UMLS:C0028754 - FACTA Search

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Query: UMLS:C0028754 (obesity)
124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A recessive mutation in the tub gene causes obesity, deafness and retinal degeneration in tubby mice. The tub gene is a member of a family of tubby-like genes (TULPs) that encode proteins of unknown function. Members of this family have been identified in plants, vertebrates and invertebrates. The TULP proteins share a conserved carboxy-terminal region of approximately 200 amino-acid residues. Here we report the analysis of the human gene TULP1, which is expressed specifically in the retina. Upon analysing 162 patients with nonsyndromic recessive retinitis pigmentosa (RP) and 374 simplex cases of RP, we found two who were compound heterozygotes for mutations that cosegregated with disease in the respective families. Three of the mutations are missense changes affecting the conserved C-terminal region; the fourth mutation affects a splice donor site upstream of this region. Our data suggest that mutations in TULP1 are a rare cause of recessive RP and indicate that TULP1 has an essential role in the physiology of photoreceptors.
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PMID:Recessive mutations in the gene encoding the tubby-like protein TULP1 in patients with retinitis pigmentosa. 946 50

Leptin affects body weight and reproduction mainly via receptors in the central nervous system. Different isoforms of the leptin receptor (leptin-R) exist, including a long isoform (leptin-RL) with signalling capacity and short isoforms (leptin-RS) with unknown function. The aim of this study was to examine leptin-R gene expression in different regions of the brain under conditions with altered body weight, in the female rat, including ovariectomy (OVX), oestradiol (E2) treatment, fasting and a genetic model of obesity (Zucker fa/fa). Leptin-R gene expression was analysed by in situ hybridization using probes recognizing all receptor isoforms (leptin-R) or specifically leptin-RL. Transcripts recognized by the leptin-R probe were abundant in the choroid plexus (CP), arcuate nucleus (ARC), ventromedial nucleus (VMN), thalamus (TH) and piriform cortex (PC). Leptin-RL transcripts were detected in the ARC, VMN, TH and PC but not in the CP. Although no sex difference was observed, leptin-R gene expression was reduced by E2 administration and increased by OVX. Administration of E2 reduced leptin-RL gene expression in the ARC and VMN but did not alter the expression in the TH or PC. OVX had no effect on the expression of leptin-RL mRNA. Fasting also caused a differential regulation of leptin-R mRNAs, with an increase in abundance of leptin-RL transcripts in the TH despite a decrease in leptin-R in this area. Obese Zucker rats had a similar pattern of expression with an increased expression of leptin-RL transcripts in all brain areas analysed and a decrease in leptin-R gene expression. These results demonstrate a differential regulation of leptin-RL and leptin-RS which could provide a mechanism for regulating access to, and sensitivity of, discrete regions of the brain for circulating leptin. We suggest that fasting and E2 alter the balance between leptin-RL and leptin-RS and that this could increase tissue sensitivity to leptin.
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PMID:Differential expression and regulation of leptin receptor isoforms in the rat brain: effects of fasting and oestrogen. 948 66

A mutation in the tub gene leads to maturity-onset obesity, insulin resistance, and progressive retinal and cochlear degeneration in mice. tub is a member of a growing family of genes that encode proteins of unknown function that are remarkably conserved across species. The absence of obvious transmembrane domain(s) or signal sequence peptide motif(s) suggests that Tub is an intracellular protein. Additional sequence analysis revealed the presence of putative tyrosine phosphorylation motifs and Src homology 2 (SH2)-binding sites. Here we demonstrate that in CHO-IR cells, transfected Tub is phosphorylated on tyrosine in response to insulin and insulin-like growth factor-1 and that in PC12 cells, insulin but not EGF induced tyrosine phosphorylation of endogenous Tub. In vitro, Tub is phosphorylated by purified insulin receptor kinase as well as by Abl and JAK 2 but not by epidermal growth factor receptor and Src kinases. Furthermore, upon tyrosine phosphorylation, Tub associated selectively with the SH2 domains of Abl, Lck, and the C-terminal SH2 domain of phospholipase Cgamma and insulin enhanced the association of Tub with endogenous phospholipase Cgamma in CHO-IR cells. These data suggest that Tub may function as an adaptor protein linking the insulin receptor, and possibly other protein-tyrosine kinases, to SH2-containing proteins.
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PMID:Tyrosine phosphorylation of tub and its association with Src homology 2 domain-containing proteins implicate tub in intracellular signaling by insulin. 1045 76

