Amy Whittington scite author profile

Protein tyrosine phosphatase 1B (PTP1B) contributes to leptin resistance by inhibiting intracellular leptin receptor signaling. Mice with whole body or neuron-specific deletion of PTP1B are hypersensitive to leptin and resistant to diet-induced obesity. Here we report a significant increase in PTP1B protein levels in the mediobasal hypothalamus (P = 0.003) and a concomitant reduction in leptin sensitivity following 28 days of high-fat (HF) feeding in rats. A significant increase in PTP1B mRNA levels was also observed in rats chronically infused with leptin (3 microg/day icv) for 14 days (P = 0.01) and in leptin-deficient ob/ob mice infused with leptin (5 microg/day sc for 14 days; P = 0.003). When saline-infused ob/ob mice were placed on a HF diet for 14 days, an increase in hypothalamic PTP1B mRNA expression was detected (P = 0.001) despite the absence of circulating leptin. In addition, although ob/ob mice were much more sensitive to leptin on a low-fat (LF) diet, a reduction in this sensitivity was still observed following exposure to a HF diet. Taken together, these data indicate that hypothalamic PTP1B is specifically increased during HF diet-induced leptin resistance. This increase in PTP1B is due in part to chronic hyperleptinemia, suggesting that hyperleptinemia is one mechanism contributing to the development of leptin resistance. However, these data also indicate that leptin is not required for the increase in hypothalamic PTP1B or the development of leptin resistance. Therefore, additional, leptin-independent mechanisms must exist that increase hypothalamic PTP1B and contribute to leptin resistance.

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Noncanonical Gβ Gib2 Is a Scaffolding Protein Promoting cAMP Signaling through Functions of Ras1 and Cac1 Proteins in Cryptococcus neoformans

Wang

Shen

Gong

et al. 2014

Journal of Biological Chemistry

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Pleiotropic function of intersectin homologue Cin1 in Cryptococcus neoformans

Shen

Whittington²,

Song

et al. 2010

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SummaryThe manifestation of virulence traits in Cryptococcus neoformans is thought to rely on intracellular transport, a process not fully explored in this pathogenic fungus. Through interaction cloning, we identified a multi-modular protein, Cin1 (cryptococcal intersectin 1), whose domain structure is similar to that of the human endocytic protein ITSN1. Cin1 contains an N-terminal EH domain, a central coiled-coil region, a WH2 domain, two SH3 domains and a C-terminal RhoGEF (DH)-PH domain. Interestingly, alternative mRNA splicing resulted in two Cin1 isoforms, and Cin1 homologues are also restricted to basidiomycetous fungi. Disruption of the CIN1 gene had a pleiotropic effect on growth, normal cytokinesis, intracellular transports and the production of several virulence factors. Additionally, Cin1 interacts with cryptococcal Cdc42 and Wsp1 (a WASP homologue) proteins in vitro, suggesting a conserved role in the regulation of the actin cytoskeleton. However, deletion of RhoGEF or SH3 and RhoGEF domains did not result in any phenotypic changes, suggesting that functional redundancy exists in proteins containing similar domains or that the activities by other domains are necessary for Cin1 function. Our study presents the first evidence of a multi-modular protein whose function in intracellular transport underlies the growth, differentiation and virulence of a pathogenic microorganism.

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Biosynthetic origin of mycobacterial cell wall arabinosyl residues

