Meeta J. Advani scite author profile

Meeta J. Advani

2Publications

20Citation Statements Received

73Citation Statements Given

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University of Delhi

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Activity of Trifluoperazine against Replicating, Non-Replicating and Drug Resistant M. tuberculosis

et al. 2012

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Trifluoperazine, a knowm calmodulin antagonist, belongs to a class of phenothiazine compounds that have multiple sites of action in mycobacteria including lipid synthesis, DNA processes, protein synthesis and respiration. The objective of this study is to evaluate the potential of TFP to be used as a lead molecule for development of novel TB drugs by showing its efficacy on multiple drug resistant (MDR) Mycobacterium tuberculosis (M.tb) and non-replicating dormant M.tb. Wild type and MDR M.tb were treated with TFP under different growth conditions of stress like low pH, starvation, presence of nitric oxide and in THP-1 infection model. Perturbation in growth kinetics of bacilli at different concentrations of TFP was checked to determine the MIC of TFP for active as well as dormant bacilli. Results show that TFP is able to significantly reduce the actively replicating as well as non-replicating bacillary load. It has also shown inhibitory effect on the growth of MDR M.tb. TFP has shown enhanced activity against intracellular bacilli, presumably because phenothiazines are known to get accumulated in macrophages. This concentration was, otherwise, found to be non-toxic to macrophage in vitro. Our results show that TFP has the potential to be an effective killer of both actively growing and non-replicating bacilli including MDR TB. Further evaluation and in vivo studies with Trifluoperazine can finally help us know the feasibility of this compound to be used as either a lead compound for development of new TB drugs or as an adjunct in the current TB chemotherapy.

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Calmodulin-like protein from M. tuberculosis H37Rv is required during infection

Advani

Rajagopalan

Reddy

2014

Sci Rep

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M. tuberculosis constitutes very sophisticated signaling systems that convert the environment signals into appropriate cellular response and helps the bacilli to overcome the onslaught of host defence mechanisms. Although mycobacterial two-component systems and STPKs have gained lot of attention as virulence factors, mycobacterial calcium signaling has not been very well studied. Calcium signaling has been the primary mechanism in eukaryotes for regulation of kinases, however in prokaryotes auto-phosphorylation of number of kinases has been reported. We have previously reported a small calmodulin-like-protein (CAMLP) from M. tuberculosis regulating enzymes of heterogeneous origin. To understand its role in both viability and virulence, we have assessed the effect of reduced expression of CAMLP coding gene Rv1211 on M. tb growth in vitro and ex vivo. Further, we have also studied the expression profile of Rv1211 in various conditions simulating host microenvironments. Our results highlight the possible role of CAMLP in growth and survival of M. tb during infection.

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Meeta J. Advani

Activity of Trifluoperazine against Replicating, Non-Replicating and Drug Resistant M. tuberculosis

Calmodulin-like protein from M. tuberculosis H37Rv is required during infection

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