Vandana Sharma scite author profile

Nitric oxide (NO) is a highly reactive molecule, generated through metabolism of L-arginine by NO synthase (NOS). Abnormal NO levels in mammalian cells are associated with multiple human diseases, including cancer. Recent studies have uncovered that the NO signaling is compartmentalized, owing to the localization of NOS and the nature of biochemical reactions of NO, including S-nitrosylation. S-nitrosylation is a selective covalent post-translational modification adding a nitrosyl group to the reactive thiol group of a cysteine to form S-nitrosothiol (SNO), which is a key mechanism in transferring NO-mediated signals. While S-nitrosylation occurs only at select cysteine thiols, such a spatial constraint is partially resolved by transnitrosylation, where the nitrosyl moiety is transferred between two interacting proteins to successively transfer the NO signal to a distant location. As NOS is present in various subcellular locales, a stress could trigger concerted S-nitrosylation and transnitrosylation of a large number of proteins involved in divergent signaling cascades. S-nitrosylation is an emerging paradigm of redox signaling by which cells confer protection against oxidative stress.

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An essential role for phosphatidylinositol 3-kinase in the inhibition of phagosomal maturation, intracellular survival and virulence inCandida glabrata

Nandan

Sharma

Balusu

et al. 2014

Cell Microbiol

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SummaryThe yeast class III phosphoinositide 3-kinase (PI3K) that catalyses production of the lipid signalling molecule, phosphatidylinositol-3-phosphate, is primarily implicated in vesicle-mediated transport and autophagy. In this study, we identified, through a genetic screen, the Candida glabrata CgVPS15 gene, an orthologue of the Saccharomyces cerevisiae PI3K regulatory subunitencoding open reading frame (ORF) to be required for impairment of phagosomal maturation in human macrophages. We also disrupted catalytic subunit of the C. glabrata PI3K complex, CgVps34, and found it to be pivotal to arrest mature phagolysosome biogenesis. Further, deletion of either CgVPS15 or CgVPS34 rendered C. glabrata cells hyperadherent to epithelial cells and susceptible to the antimicrobial arsenal of primary murine and cultured human macrophages and diverse stresses. Despite no growth retardation at 37°C, Cgvps15Δ and Cgvps34Δ mutants were severely virulence attenuated in mice. We demonstrate that trafficking and/or processing of the vacuolar lumenal hydrolase, carboxypeptidase Y, and the major adhesin, Epa1, rely on PI3K regulatory mechanisms in C. glabrata. By disrupting autophagy-related PI3K complex genes, we show that C. glabrata PI3K-impeded phagolysosomal acidification is primarily owing to its role in cellular trafficking events. Altogether, our findings underscore the essentiality of PI3K signalling in modulation of host immune response, intracellular survival and virulence in C. glabrata.

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Glutathione depletion leads to delayed growth stasis in Saccharomyces cerevisiae : evidence of a partially overlapping role for thioredoxin

Sharma¹,

Sharma²,

Bourbouloux

et al. 2000

Current Genetics

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Disruption of the first enzyme of glutathione biosynthesis in both Saccharomyces cerevisiae and Schizosaccharomyces pombe leads to a glutathione auxotrophy phenotype on plates. However, growth experiments in liquid medium revealed that the cessation of growth resulting from glutathione depletion in these yeasts is very delayed in S. cerevisiae compared to S. pombe. Glutathione metabolism was investigated to understand this delayed growth stasis in S. cerevisiae. The assimilation of reduced and oxidized glutathione, the intracellular storage pools of glutathione and the turnover of this compound were investigated and found to be similar in both yeasts. A possible overlapping role of intracellular thioredoxin in causing delayed stasis was studied. Yeast thioredoxin was overexpressed in S. cerevisiae and was found to partially relieve the dependence of S. cerevisiae glutathione auxotrophs on extracellular glutathione in glucose-grown cultures, as well as in glycerol-grown cultures where conditions of increased glutathione requirements exists in the cell. By partially, but not completely, compensating for glutathione deficiency in this yeast, thioredoxin thus appeared to be the major factor that was causing the delayed growth stasis following glutathione depletion in this yeast.

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Lepidopteran Sex Determination: A Cascade of Surprises

Nagaraju

Gopinath²,

Sharma³

et al. 2014

Sex Dev

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Sex determination is a developmental pathway that fixes the sexual fate (male or female) of an individual at early stages of embryonic development. This pathway is ideally suited for evolutionary studies given the astoundingly diverse mechanisms found in the animal kingdom. In particular, insects use multiple different cues to specify the sexual fate of an individual. In this review, we focus on genes and genetic interactions involved in the sex determination of insect species belonging to the order Lepidoptera. Unique features of the lepidopteran sex determination system are discussed.

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Correction of arginine metabolism with sepiapterin—the precursor of nitric oxide synthase cofactor BH4—induces immunostimulatory-shift of breast cancer

Zheng

Fernando

Sharma

et al. 2020

Biochemical Pharmacology

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Immunotherapy is a first-line treatment for many tumor types. However, most breast tumors are immunosuppressive and only modestly respond to immunotherapy. We hypothesized that correcting arginine metabolism might improve the immunogenicity of breast tumors. We tested whether supplementing sepiapterin, the precursor of tetrahydrobiopterin (BH 4 )—the nitric oxide synthase (NOS) cofactor—redirects arginine metabolism from the pathway synthesizing polyamines to that of synthesizing nitric oxide (NO) and make breast tumors more immunogenic. We showed that sepiapterin elevated NO but lowered polyamine levels in tumor cells, as well as in tumor-associated macrophages (TAMs). This not only suppressed tumor cell proliferation, but also induced the conversion of TAMs from the immuno-suppressive M2-type to immuno-stimulatory M1-type. Furthermore, sepiapterin abrogated the expression of a checkpoint ligand, PD-L1, in tumors in a STAT3-dependent manner. This is the first study which reveals that supplementing sepiapterin normalizes arginine metabolism, improves the immunogenicity and inhibits the growth of breast tumor cells.

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Vandana Sharma

S-Nitrosylation: An Emerging Paradigm of Redox Signaling

An essential role for phosphatidylinositol 3-kinase in the inhibition of phagosomal maturation, intracellular survival and virulence inCandida glabrata

Glutathione depletion leads to delayed growth stasis in Saccharomyces cerevisiae : evidence of a partially overlapping role for thioredoxin

Lepidopteran Sex Determination: A Cascade of Surprises

Correction of arginine metabolism with sepiapterin—the precursor of nitric oxide synthase cofactor BH4—induces immunostimulatory-shift of breast cancer

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