced BM-MNC survival and proliferation and stimulated EPC differentiation, whereas adipo-CM from apM1-/- adipocytes was one-half less effective. On the other hand, wild-type and apM1-/- BM-MNC displayed similar resistance to apoptosis and proliferation rates. In vivo, wild-type, and apM1-/- BM-MNC induced similar angiogenic reactions in wild-type ischemic hindlimbs. In contrast, wild-type BM-MNC had much diminished effects in apM1-/- ischemic hindlimbs. We concluded that adiponectin enhances BM-MNC survival and proliferation, and adiponectinemia in the cell therapy recipient is essential for the pro-angiogenic benefits of cell therapy. These observations imply that progenitor cell transplantation might only induce angiogenesis in patients with high adiponectinemia.
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PMID:Adiponectinemia controls pro-angiogenic cell therapy. 1978 8

Obesity, particularly abdominal adiposity, is increasingly recognized as a cause of elevated cardiometabolic risk--the risk of developing type 2 diabetes mellitus (DM) and cardiovascular disease (CVD). The predominate mechanisms appear to involve the promotion of insulin resistance, driven largely by excess free fatty acids secreted by an expanded adipose tissue mass, and the development of an inflammatory milieu due to increased secretion of inflammatory cytokines and adipokines from adipose tissue. Key proinflammatory cytokines secreted by adipocytes include tumor necrosis factor-alpha, interleukin-6, leptin, resistin, and plasminogen activator inhibitor-1. All have been variously associated with hyperinsulemia, hyperglycemia, insulin resistance, diabetes, and endothelial dysfunction, as well as plaque development, progression, and rupture. Adiponectin, another important adipocyte, has protective cardiometabolic actions; however, adiponectin levels decline with increasing obesity. Understanding the role of obesity in the pathogenesis of cardiometabolic risk is crucial for the development of treatment strategies that will provide maximum benefit for patients with, or at risk for, type 2 DM and CVD.
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PMID:Overweight and obesity: the pathogenesis of cardiometabolic risk. 1978 62

The metabolic syndrome (MetS) is a common basis for the development of atherogenic cardiovascular disease. Adiponectin has been demonstrated to be insulin-sensitizing and an anti-atherogenic factor and is considered a key ofMetS. It was suggested that IL-10 may be involved in the inflammatory network of MetS in relation to adiponectin. We examined the relationship between adiponectin, IL-10 and MetS in pediatric obese patients. MetS components were assessed in 70 severely obese and 30 non-obese children and adolescents. Serum levels of adiponectin and IL-10 were measured in these subjects. Serum adiponectin levels were significantly lower (p < 0.001) and levels of IL-10 were significantly higher (p = 0.012) in obese subjects. MetS was present in 35.71% of obese patients. Patients with MetS showed a borderline significant decrease in serum adiponectin levels and significantly increased IL-10 levels when compared to those without MetS (p = 0.051 and p = 0.031, respectively); the differences in adiponectin and IL-10 values were controlled to the effect of BMI. No correlation between adiponectin and IL-10 levels was found. Our obese children showed hypoadiponectin and hyper-IL10 values. MetS was not associated with low IL-10. We probably observe a first phase of the complex mechanism implicated in the development of the MetS in children.
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PMID:Adiponectin, IL-10 and metabolic syndrome in obese children and adolescents. 1984 48

Adiponectin is an adipokine secreted by differentiated adipocytes. Clinical studies suggest a negative correlation between oxidative stress and adiponectin levels in patients with metabolic syndrome or cardiovascular disease. Natural compounds that can prevent oxidative stress mediated inhibition of adiponectin may be potentially therapeutic. Boldine, an aporphine alkaloid abundant in the medicinal plant Peumus boldus, is a powerful antioxidant. The current study demonstrates the effects of boldine on the expression of adiponectin and its regulators, CCAAT/enhancer binding protein-alpha (C/EBPalpha) and peroxisome proliferator-activated receptor (PPAR)-gamma, in 3T3-L1 cells. Differentiated 3T3-L1 adipocytes were exposed to either hydrogen peroxide (H(2)O(2)) (100 microM) or tumor necrosis factor-alpha (TNFalpha) (1 ng/mL) for 24 hours in the presence or absence of increasing concentrations of boldine (5-100 microM). Quantitative polymerase chain reaction showed that both the oxidants decreased the mRNA levels of adiponectin, PPARgamma, and C/EBPalpha to half of the control levels. Boldine, at all concentrations, counteracted the inhibitory effect of H(2)O(2) or TNFalpha and increased the expression of adiponectin and its regulators. The effect of boldine on adiponectin expression was biphasic, with the lower concentrations (5-25 microM) having a larger inductive effect compared to higher concentrations (50-100 microM). Boldine treatment alone in the absence of H(2)O(2) or TNFalpha was also able to induce adiponectin at the inductive phase of adipogenesis. Peroxisome proliferator response element-luciferase promoter transactivity analysis showed that boldine interacts with the PPAR response element and could potentially modulate PPAR responsive genes. Our results indicate that boldine is able to modulate the expression of adiponectin and its regulators in 3T3-L1 cells and has the potential to be beneficial in obesity-related cardiovascular disease.
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PMID:The aporphine alkaloid boldine induces adiponectin expression and regulation in 3T3-L1 cells. 1985 72