et al. 1995

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Designing new drugs that inhibit the biosynthesis of the D-arabinan moiety of the mycobacterial cell wall arabinogalactan is one important basic approach for treatment of mycobacterial diseases. However, the biosynthetic origin of the D-arabinosyl monosaccharide residues themselves is not known. To obtain information on this issue, mycobacteria growing in culture were fed glucose labeled with 14 C or 3 H in specific positions. The resulting radiolabeled cell walls were isolated and hydrolyzed, the arabinose and galactose were separated by high-pressure liquid chromatography, and the radioactivity in each sugar was determined. [U- H]glucose were shown to be C-1 and H-5, respectively. These results demonstrated that the arabinose carbon skeleton is formed via the nonoxidative pentose shunt and not via hexose decarboxylation or via triose condensations. Since the pentose shunt product, ribulose-5-phosphate, is converted to arabinose-5-phosphate as the first step in 3-keto-D-manno-octulosonic acid biosynthesis by gram-negative bacteria, such a conversion was then searched for in mycobacteria. However, cell-free enzymatic analysis using both phosphorous nuclear magnetic resonance spectrometry and colorimetric methods failed to detect the conversion. Thus, the conversion of the pentose shunt intermediates to the D-arabino stereochemistry is not via the expected isomerase but rather must occur via novel metabolic transformations.The structure (Fig. 1) of the mycobacterial cell wall arabinan moiety of the arabinogalactan (henceforth referred to simply as arabinan) reveals that it is a very complex branched polysaccharide of arabinofuranosyl (Araf) resides (1). It provides a key structural connection between the peptidoglycan and the mycolic acids (9). Thus, the mycolic acids are attached in a specific fashion to a nonreducing end pentaarabinofuranosideThe reducing end of the arabinan is attached to a galactofuran (1) which is finally attached to the peptidoglycan via the actinomycete-specific linker disaccharide [34-Rha-(133)-GlcNAc-(13phosphate)] (10). This structural information suggests that arabinan is essential for cell wall integrity, and the antimycobacterial activity of ethambutol, an inhibitor of arabinan formation (3, 14), confirms this expectation.In parallel with what is known about the biosynthesis of other polysaccharides (12), it is expected that the arabinan is synthesized via arabinosyltransferases. These enzymes should utilize a 1-phosphorylated arabinose (either an arabinosyl sugar nucleotide or an arabinosyl polyprenyl phosphate) as the donor and the incomplete growing arabinan as the acceptor. Indeed, ␤-D-Araf-monophosphodecaprenol has been isolated and characterized from a variety of mycobacteria (18,19), and it has been demonstrated to function as an arabinosyl donor (7a, 21). It remains unknown if ␤-D-Araf-monophosphodecaprenol is the sole donor of arabinosyl residues or if there is an aqueous soluble arabinosyl nucleotide donor as well. In this regard, a preliminary report of a partially purifie...

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Wsp1, a GBD/CRIB Domain-Containing WASP Homolog, Is Required for Growth, Morphogenesis, and Virulence of Cryptococcus neoformans

Shen¹,

Whittington²,

Wang

2011

Eukaryot Cell

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Human endocytic protein ITSN1 regulates actin reorganization by activating Rho family GTPases, such as Cdc42. The process is enhanced by ITSN binding of WASP, an effector of Cdc42 and a potent activator of actin polymerization. In the human pathogen Cryptococcus neoformans, endocytic protein Cin1 also interacts with Cdc42 and Wsp1, an uncharacterized WASP homolog, but the significance of these interactions remains unknown. Wsp1 contains several conserved domains, including a WASP homology 1 domain (WH1), a GTPase binding/Cdc42 and Rac interactive binding domain (GBD/CRIB), and a C-terminal domain composed of verprolin-like, central, and acidic motifs (VCA). Thus, Wsp1 exhibits domain compositions more similar to human WASP proteins than Saccharomyces cerevisiae Las17/Bee1, a WASP homolog lacking the GDB/CRIB domain. Wsp1 is not an essential protein; however, the wsp1 mutant exhibited defects in growth, cytokinesis, chitin distribution, and endocytosis and exocytosis. The wsp1 mutant was also unable to undergo genetic cross, produce the polysaccharide capsule, or secrete the enzyme urease. An in vitro phagocytosis assay showed a higher phagocytic index for the wsp1 mutant, whose ability to cause lethal infection in a murine model of cryptococcosis was also attenuated. Our studies reveal divergent evolution of WASP proteins in the fungal phylum and suggest that the conserved function of WASP proteins in the actin cytoskeleton may also impact fungal virulence.

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Amy Whittington

HF diets increase hypothalamic PTP1B and induce leptin resistance through both leptin-dependent and -independent mechanisms

Noncanonical Gβ Gib2 Is a Scaffolding Protein Promoting cAMP Signaling through Functions of Ras1 and Cac1 Proteins in Cryptococcus neoformans

Pleiotropic function of intersectin homologue Cin1 in Cryptococcus neoformans

Biosynthetic origin of mycobacterial cell wall arabinosyl residues

Wsp1, a GBD/CRIB Domain-Containing WASP Homolog, Is Required for Growth, Morphogenesis, and Virulence of Cryptococcus neoformans

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