The tub gene is a member of a small, well conserved neuronal gene family of unknown function. Mutations within this gene lead to early-onset blindness and deafness, as well as late-onset obesity and insulin resistance. To test the hypothesis that mutations within other members of this gene family would lead to similar phenotypes as observed in tubby mice, and hence have similar functional properties, we have generated null mutants of the tubby-like protein ( Tulp ) 1 gene by homologous recombination. Similarly to tubby mice, Tulp1 (-/-)mice exhibit an early-onset retinal degeneration with a progressive, rapid loss of photoreceptors, further supporting the notion that previously identified mutations within the human TULP1 gene are indeed causative of retinitis pigmentosa. However, in contrast to tubby mice, Tulp1 (-/-)mice exhibited normal hearing ability and, surprisingly, normal body weight despite the fact that both TUB and TULP1 are expressed in the same neurons within the hypothalamus in areas known to be involved in feeding behavior and energy homeo stasis. However, TUB and TULP1 show a distinctly different staining pattern in the nucleus of these neurons, perhaps explaining the difference in body weight between the Tulp1 (-/-)and tubby mutant mice.
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PMID:Retinal degeneration but not obesity is observed in null mutants of the tubby-like protein 1 gene. 1060 26

The mouse tubby phenotype is characterized by maturity-onset obesity accompanied by retinal and cochlear degeneration. A positional cloning effort to find the gene responsible for this phenotype led to the identification of tub, a member of a novel gene family of unknown function. A splice defect mutation in the 3' end of the tub gene, predicted to disrupt the C terminus of the Tub protein, has been implicated in the genesis of the tubby phenotype. It is not clear, however, whether the Tub mutant protein retains any biological activity, or perhaps has some dominant function, nor is it established that the tubby mutation is itself responsible for all of the observed tubby phenotypes. To address these questions, we generated tub-deficient mice and compared their phenotype to that of tubby mice. Our results demonstrate that tubby is a loss-of-function mutation of the tub gene and that loss of the tub gene is sufficient to give rise to the full spectrum of tubby phenotypes. We also demonstrate that loss of photoreceptors in the retina of tubby and tub-deficient mice occurs by apoptosis. In addition, we show that Tub protein expression is not significantly altered in the ob, db, or melanocortin 4 receptor-deficient mouse model of obesity.
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PMID:Targeted deletion of the tub mouse obesity gene reveals that tubby is a loss-of-function mutation. 1062 44

The tubby gene family consists of four members, TUB, TULP1, TULP2 and TULP3, with unknown function. However, a splice junction mutation within the mouse tub gene leads to retinal and cochlear degeneration, as well as maturity onset obesity and insulin resistance. Mutations within human TULP1 have also been shown to co-segregate in several cases of autosomal recessive retinitis pigmentosa (RP) and TULP1 deficiency in mice leads to retinal degeneration. The primary amino acid sequences of the tubby family members do not predict a likely biochemical function. As a first step in defining their function, we present a detailed characterization of the cellular and subcellular localization of the human (TUB) and mouse (tub) homologous gene products. We report the isolation of TUB splice variants which have different subcellular localizations (nuclear versus cytoplasmic) and which define a nuclear localization signal. In addition, using green fluorescent protein (GFP) tags, we observe a nuclear localization for TULP1, similar to TUB splicing forms TUB 561 and TUB 506. Finally, we report tubby expression in mouse brain by in situ hybridization and by immunohistochemistry with polyclonal antibodies. Protein was found in both the hypothalamic satiety centers and in a variety of other CNS structures including the cortex, cerebellum, olfactory bulb and hippocampus. Both nuclear and cytoplasmic signals were detected with a series of independently generated polyclonal antibodies, consistent with the presence of multiple alternatively spliced isoforms within the CNS.
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PMID:GFP-tagged expression and immunohistochemical studies to determine the subcellular localization of the tubby gene family members. 1100 Apr 83

Obesity is currently considered as a chronic metabolic disease, associated with a high risk of cardiovascular complications. Leptin, an adipocyte-derived hormone has a variety target cells influencing a wide range of processes. Possible counteractions of hyperleptinaemia are currently investigated. The Na(+)-H(+) exchanger (NHE 1) is involved in multiple cellular functions and its activation has been related to hypertension and obesity. NHE 1 is present on erythrocytes and can be stimulated by various hormones. Erythrocytes have on their surface a variety of receptors with mostly unknown function. In the present paper, the effect of leptin on erythrocytes NHE 1 activity has been investigated. For this reason, the intracellular pH and sodium influxes were measured before and after addition of leptin in erythrocyte suspensions from normal and obese individuals. Amiloride, a specific NHE 1 inhibitor, and staurosporine a protein kinase C inhibitor were used to inhibit erythrocyte NHE 1. For the binding study leptin was labeled with fluorescein isothiocyanate (FITC) and the binding on erythrocytes was estimated by Scatchard analysis. NHE 1 activity increased in the presence of leptin but significantly less in the obese than in the control group. Furthermore the concentrations of leptin binding sites on the surface of erythrocytes were lower in erythrocytes drawn from obese individuals than in erythrocytes drawn from normal subjects. Since NHE 1 activity has been associated with insulin resistance and hypertension, the activation of this antiport by leptin may represent a link between adipose tissue hypertrophy and cardiovascular complications of obesity.
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PMID:The effect of leptin on Na(+)-H(+) antiport (NHE 1) activity of obese and normal subjects erythrocytes. 1160 19

