Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Leptin, the protein encoded by the obese gene, is a newly described hormone implicated in the regulation of energy balance. To examine the possible role of leptin in the energy dysregulation that frequently accompanies chronic heart failure, we examined plasma leptin concentrations and energy expenditure in 18 heart failure patients (aged 71 +/- 6 years) and 46 healthy elderly controls (66 +/- 6 years). Plasma leptin concentrations were measured by radioimmunoassay, daily energy expenditure by doubly labeled water, and body composition by dual-energy x-ray absorptiometry. Fat mass was lower (P < .01) in heart failure patients compared with healthy controls, whereas fat-free mass did not differ between groups. Plasma leptin concentrations were not different between heart failure patients and healthy controls (5.1 +/- 4.2 v 6.8 +/- 4.4 pg/mL) and remained similar after statistical control for fat mass (6.0 +/- 3.1 v 7.1 +/- 3.2 pg/mL). Plasma leptin was related to fat mass in heart failure patients (r = .92, P < .01) and healthy controls (r = .69, P < .01). Free-living daily and physical-activity energy expenditures were lower (P < .01) in heart failure patients compared with healthy controls. Plasma leptin concentrations were related to both daily (r = .67, P < .01) and resting (r = .67, P < .01) energy expenditure in heart failure patients, but not in healthy controls (r = .09 and r = .33, respectively). In conclusion, we found an association between plasma leptin concentrations and energy expenditure in heart failure patients, but not in healthy controls. Thus, leptin may participate in the regulation of energy expenditure and body energy stores in heart failure patients.
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PMID:Plasma leptin concentrations and energy expenditure in heart failure patients. 910 53

Cachexia is a strong predictor for mortality in patients with congestive heart failure. To investigate the role of leptin and regulators of apoptosis in cardiac cachexia we compared leptin concentrations and their relation to the TNF system, interleukin 1-beta (IL-1b), and soluble Fas in patients with heart failure with and without cachexia. Patients with cardiac cachexia have increased levels of interleukin-1b compared to non-cachectic heart failure patients [mean(S.E.)=1.11(0.62) vs. 0.02(0.02), P=0.01] and decreased concentrations of leptin [10.79(3.93) vs. 23.24 (8.35), P=0.1]. Leptin levels correlate with TNF-RI in cachectic heart failure patients (r=0.58, P=0.018). The TNF-RI levels were also correlated with Fas, both in all the patients taken together (r=0.5, P=0.006) and in those with cachexia (r=0.52, P=0.036). Our data indicate that more prospective studies are needed to clarify the role of leptin in the pathophysiology of heart failure cachexia.
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PMID:Leptin serum levels in cachectic heart failure patients. Relationship with tumor necrosis factor-alpha system. 1110 65

Patients with chronic heart failure (CHF) have metabolic abnormalities, leading to a catabolic syndrome, with progressive loss of skeletal muscle in advanced stages of the disease. Leptin, the product of an obesity gene, has been associated with energy expenditure and weight regulation. The aim of this study was to assess serum levels of leptin and its soluble receptor in relation to exercise intolerance and neurohumoral activation in patients with CHF. We investigated 53 patients with CHF left ventricular ejection fraction (LVEF) 25+/-1%, age 56.6+/-1.3 years, Maximal oxygen uptake (VO(2) max) 16.3+/-0.6 ml/min.kg) sub-classified according to peak oxygen consumption of > or <or=14 ml/min.kg and 11 age-matched controls (LVEF 70+/-1, age 60.5+/-4.0 years, (VO(2)max) 26.9+/-1.6 ml/min.kg). Body mass index-adjusted serum levels of leptin and soluble leptin receptor were increased in patients with CHF compared to the controls (0.28+/-0.03 vs. 0.22+/-0.04 ng.m(2)/ml.kg and 32.6+/-1.9 ng/ml vs. 22.9+/-2.3, P<0.05). This increase was even more pronounced in patients with CHF and severe exercise intolerance (0.43+/-0.08 vs. 0.21+/-0.02 and 0.22+/-0.04 ng.m(2)/ml.kg; P<0.01 vs. VO(2)max>14 ml/min.kg and controls). Elevated levels of leptin correlated with an increased serum concentration of TNFalpha (r=0.749, P<0.01) in this subgroup of patients with CHF. We conclude that patients with advanced CHF show elevated serum levels of leptin and its soluble receptor. This finding indicates that leptin may participate in the catabolic state leading to the development of cardiac cachexia in the course of CHF.
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PMID:Elevated serum levels of leptin and soluble leptin receptor in patients with advanced chronic heart failure. 1255 13

