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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Leptin is a hormone which controls fat metabolism. Leptin plasma levels and adipose tissue mRNA expression were measured in cancer patients. Plasma levels were correlated with TNM staging, cachexia parameters, tumour markers and hormones. Breast and colorectal cancer patients showed blood plasma levels of insulin, TNF-alpha and tumour markers higher than controls. Breast cancer patients, but not colorectal cancer patients, had plasma levels and adipose tissue expression of leptin significantly higher than controls associated with elevated values of estrogen- and progesterone-receptors. These data suggest the possible use of leptin as a clinical marker.
Int J Mol Med 2000 Apr
PMID:Leptin expression in colorectal and breast cancer patients. 1071 61

This paper reviews the general mechanisms by which leptin acts as a regulator of lipid reserves through changes in food intake, energy expenditure and fuel selection, with an emphasis on its direct effects on cellular lipid metabolism. Briefly, when leptin levels increase, food consumption decreases via modulation of hypothalamic neuropeptides. As well, normal decreases in energy expenditures (e.g. with diurnal cycles or reduced caloric intake) do not occur. This is probably caused by an increase in mitochondrial proton leak mediated by leptin via increases in sympathetic nervous system stimulation and thyroid hormone release. The decrease in caloric input coupled with relatively higher energy expenditure, therefore, leads to negative energy balance. Leptin also changes the fuel source from which ATP is generated. Fuel preference switches from carbohydrate (glucose) to lipid (fatty acids). This effect arises through stimulation of triacylglycerol catabolism by leptin. In vitro studies show that leptin is a potent stimulator of lipolysis and fatty acid oxidation in adipocytes and other cell types. Consequently, leptin is also a regulator of cellular triacylglycerol content. Hormonal regulation of leptin, as well as its role in fasting and seasonal weight gain and energy expenditure are also briefly discussed.
Comp Biochem Physiol A Mol Integr Physiol 2000 Mar
PMID:Leptin: an essential regulator of lipid metabolism. 1079 58

Insulin regulates expression and production of leptin in rodents but whether this is also true in humans remains unclear. To test the effects of acute hyperinsulinemia on expression of leptin mRNA in humans, percutaneous needle biopsies of abdominal subcutaneous adipose tissue were performed at baseline and immediately following a 200-min two-step hyperinsulinemic-euglycemic glucose clamp in 16 Pima Indians (8M/8F). Leptin mRNA was quantified by reverse transcription, PCR amplification and expressed relative to actin mRNA. Leptin mRNA levels were higher in women than men (25.6 +/- 1.7 v 16.9 +/- 2.1 relative units, P = 0.003) at baseline. Baseline levels were directly related to percentage body fat (r = 0.54, P = 0. 03) and fasting plasma glucose concentrations (r = 0.57, P = 0.02) and were negatively correlated to glucose disposal at physiologic insulin concentrations (750 +/- 40 pmol/L) during the clamp (r = -0. 51, P = 0.04). Acute hyperinsulinemia (final insulin concentration 11560 +/- 950 pmol/L) increased leptin mRNA levels in 13 of 16 individuals an average of 13% (21.3 +/- 1.7 to 24.2 +/- 1.2 relative units, P = 0.01). Changes in leptin mRNA were directly related to glucose disposal rates during physiologic hyperinsulinemia (r = 0.54, P < 0.04). These results suggest that the expression of leptin mRNA is regulated by insulin in humans, as it is in rodents.
Mol Genet Metab 2000 May
PMID:Insulin increases leptin mRNA expression in abdominal subcutaneous adipose tissue in humans. 1083 28

Leptin and its receptor are involved in endocrine and paracrine regulation of metabolism, obesity and reproduction. Here, we describe the detection of the functional long isoform receptor of leptin in human endometrium. The leptin receptor protein was shown to be expressed in glandular and luminal epithelium and is periodically regulated throughout the menstrual cycle, demonstrating main expression in follicular and mid-luteal phase. In contrast, leptin receptor mRNA is detectable by reverse transcription-polymerase chain reaction (RT-PCR) as a constitutive component. Since RT-PCR analyses showed that leptin is not expressed in this tissue, the present study suggests that the human endometrium is a novel target for leptin. Therefore, we investigated 11 subfertile patients who underwent two biopsies in one menstrual cycle. The patients presented with a repetitive endometrial maturation defect, but showed adequate serum hormone concentrations and normal steroid hormone receptor expression and down-regulation in the endometrium. These patients were, however, deficient for expression of the functional leptin receptor. These analyses provide evidence that the lack of the leptin receptor in an ovulatory cycle may contribute to subfertility by a yet undefined 'endometrial factor'.
Mol Hum Reprod 2000 Jul
PMID:The endometrium as a novel target for leptin: differences in fertility and subfertility. 1087 46

