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Start Over Author "Unal, Resat" Publisher elsevier b.v.
4 results on '"Unal, Resat"'

1. The lipoprotein lipase (LPL) S447X gain of function variant involves increased mRNA translation

Author

Ranganathan, Gouri, Unal, Resat, Pokrovskaya, Irina D., Tripathi, Preeti, Rotter, Jerome I., Goodarzi, Mark O., and Kern, Philip A.

Subjects
*LIPOPROTEIN lipase, *MESSENGER RNA, *KINASES, *ADRENALINE, *RNA, *HAPLOTYPES, *GENETIC translation
Abstract

Abstract: Objective: A common gain-of-function LPL variant, LPLS447X, has favorable clinical features and involves a C→G base change at nucleotide 1595 of the LPL cDNA, along with a haplotype, which includes other non-coding SNPs. The mechanism for the LPL gain-in-function is not clear. LPL translation is regulated by epinephrine by an RNA–protein complex, consisting of PKA subunits and an A kinase anchoring protein (AKAP), which targets the 3′UTR. Methods: To examine LPL translation of the LPLS447X variant, in vitro translation of LPL mRNA constructs was studied in the presence of cytoplasmic extracts from 3T3-F442A adipocytes treated with/without epinephrine. Results: When the C→G base change at nucleotide 1595 was introduced, LPL mRNA was less susceptible to inhibition by the adipocyte extract. Similarly, a lessened susceptibility to translation inhibition occurred when the complete haplotype was constructed in the full-length 3.6kb LPL mRNA, when an irrelevant coding sequence was introduced into the LPL mRNA construct, and in response to the use of components of the RNA binding complex (PKA C and R subunits, and KH region of AKAP149). Conclusion: These studies suggest that the LPLS447X gain of function may be due to the base change in the LPL mRNA resulting in a decreased susceptibility to translational inhibition. [Copyright &y& Elsevier]

Published
2012
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2. Increasing Adipocyte Lipoprotein Lipase Improves Glucose Metabolism in High Fat Diet-induced Obesity.

Author

Walton, R. Grace, Zhu, Beibei, Unal, Resat, Spencer, Michael, Sunkara, Manjula, Morris, Andrew J., Charnigo, Richard, Katz, Wendy S., Daugherty, Alan, Howatt, Deborah A., Kern, Philip A., and Finlin, Brian S.

Subjects
*FAT cells, *LIPOPROTEINS, *LIPASES, *GLUCOSE metabolism, *HIGH-fat diet, *OBESITY
Abstract

Lipid accumulation in liver and skeletal muscle contributes to co-morbidities associated with diabetes and obesity. We made a transgenic mouse in which the adiponectin (Adipoq) promoter drives expression of lipoprotein lipase (LPL) in adipocytes to potentially increase adipose tissue lipid storage. These mice (Adipoq-LPL) have improved glucose and insulin tolerance as well as increased energy expenditure when challenged with a high fat diet (HFD). To identify the mechanism(s) involved, we determined whether the Adipoq-LPL mice diverted dietary lipid to adipose tissue to reduce peripheral lipotoxicity, but we found no evidence for this. Instead, characterization of the adipose tissue of the male mice after HFD challenge revealed that the mRNA levels of peroxisome proliferator-activated receptor-γ (PPARγ) and a number of PPARγ-regulated genes were higher in the epididymal fat pads of Adipoq-LPL mice than control mice. This included adiponectin, whose mRNA levels were increased, leading to increased adiponectin serum levels in the Adipoq-LPL mice. In many respects, the adipose phenotype of these animals resembles thiazolidinedione treatment except for one important difference, the Adipoq-LPL mice did not gain more fat mass on HFD than control mice and did not have increased expression of genes in adipose such as glycerol kinase, which are induced by high affinity PPAR agonists. Rather, there was selective induction of PPARγ-regulated genes such as adiponectin in the adipose of the Adipoq-LPL mice, suggesting that increasing adipose tissue LPL improves glucose metabolism in diet-induced obesity by improving the adipose tissue phenotype. Adipoq-LPL mice also have increased energy expenditure. [ABSTRACT FROM AUTHOR]

Published
2015
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3. Serotonin Transamidates Rab4 and Facilitates Its Binding to the C Terminus of Serotonin Transporter.

Author

Ahmed, Billow A., Jeffus, Brandon C., Bukhari, Syed I. A., Harney, Justin T., Unal, Resat, Lupashin, Vladimir V., van der Sluijs, Peter, and Kilic, Fusun

Subjects
*SEROTONIN, *CELL membranes, *BLOOD platelets, *MOLECULES, *ORGANIC acids, *CELLS
Abstract

The serotonin transporter (SERT) on the plasma membrane is the major mechanism for the clearance of plasma serotonin (5-hydroxytryptamine (5HT)). The uptake rates of cells depend on the density of SERT molecules on the plasma membrane. Interestingly, the number of SERT molecules on the platelet surface is down-regulated when plasma 5HT ([5HT]ex) is elevated. It is well reported that stimulation of cells with high [5HT]ex induces transamidation of a small GTPase, Rab4. Modification with 5HT stabilizes Rab4 in its active, GTP-bound form, Rab4-GTP. Although investigating the mechanism by which elevated plasma 5HT level down-regulates the density of SERT molecules on the plasma membrane, we studied Rab4 and SERT in heterologous and platelet expression systems. Our data demonstrate that, in response to elevated [5HT]ex, Rab4-GTP co-localizes with and binds to SERT. The association of SERT with Rab4-GTP depends on: (i) 5HT modification and (ii) the GTP-binding ability of Rab4. Their association retains transporter molecules intracellularly. Furthermore, we mapped the Rab4-SERT association domain to amino acids 616-624 in the cytoplasmic tail of SERT. This finding provides an explanation for the role of the C terminus in the localization and trafficking of SERT via Rab4 in a plasma 5HT-dependent manner. Therefore, we propose that elevated [5HT]ex "paralyzes" the translocation of SERT from intracellular locations to the plasma membrane by con- trolling transamidation and Rab4-GTP formation. [ABSTRACT FROM AUTHOR]

Published
2008
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