Obesity is a major risk factor for the development of heart failure. Importantly, it is now appreciated that a change in the number of myocytes is one of multiple structural and functional alterations (remodeling) leading to heart failure. Here we investigate the effect of leptin, the product of the obese (ob) gene, on proliferation of human and murine cardiomyocytes. Leptin caused a time- and dose-dependent significant increase in proliferation of HL-1 cells that was inhibited by preincubation with PD98059 and LY294002, suggesting that leptin mediated proliferation via extracellular signal-regulated kinase-1/2- and phosphatidylinositol-3-kinase-dependent signaling pathways. We confirmed that leptin activates both extracellular signal-regulated kinase-1/2 phosphorylation and association of phosphatidylinositol-3-kinase (regulatory p85 subunit) with phosphotyrosine immunoprecipitates. We also examined bromodeoxyuridine incorporation as a measure of new DNA synthesis and demonstrated a stimulatory effect of leptin in both HL-1 cells and human cardiomyocytes. Bromodeoxyuridine incorporation in HL-1 cells was inhibited by PD98059 and LY294002. Our results establish a mitogenic effect of leptin in cardiomyocytes and provide additional evidence for a potential direct link between leptin and cardiac remodeling in obesity.
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PMID:Leptin increases cardiomyocyte hyperplasia via extracellular signal-regulated kinase- and phosphatidylinositol 3-kinase-dependent signaling pathways. 1471 11

There are three injectable and one oral bone-building (i.e., bone anabolic) parathyroid hormone (PTH) peptides. One of the four, Lilly's injectable teriparatide (Forteo), is currently being used, and the other three are in clinical trials. They are being used or assessed only for treating postmenopausal osteoporosis. However, their potential clinical targets now extend far beyond osteoporosis. They can accelerate the mending of even severe non-union fractures; they will probably be used to strengthen the anchorage of pros-theses to bone; they have been shown to treat psoriasis that has resisted other treatments; they can increase the size of haematopoietic stem cell proliferation and accelerate the endogenous repopulation or repopulation by donor transplants of bone marrow depleted by chemotherapeutic drugs; and they may prevent vascular ossification. Leptin, a member of the cytokine superfamily has a PTH-like osteogenic activity and may even partly mediate PTH action. But leptin has two drawbacks that cloud its therapeutic future. First, apart from directly stimulating osteoblastic cells, it targets cells in the hypothalamic ventromedial nuclei and through them it reduces oestrogenic activity by promoting osteoblast-suppressing adrenergic activity. Second, it stimulates vascular and heart valve ossification, which leads to such events as heart failure and diabetic limb amputations.
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PMID:Parathyroid hormone and leptin--new peptides, expanding clinical prospects. 1583 57

Leptin and ghrelin are novel peptide hormones which are counter-regulatory in the central control of appetite. More recently, it has become clear that these hormones have a range of effects on the cardiovascular system. Leptin increases sympathetic activity, producing a pressor effect when acting on the central nervous system. However, leptin produces vasodilation by an endothelium-dependent mechanism peripherally. Ghrelin decreases sympathetic activity and has a depressor effect when acting on the central nervous system. Peripherally, ghrelin produces vasodilation by an endothelium-independent mechanism. Ghrelin improves left ventricular function and cardiac cachexia in heart failure. Leptin may contribute to cardiac cachexia, and to obesity-related cardiomyopathy by a variety of mechanisms. Leptin has pro-inflammatory, proliferative and calcification promoting effects in the vasculature. Ghrelin has recently been shown to be anti-inflammatory in the vasculature. Leptin may also produce a pro-thrombotic state through stimulation of platelet aggregation and inhibition of coagulation and fibrinolysis. The evidence for and against these effects as well as their pathophysiological significance in obesity hypertension, heart failure, atherosclerosis and thrombosis are discussed.
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PMID:The emerging roles of leptin and ghrelin in cardiovascular physiology and pathophysiology. 1585 36

Leptin, the product of the ob-gene, regulates cellular homeostasis and glycemic control. While initially described as an adipocyte-derived protein with expression and secretion restricted to adipose tissue, recent reports have shown local expression of leptin in several tissues including the skeletal muscle, heart, vessels and brain. Leptin acts through the different isoforms of its receptor which are ubiquitously expressed and can be detected in endothelium, vascular smooth muscle and myocardium. In addition to its metabolic effects, leptin has distinct effects in the cardiovascular system leading to increased production of proinflammatory cytokines and oxidative stress, vascular remodeling and neointima formation as well as cardiomyocyte hypertrophy. Notably, recent clinical studies have linked serum levels of leptin to the occurrence of cardiovascular events such as myocardial infarction and stroke suggesting that leptin promotes pro-atherogenic vascular mechanisms. In contrast, less is known about the role and effects of leptin in the setting of chronic heart failure. We here review the current knowledge on cardiovascular effects of leptin and discuss its potential as a new therapeutic tool in chronic heart failure.
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PMID:Leptin as a new diagnostic tool in chronic heart failure. 1600 50