Leptin expression in third trimester placenta (p) and leptin concentrations in umbilical cord blood (cb) were investigated in normal pregnancies [n = 10 (p), 31 (cb)] and abnormal pregnancies complicated with (i) maternal insulin-dependent diabetes [IDDM: n = 3 (p), 13 (cb)], (ii) gestational diabetes [GD: n = 2 (p), 10 (cb)] and (iii) fetal growth retardation [FGR: n = 5 (p), 5 (cb)]. By in-situ hybridization and immunohistochemistry, placental leptin mRNA and protein were co-localized to the syncytiotrophoblast and villous vascular endothelial cells. Leptin receptor was immunolocalized to the syncytiotrophoblast. Relative to controls, the FGR group was characterized by low concentrations of placental and cord blood leptin. In a twin pregnancy, the normal-sized infant exhibited more placental and cord blood leptin than its growth-retarded twin. In contrast, both diabetic groups exhibited high concentrations of placental leptin mRNA and protein. The IDDM group exhibited the highest concentrations of leptin in cord blood. No change was observed in the expression of the leptin receptor in either the growth-retarded or diabetic pregnancies. In conclusion, the localization of placental leptin suggests that it may be released into both maternal and fetal blood. Furthermore, in fetal growth-retarded and diabetic pregnancies, the changes in leptin expression in the placenta and in leptin concentrations in umbilical cord blood appear to be related.
Mol Hum Reprod 2000 Aug
PMID:Placental leptin in normal, diabetic and fetal growth-retarded pregnancies. 1090 88

The hormone leptin is implicated in the regulation of appetite and body weight in rodents, primates and humans. We reported that the leptin gene (ob) is expressed in the brain, but the factors which control ob expression in the central nervous system are not known. We previously showed that brain-derived rat C6 glioblastoma cells express ob mRNA and protein. In the present study we examined the regulation of ob expression in C6 cells. Leptin and leptin receptor immunoreactivity was detected in C6 cells, suggesting a possible autocrine role for leptin. The identity of the leptin immunoreactivity (OB-ir) in C6 cells was confirmed by immunoprecipitation and Western blotting using two leptin specific polyclonal antibodies. Using RT-PCR analysis a product of the expected size for the short, but not the long, leptin receptor isoform was detected in C6 cells. Cells were maintained in serum-free (SF) media for 0-24 h in the presence of various regulators of leptin expression. Leptin mRNA levels were significantly higher in cells treated with dbcAMP (1 mM), IGF 1 (100 ng/ml) or insulin (5 microg/ml) compared to SF controls. In contrast, corticosterone (10(-7)M) reduced leptin mRNA. In the presence of dbcAMP, C6 cells undergo a dramatic alteration in morphology which is coincident with an apparent increase in the number of leptin-ir nuclei and an increase in leptin immunoreactivity. In contrast to C6 cells, glucocorticoids are reported to increase leptin levels in adipocytes/adipose tissue, while increases in intracellular cAMP levels are reported to reduce leptin levels. Overall, our in vitro data suggest that the regulation of leptin gene expression in C6 glioblastoma cells is different from that in adipocytes.
Mol Cell Endocrinol 2000 Jul 25
PMID:The regulation of leptin gene expression in the C6 glioblastoma cell line. 1094 Apr 88

Leptin is a circulating hormone which plays an important role in the regulation of energy balance, haemopoiesis and reproduction. Leptin and its receptor (leptin-R) are localized in human placental tissue but their function is not known. In this study we have investigated the expression of leptin and leptin-R in the human placenta with particular attention to extravillous cytotrophoblastic cell islands and cell columns which play a pivotal role in trophoblast invasion and placental growth. We demonstrate that leptin-R immunoreactivity shows a strong expression in the distal extravillous cytotrophoblastic cells of cell columns invading the basal plate, whereas leptin expression is homogeneously expressed in all the cellular components of cell columns. Since the invasive ability of the distally located extravillous cytotrophoblast of cell columns is known to be regulated by a variety of proteases and some extracellular matrix molecules, we tested the influence of leptin on the in-vitro production of matrix metalloproteinase (MMP)-2, MMP-9 and fetal fibronectin (fFN) by cytotrophoblastic cells. We demonstrate that leptin increases, in a dose-dependent manner, the secretion of immunoreactive MMP-2 and fFN and enhances the activity of MMP-9 in cultured cytotrophoblastic cells. Our results suggest that leptin and leptin-R could have a role in the invasive processes of the extravillous cytotrophoblastic cells by modulating the expression of MMPs. In addition, these results provide a foundation for studying pathological conditions characterized by insufficient or excessive trophoblast invasion.
Mol Hum Reprod 2000 Oct
PMID:Leptin modulates extracellular matrix molecules and metalloproteinases: possible implications for trophoblast invasion. 1100 25