Adiponectin is an adipose tissue-secreted endogenous insulin sensitizer, which plays a key role as a mediator of peroxisome proliferator-activated receptor gamma action. Adiponectin alters glucose metabolism and insulin sensitivity, exhibits antiinflammatory and antiatherogenic properties, and has been linked to several malignancies. Circulating concentrations of adiponectin are determined primarily by genetic factors, nutrition, exercise, and abdominal adiposity. Adiponectin concentrations are lower in subjects with obesity, metabolic syndrome, and cardiovascular disease. Adiponectin knockout mice manifest glucose intolerance, insulin resistance, and hyperlipidemia and tend to develop malignancies especially when on high-fat diets. Animal studies have also shown beneficial effects of adiponectin in rodents in vivo. Circulating concentrations of adiponectin are lower in patients with diabetes, cardiovascular disease, and several malignancies. Studies to date provide promising results for the diagnostic and therapeutic role of adiponectin in obesity, insulin resistance, diabetes, cardiovascular disease, and obesity-associated malignancies.
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PMID:Adiponectin in insulin resistance: lessons from translational research. 1990 6

It is established that the adipocyte-derived cytokine adiponectin protects against cardiovascular and metabolic diseases, but the effect of this adipokine on macrophage polarization, an important mediator of disease progression, has never been assessed. We hypothesized that adiponectin modulates macrophage polarization from that resembling a classically activated M1 phenotype to that resembling alternatively-activated M2 cells. Peritoneal macrophages and the stromal vascular fraction (SVF) cells of adipose tissue isolated from adiponectin knock-out mice displayed increased M1 markers, including tumor necrosis factor-alpha, interleukin-6, and monocyte chemoattractant protein-1 and decreased M2 markers, including arginase-1, macrophage galactose N-acetyl-galactosamine specific lectin-1, and interleukin-10. The systemic delivery of adenovirus expressing adiponectin significantly augmented arginase-1 expression in peritoneal macrophages and SVF cells in both wild-type and adiponectin knock-out mice. In culture, the treatment of macrophages with recombinant adiponectin protein led to an increase in the levels of M2 markers and a reduction of reactive oxygen species and reactive oxygen species-related gene expression. Adiponectin also stimulated the expression of M2 markers and attenuated the expression of M1 markers in human monocyte-derived macrophages and SVF cells isolated from human adipose tissue. These data show that adiponectin functions as a regulator of macrophage polarization, and they indicate that conditions of high adiponectin expression may deter metabolic and cardiovascular disease progression by favoring an anti-inflammatory phenotype in macrophages.
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PMID:Adiponectin promotes macrophage polarization toward an anti-inflammatory phenotype. 2002 77

Adiponectin is an adipokine (adipocyte-derived hormone) with multiple salutary effects. It is secreted into the circulation as low molecular weight (LMW) and high molecular weight (HMW) multimers with the latter being more metabolically active. Extensive post-translational modifications (PTMs) are required for efficient adiponectin multimerisation and secretion. Recent studies have identified novel PTMs that contribute to the efficacy of adiponectin production and clearance. Thiol-mediated retention of adiponectin occurs during transit through the ER, via direct interactions with chaperones including ERp44 and DsbA-L, and facilitates multimerisation and secretion. Interestingly, this appears to be in direct competition with adiponectin succination. Adiponectin is also subject to O-glycosylation/sialylation which affects clearance from the circulation. In contrast to most adipokines, reduced adiponectin levels, particularly HMW, contribute to the aetiology of obesity-related diseases such as type 2 diabetes and cardiovascular disease. Strategies that modulate processes governing PTM of adiponectin represent attractive therapeutic approaches.
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PMID:Adiponectin--it's all about the modifications. 2004 26