Disruption of leptin signaling is associated with obesity, heart failure, and cardiac hypertrophy, but the role of leptin in cardiac myocyte apoptosis is unknown. We tested the hypothesis that apoptosis increases in leptin-deficient ob/ob and leptin-resistant db/db mice and is associated with aging and left ventricular hypertrophy, increased DNA damage, and decreased survival. We studied young (2- to 3-month-old) and old (12- to 14-month-old) ob/ob and db/db mice and wild-type (WT) controls (n=2 to 4 per group). As expected, ventricular wall thickness and heart weights were similar among young ob/ob, db/db, and WT mice, but higher in old ob/ob and db/db versus old WT. Young ob/ob and db/db showed markedly elevated apoptosis by TUNEL staining and caspase 3 levels compared with WT. Differences in apoptosis were further accentuated with age. Leptin treatment significantly reduced apoptosis in ob/ob mice both in intact hearts and isolated myocytes. Tissue triglycerides were increased in ob/ob hearts, returning to WT levels after leptin repletion. Furthermore, the DNA damage marker, 8oxoG (8-oxo-7,8-dihydroguanidine), was increased, whereas the DNA repair marker, MYH glycosylase, was decreased in old ob/ob and db/db compared with old WT mice. Both ob/ob and db/db mice had decreased survival compared with WT mice. We conclude that leptin-deficient and leptin-resistant mice demonstrate increased apoptosis, DNA damage, and mortality compared with WT mice, suggesting that normal leptin signaling is necessary to prevent excess age-associated DNA damage and premature mortality. These data offer novel insights into potential mechanisms of myocardial dysfunction and early mortality in obesity.
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PMID:Cardiac myocyte apoptosis is associated with increased DNA damage and decreased survival in murine models of obesity. 1633 84

Disruption of leptin signaling has been associated with both obesity and heart failure. We recently demonstrated that leptin deficiency in ob/ob mice and leptin insensitivity in db/db mice leads to increased myocyte apoptosis and left ventricular (LV) hypertrophy. We showed that LV mass, while similar among young ob/ob, db/db, and wild type (WT) mice, is significantly higher in old ob/ob and db/db versus WT. Ob/ob and db/db mice developed markedly increased rates of myocyte apoptosis by TUNEL and activated caspase-3 levels. An intriguing candidate for the study of obesity-associated cardiac hypertrophy and apoptosis is PI3K, which functions to not only regulate cell size but also maintain cell integrity through protection from apoptosis. Here we further show that ob/ob mice have decreased catalytic activity of phosphoinositide 3-kinase (PI3K) (p110alpha) which is reversed with leptin treatment. Leptin repletion in ob/ob mice also reduced both myocyte apoptosis and LV hypertrophy to WT levels. We have therefore concluded that normal leptin signaling is necessary to prevent age-related myocyte apoptosis and LV hypertrophy and that PI3K is a critical component of the leptin signaling axis. The decrease in p110alpha catalytic activity could explain the development of increased myocyte apoptosis and cardiac hypertrophy in these obese mouse models.
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PMID:Decreased p110alpha catalytic activity accompanies increased myocyte apoptosis and cardiac hypertrophy in leptin deficient ob/ob mice. 1823 69

Myocardial matrix remodeling is a well-recognized disease modifier in the pathogenesis of heart failure, although the precise underlying molecular mechanisms remain to be elucidated. Here we investigated the effects of leptin, circulating levels of which are typically increased in obese individuals, on MMP and collagen expression and MMP activity in isolated cardiac myofibroblasts. Neonatal rat myofibroblasts were treated with 6 nM recombinant leptin and the collected supernatant analyzed for MMP-2 activity via gelatin zymography. MMP-2, MT1-MMP and procollagen-I and -III protein expression were determined by western blotting and MMP-2 and MT1-MMP mRNA expression were examined utilizing real-time PCR. Procollagen-I levels were analyzed by confocal microscopy and collagen synthesis was determined through [(3)H]-proline incorporation. Exposure of myofibroblasts to leptin (24 h) significantly increased MMP-2 activity, while mRNA and protein levels remained unchanged. Leptin also significantly enhanced mRNA and protein expression of MT1-MMP, a known activator of MMP-2. Biotinylation assays indicated increased cell surface expression of MT1-MMP in response to leptin and use of a MT1-MMP inhibitor attenuated the leptin-mediated elevation of MMP-2 activity. Total cellular collagen synthesis was unaffected by leptin treatment, however intracellular procollagen-I protein was significantly increased in treated cells. Furthermore, extracellular soluble procollagen-I was increased, while a decrease in soluble procollagen-III protein was observed in conditioned media. In summary, these findings in isolated cardiac myofibroblasts support the suggestion that leptin may directly influence myocardial matrix metabolism, and this may represent a mechanism contributing to cardiac fibrosis in obese patients with elevated plasma leptin levels.
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PMID:Increased expression and cell surface localization of MT1-MMP plays a role in stimulation of MMP-2 activity by leptin in neonatal rat cardiac myofibroblasts. 1843 34


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