Souradeepa Ghosh scite author profile

Introduction and objectiveCholesterol homeostasis is a culmination of cellular synthesis, efflux, and catabolism to important physiological entities where short chain fatty acid, butyrate embodied as a key player. This discourse probes the mechanistic molecular details of butyrate action in maintaining host-cholesterol balance.MethodsHepatic mir-122 being the most indispensable regulator of cholesterol metabolic enzymes, we studied upstream players of mir-122 biogenesis in the presence and absence of butyrate in Huh7 cells and mice model. We synthesized unique self-transfecting GMO (guanidinium-morpholino-oligo) linked PMO (Phosphorodiamidate-Morpholino Oligo)-based antisense cell-penetrating reagent to selectively knock down the key player in butyrate mediated cholesterol regulation.ResultsWe showed that butyrate treatment caused upregulation of RNA-binding protein, AUF1 resulting in RNase-III nuclease, Dicer1 instability, and significant diminution of mir-122. We proved the importance of AUF1 and sequential downstream players in AUF1-knock-down mice. Injection of GMO-PMO of AUF1 in mouse caused near absence of AUF1 coupled with increased Dicer1 and mir-122, and reduced serum cholesterol regardless of butyrate treatment indicating that butyrate acts through AUF1.ConclusionThe roster of intracellular players was as follows: AUF1-Dicer1-mir-122 for triggering butyrate driven hypocholesterolemia. To our knowledge this is the first report linking AUF-1 with cholesterol biogenesis.

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Short-Course Treatment With Imipramine Entrapped in Squalene Liposomes Results in Sterile Cure of Experimental Visceral Leishmaniasis Induced by Antimony Resistant Leishmania donovani With Increased Efficacy

Mukherjee

Pradhan

Ghosh

et al. 2020

Front. Cell. Infect. Microbiol.

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AUF-1 knock down in mice overarches butyrate driven hypo-cholesteraemia by conjuring AUF-1-Dicer-1-miR122 hierarchy

Das

Kundu

Ghosh

et al. 2022

Preprint

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This discourse probes the mechanistic molecular details of butyrate action in maintaining host- cholesterol balance. Hepatic miR122 being the most indispensable regulator of cholesterol metabolic enzymes, we studied upstream players of miR122 biogenesis in the presence and absence of butyrate in Huh7 cells and mice model. We showed that butyrate treatment caused upregulation of RNA-binding protein, AUF-1 resulting in RNase-III nuclease, Dicer-1 instability, and significant diminution of miR122. We proved its importance of AUF-1 and sequential downstream players in AUF-1-knock-down mice. We synthesized unique self-transfecting GMO (guanidinium-morpholino- oligonucleotides) linked PMO (Phosphorodiamidate-Morpholino Oligonucleotides)-based antisense reagent and injection of which in mouse caused near absence of AUF-1 coupled with increased Dicer- 1 and miR122, and reduced serum cholesterol regardless of butyrate treatment indicating that butyrate acts though AUF-1. The roster of intracellular players was as follows: AUF-1-Dicer-1-miR122 for triggering butyrate driven hypocholesterlaemia. To our knowledge this is the first report linking AUF-1 with cholesterol biogenesis.

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Linking membrane fluidity with defective antigen presentation in leishmaniasis

Pradhan

Ghosh

Hussain

et al. 2021

Parasite Immunology

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Several strategies are opted by the intracellular protozoan pathogens to hide from the host-immune surveillance. Meddling with the process of antigen processing/presentation is one of the primary ways by which they can evade host immunity. For intracellular parasites, like Leishmania, which resides within the parasitophorous vacuole (PV) of the host, parasite-specific proteins from PV are transported into the host cytosol and processed by proteasomes. These fragmented proteins are transported to the endoplasmic reticulum by TAP (Transporter associated with antigen processing) and presented through the MHC-I-dependent cross-presentation pathway. 1,2 In general, intracellular pathogens have the intrinsic ability to downregulate the surface expression of MHC-I or modulate several parameters related to MHC-I mediated presentation or cross-presentation of its antigen as it replicates within the infected host. 3 Hence these infected cells remain largely invisible to cytotoxic CD8 T cells. Similarly, exogenous proteins which might be injected into the host cytoplasm by the invading pathogens, or micro-organism endocytosed by the host, enter into a vesicular pathway, resulting in progressive acidification of the vesicles, lysosomal fusion and eventual degradation of parasite proteins which are then presented by MHC-II to the CD4 T cells.

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A Novel Bioimpedance-Based Detection of Miltefosine Susceptibility Among Clinical Leishmania donovani Isolates of the Indian Subcontinent Exhibiting Resistance to Multiple Drugs

Ghosh

Biswas

Mukherjee

et al. 2021

Front. Cell. Infect. Microbiol.

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The extent of susceptibility towards miltefosine (Mil), amphotericin B (AmpB), and paromomycin (Paro) was measured among 19 clinical isolates of Leishmania donovani (LD). Thirteen of these clinical isolates were reported to exhibit low susceptibility towards sodium stibogluconate (SSG-R), while six of them were highly susceptible (SSG-S). The degree of clearance of amastigotes (EC50) for these predefined SSG-R- and SSG-S-infected macrophages was determined against Mil, AmpB, and Paro. Two out of the 13 SSG-R isolates (BHU575 and BHU814) showed low susceptibility towards all three drugs studied, while the rest of the 11 SSG-R isolates showed varying degrees of susceptibility either towards none or only towards individual drugs. Interestingly, all the SSG-S isolates showed high susceptibility towards Mil/AmpB/Paro. The total intracellular non-protein thiol content of the LD promastigotes, which have been previously reported to be positively co-related with EC50 towards SSG, was found to be independent from the degree of susceptibility towards Mil/AmpB/Paro. Impedance spectra analysis, which quantifies membrane resistance, revealed lower impedimetric values for all those isolates exhibiting low efficacy to Mil (Mil-R). Our analysis points out that while non-protein thiol content can be an attribute of SSG-R, lower impedimetric values can be linked with lower Mil susceptibility, although neither of these parameters seems to get influenced by the degree of susceptibility towards AmpB/Paro. Finally, a correlation analysis with established biological methods suggests that impedance spectral analysis can be used for the accurate determination of lower Mil susceptibility among LD isolates, which is further validated in the LD-infected in vivo hamster model.

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