Liangsu Wang scite author profile

SummaryTo address the need for new approaches to antibiotic drug development, we have identified a large number of essential genes for the bacterial pathogen, Staphylococcus aureus, using a rapid shotgun antisense RNA method. Staphylococcus aureus chromosomal DNA fragments were cloned into a xylose-inducible expression plasmid and transformed into S. aureus. Homology comparisons between 658 S. aureus genes identified in this particular antisense screen and the Mycoplasma genitalium genome, which contains 517 genes in total, yielded 168 conserved genes, many of which appear to be essential in M. genitalium and other bacteria. Examples are presented in which expression of an antisense RNA specifically reduces its cognate mRNA. A cell-based, drug-screening assay is also described, wherein expression of an antisense RNA confers specific sensitivity to compounds targeting that gene product. This approach enables facile assay development for high throughput screening for any essential gene, independent of its biochemical function, thereby greatly facilitating the search for new antibiotics.

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Targeting a ceramide double bond improves insulin resistance and hepatic steatosis

Chaurasia

Tippetts

Monibas

et al. 2019

Science

357

338

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Ceramides contribute to the lipotoxicity that underlies diabetes, hepatic steatosis, and heart disease. By genetically engineering mice, we deleted the enzyme dihydroceramide desaturase 1 (DES1), which normally inserts a conserved double bond into the backbone of ceramides and other predominant sphingolipids. Ablation of DES1 from whole animals or tissue-specific deletion in the liver and/or adipose tissue resolved hepatic steatosis and insulin resistance in mice caused by leptin deficiency or obesogenic diets. Mechanistic studies revealed ceramide actions that promoted lipid uptake and storage and impaired glucose utilization, none of which could be recapitulated by (dihydro)ceramides that lacked the critical double bond. These studies suggest that inhibition of DES1 may provide a means of treating hepatic steatosis and metabolic disorders.

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Increased Bile Acid Synthesis and Impaired Bile Acid Transport in Human Obesity

Haeusler

Camastra

Nannipieri

et al. 2016

The Journal of Clinical Endocrinology & Metabolism

116

117

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Cyp8b1ablation prevents Western diet-induced weight gain and hepatic steatosis because of impaired fat absorption

Bertaggia

Jensen

Castro-Perez

et al. 2017

American Journal of Physiology-Endocrinology and Metabolism

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Bile acids (BAs) are cholesterol derivatives that regulate lipid metabolism, through their dual abilities to promote lipid absorption and activate BA receptors. However, different BA species have varying abilities to perform these functions. Eliminating 12α-hydroxy BAs in mice via knockout causes low body weight and improved glucose tolerance. The goal of this study was to determine mechanisms of low body weight in mice. We challenged mice with a Western-type diet and assessed body weight and composition. We measured energy expenditure, fecal calories, and lipid absorption and performed lipidomic studies on feces and intestine. We investigated the requirement for dietary fat in the phenotype using a fat-free diet. mice were resistant to Western diet-induced body weight gain, hepatic steatosis, and insulin resistance. These changes were associated with increased fecal calories, due to malabsorption of hydrolyzed dietary triglycerides. This was reversed by treating the mice with taurocholic acid, the major 12α-hydroxylated BA species. The improvements in body weight and steatosis were normalized by feeding mice a fat-free diet. The effects of BA composition on intestinal lipid handling are important for whole body energy homeostasis. Thus modulating BA composition is a potential tool for obesity or diabetes therapy.

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A Staphylococcus aureus Fitness Test Platform for Mechanism-Based Profiling of Antibacterial Compounds

Donald

Skwish

Forsyth

et al. 2009

Chemistry & Biology

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The emergence of drug-resistant bacteria coupled with the limited discovery of novel chemical scaffolds and druggable targets inspires new approaches to antibiotic development. Here we describe a chemical genomics strategy based on 245 Staphylococcus aureus antisense RNA strains, each engineered for reduced expression of target genes essential for S. aureus growth. Attenuation of gene expression can sensitize cells to compounds that inhibit the activity of a gene product or associated process. Pools of strains grown competitively in the presence of bioactive compounds generate characteristic profiles of strain sensitivities reflecting compound mechanism of action. Here, we validate this approach with a structurally and mechanistically diverse set of reference antibiotics and, in the accompanying paper in this issue of Chemistry & Biology (Huber et al., 2009), demonstrate its use in the discovery of new cell wall inhibitors.

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Liangsu Wang

A genome‐wide strategy for the identification of essential genes in Staphylococcus aureus

Targeting a ceramide double bond improves insulin resistance and hepatic steatosis

Increased Bile Acid Synthesis and Impaired Bile Acid Transport in Human Obesity

Cyp8b1ablation prevents Western diet-induced weight gain and hepatic steatosis because of impaired fat absorption

A Staphylococcus aureus Fitness Test Platform for Mechanism-Based Profiling of Antibacterial Compounds

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