The prevaleance of morbid obesity (body mass index of 35.0 or greater) is low in Japan (0.2-0.3%), and little systematic investigation of its cause in this population has been carried out. Leptin plays a central role in regulation of body weight; mice deficient in leptin develop marked obesity. We sought mutations in the leptin gene in 53 morbidly obese Japanese (maximum body mass index 35-60) including 46 with type 2 diabetes. Direct DNA sequencing was performed following polymerase chain reaction amplification. Apart from a silent mutation at codon 25 (CAA/CAG, glutamine) detected in eight subjects, no mutations were detected. We found a significantly higher prevalence of the variant leptin 25CAG allele among the 53 obese subjects (0.085) studied than in 132 nonobese control subjects (0.011, P<0.001). In Japanese populations mutations in the protein coding sequence of the leptin gene are unlikely to be a major cause of morbid obesity. However, the leptin 25CAG allele may be linked to morbid obesity in this population. Specifically, genetic variation located near the leptin gene may be involved in pathogenesis. The leptin polymorphism 25CAG appears to be a new genetic marker for obesity susceptibility, at least in Japanese.
J Mol Med (Berl) 2000
PMID:A polymorphic marker in the leptin gene associated with Japanese morbid obesity. 1114 Mar 77

Hypothalamic sensitivity to leptin has been suggested to be important for regulation of body fat mass. Mice heterozygous for a mutation in the leptin receptor (leptin-R) have an increased body fat mass suggesting that the abundance of leptin-R may be an important determinator of leptin sensitivity. Leptin-R cDNAs from several species contain alternative 5'untranslated regions (5'UTRs), suggesting that several distinct regulatory regions may exist. To investigate possible mechanisms by which leptin-R expression may be regulated, we searched for possible alternative 5'UTRs of the leptin-R in the rat and determined their location in relation to putative response elements. Four leptin-R 5'UTRs (exons 1A-1D), which diverged 23 bp upstream of the start codon, were identified by 5'Rapid Amplification of cDNA Ends (5'RACE) and sequencing. Exons 1B and 1C were present in 31 and 61%, respectively, of all leptin-R transcripts in the hypothalamus as determined by a ribonuclease protection assay. Analysis of the 5' flanking genomic sequences revealed an imperfect estrogen response element (ERE), two Spl-sites, three CCAAT-boxes and one octamer. Exons 1A and 1D corresponded to a putative second gene, encoding the OB-Receptor Gene Related Protein (OB-RGRP), which is transcribed from a promoter shared with the leptin-R. DNA sequencing revealed that the rat OB-RGRP had 98 and 97% homology with the mouse and human sequence, respectively. We report here that transcription of the rat leptin-R gene may generate transcripts with four alternative 5'UTRs. The presence of a putative ERE, close to the most frequently used transcriptional start sites of the leptin-R gene in the hypothalamus, provides a possible mechanism by which estrogen may exert its effects on food intake.
Mol Cell Endocrinol 2001 Feb 14
PMID:Leptin receptor 5'untranslated regions in the rat: relative abundance, genomic organization and relation to putative response elements. 1116 38

Leptin is a recently identified hormone produced by the adipocyte ob gene which acts as a negative feedback signal critical to the normal control of food intake and body weight. A number of proinflammatory cytokines, such as interleukin (IL) 1alpha, IL-6, tumor necrosis factor (TNF) alpha and interferon (IFN) gamma, have been proposed as mediators of cancer cachexia. These data suggest that abnormalities in leptin production/release or in its feedback mechanism play a role in cancer patients. To elucidate this we studied the relationship between total serum leptin and serum cytokines IL-1alpha, IL-6, TNFalpha as well as the production of leptin and cytokines by peripheral blood mononuclear cells (PBMC) isolated from cancer patients. Sixteen advanced cancer patients (mainly stage IV) with tumors at different sites were included in the study. The serum levels of leptin in cancer patients were significantly lower than those of healthy individuals at all times (7 a.m., noon, 3 p.m.). No significant differences were found in circadian rhythm between patients and controls. Serum levels of IL-1alpha, IL-6, and TNFalpha were significantly higher in cancer patients than in healthy individuals. An inverse correlation between serum levels of leptin and IL-6 was found in cancer patients. The production in culture of leptin by unstimulated PBMCs and those stimulated by phytohemagglutinin M or by phorbol myristate acetate isolated from cancer patients was very low; no differences were observed in comparison with leptin production by PBMCs from healthy individuals.
J Mol Med (Berl) 2000
PMID:Serum levels of leptin and proinflammatory cytokines in patients with advanced-stage cancer at different sites. 1119 28


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