Insulin resistance is a common metabolic disorder. It plays an important role in the metabolic syndrome (or syndrome X), type 2 diabetes, obesity and in the lipodystrophic syndromes recently described, associated with treatments of HIV disease and represent a worrying cardiovascular risk. However, its pathophysiology remains poorly understood in these situations. Syndromes of major insulin resistance, although rare, allow investigations of the mechanisms leading to alterations in the insulin transduction pathways. Mutations of the insulin receptor gene have been discovered in rare patients. Therefore alterations at the post-receptor level are probably causative in other cases. Furthermore, the role of body fat repartition seems determinant in the apparition of insulin resistance, as attested by the clinical characteristics of lipodystrophies, either congenital or acquired. The two lipodystrophic syndromes which molecular defect is identified are the familial partial lipodystrophy of the Dunnigan type, due to mutations of the lamin A/C gene, and the congenital generalized lipodystrophy, linked to alterations in the protein seipin. However, their physiopathology remains mysterious. Lamin A/C is indeed an ubiquitous nuclear protein, which is also mutated in a genetic squelettic and/or cardiac myopathy, and seipin is a protein of unknown function mainly expressed in brain. Progresses in the understanding of these syndromes, in particular lipodystrophies which can be considered as caricatural models of the metabolic syndrome, will probably allow to clarify the physiopathology of the more common forms of insulin resistance.
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PMID:[Major insulin resistance syndromes: clinical and physiopathological aspects]. 1183 62

The Saccharomyces cerevisiae VPS55 (YJR044c) gene encodes a small protein of 140 amino acids with four potential transmembrane domains. VPS55 belongs to a family of genes of unknown function, including the human gene encoding the obesity receptor gene-related protein (OB-RGRP). Yeast cells with a disrupted VPS55 present normal vacuolar morphology, but exhibit an abnormal secretion of the Golgi form of the soluble vacuolar carboxypeptidase Y. However, trafficking of the membrane-bound vacuolar alkaline phosphatase remains normal. The endocytosis of uracil permease, used as an endocytic marker, is normal in vps55Delta cells, but its degradation is delayed and this marker transiently accumulates in late endosomal compartments. We also found that Vps55p is mainly localized in the late endosomes. Collectively, these results indicate that Vps55p is involved in late endosome to vacuole trafficking. Finally, we show that human OB-RGRP displays the same distribution as Vps55p and corrects the phenotypic defects of the vps55Delta strain. Therefore, the function of Vps55p has been conserved throughout evolution. This study highlights the importance of the multispanning Vps55p and OB-RGRP in membrane trafficking to the vacuole/lysosome of eukaryotic cells.
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PMID:Yeast Vps55p, a functional homolog of human obesity receptor gene-related protein, is involved in late endosome to vacuole trafficking. 1200 63

Congenital generalized lipodystrophy (CGL) is a rare autosomal recessive disorder characterized by marked lack of body fat since birth, which results in striking muscular appearance. Patients develop extreme insulin resistance and its complications, such as diabetes, hyperlipidemia and fatty liver. Mutations in the BSCL2 (which encodes seipin, a protein of unknown function) and AGPAT2 (which encodes 1-acylglycerol-3-phosphate O-acyltransferase 2) genes have been reported in patients with CGL. AGPAT2 is a key enzyme involved in triglyceride and phospholipid biosynthesis and, thus, the discovery of AGPAT2 mutations has heightened interest in the biochemical pathways of triglyceride synthesis and their implications in human physiology and in the pathophysiology of obesity, lipodystrophies and other adipose tissue disorders. All enzymes involved in triglyceride synthesis, including AGPAT, have several known isoforms encoded by different genes. Assuming different substrate specificities of these enzymes, the human body might have many forms of triglycerides and phospholipids. Here, we discuss the significance of these in energy storage, in addition to the normal functioning of cell membranes.
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PMID:Congenital generalized lipodystrophy: significance of triglyceride biosynthetic pathways. 1282 27

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