Cardiovascular disease (CVD) remains a major cause of premature death in patients with chronic kidney disease (CKD), including renal transplant recipients. Both interplay of traditional cardiovascular and renal specific risk factors have been shown to be associated with an increased risk of cardiovascular death in patients with CKD. Recently, there has been great interest in the role of novel biomarkers, in particular adiponectin and leptin, and its association with CVD in the CKD population. Adiponectin is a multifunctional adipocyte-derived protein with anti-inflammatory, antiatherogenic and insulin sensitizing activity. Recent observational studies have shown adiponectin to be a novel risk marker of CVD in patients with stages 1 to 5 CKD. Leptin is an adipocyte-derived hormone that promotes weight loss by decreasing food intake. Similarly, there are observational studies to support an association between leptin and CVD, including patients with CKD. In the CKD population, leptin may be associated with uremic cachexia and subsequent increased mortality. This review aims to summarize the pathophysiological and potential clinical roles of these cardiovascular biomarkers in patients with CKD.
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PMID:The role of novel biomarkers of cardiovascular disease in chronic kidney disease: focus on adiponectin and leptin. 2006 36

Although obesity is a major background of life style-related diseases such as diabetes mellitus, lipid disorder, hypertension and cardiovascular disease, the extent of whole body fat accumulation does not necessarily the determinant for the occurrence of these diseases. We developed the method for body fat analysis using CT scan and established the concept of visceral fat obesity, in other word metabolic syndrome in which intra-abdominal visceral fat accumulation has an important role in the development of diabetes, lipid disorder, hypertension and atherosclerosis. In order to clarify the mechanism that visceral fat accumulation causes metabolic and cardiovascular diseases, we have analyzed gene expression profile in subcutaneous adipose tissue and visceral adipose tissue. From the analysis, we found that adipose tissue, especially visceral adipose tissue expressed abundantly the genes encoding bioactive substances such as cytokines, growth factors and complements. In addition to known bioactive substances, we found a novel collagen-like protein which we named adiponectin. Adiponectin is present in plasma at a very high concentration and is inversely associated with visceral fat accumulation. Adiponectin has anti-diabetic, anti-hypertensive and anti-atherogenic properties and recent studies revealed that this protein has an anti-inflammatory and anti-oncogenic function. Therefore hypoadiponectinemia induced by visceral fat accumulation should become a strong risk factor for metabolic and cardiovascular diseases and also some kinds of cancers.In this review article, I would like to discuss the mechanism of life style-related diseases by focusing on the dysregulation of adiponectin related to obesity, especially visceral obesity.
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PMID:Establishment of a concept of visceral fat syndrome and discovery of adiponectin. 2015 70

Adiponectin is an adipose tissue-derived adipokine abundant in human plasma. Increasing evidence from experimental studies suggests that adiponectin plays a protective role in the cardiovascular system. However, epidemiological studies revealed that high levels of adiponectin were associated with increased mortality and severity of congestive heart failure. Furthermore, several prospective studies indicated that high levels of adiponectin were positively correlated with increased total and cardiovascular disease mortality in the elderly. These results are completely opposite to our expectation based on the beneficial effects of adiponectin. Clinical observations demonstrated that plasma adiponectin levels were positively associated with B-type natriuretic peptide levels. Clinical and experimental studies indicated that the administration of atrial natriuretic peptide enhanced adiponectin production. It is still controversial whether increased adiponectin production is a bystander or a key mediator in the development of heart failure. However, recent investigations strongly suggest that increased adiponectin production in patients with heart failure is a part of compensatory mechanisms against oxidative stress and inflammation. In addition, complicated "adiponectin resistance" will accelerate a counter-regulatory increase in adiponectin in patients with advanced heart failure, although direct evidence that patients with heart failure have "adiponectin resistance" is still lacking. Increased adiponectin production might contribute, at least in part, to the metabolic and structural remodeling of the failing heart via activation of AMP-activated protein kinase and induction of cyclooxygenase-2. Further investigation is needed to clarify the exact role of increased adiponectin production under pathophysiological conditions.
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PMID:Is adiponectin a bystander or a mediator in heart failure? The tangled thread of a good-natured adipokine in aging and cardiovascular disease. 2020 4


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