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Unravelling the Secrets of Mycobacterial Cidality through the Lens of Antisense

One of the major impediments in anti-tubercular drug discovery is the lack of a robust grammar that governs the in-vitro to the in-vivo translation of efficacy. Mycobacterium tuberculosis (Mtb) is capable of growing both extracellular as well as intracellular; encountering various hostile conditions...

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Autores principales: Kaur, Parvinder, Datta, Santanu, Shandil, Radha Krishan, Kumar, Naveen, Robert, Nanduri, Sokhi, Upneet K., Guptha, Supreeth, Narayanan, Shridhar, Anbarasu, Anand, Ramaiah, Sudha
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2016
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4856384/
https://www.ncbi.nlm.nih.gov/pubmed/27144597
http://dx.doi.org/10.1371/journal.pone.0154513
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author Kaur, Parvinder
Datta, Santanu
Shandil, Radha Krishan
Kumar, Naveen
Robert, Nanduri
Sokhi, Upneet K.
Guptha, Supreeth
Narayanan, Shridhar
Anbarasu, Anand
Ramaiah, Sudha
author_facet Kaur, Parvinder
Datta, Santanu
Shandil, Radha Krishan
Kumar, Naveen
Robert, Nanduri
Sokhi, Upneet K.
Guptha, Supreeth
Narayanan, Shridhar
Anbarasu, Anand
Ramaiah, Sudha
author_sort Kaur, Parvinder
collection PubMed
description One of the major impediments in anti-tubercular drug discovery is the lack of a robust grammar that governs the in-vitro to the in-vivo translation of efficacy. Mycobacterium tuberculosis (Mtb) is capable of growing both extracellular as well as intracellular; encountering various hostile conditions like acidic milieu, free radicals, starvation, oxygen deprivation, and immune effector mechanisms. Unique survival strategies of Mtb have prompted researchers to develop in-vitro equivalents to simulate in-vivo physiologies and exploited to find efficacious inhibitors against various phenotypes. Conventionally, the inhibitors are screened on Mtb under the conditions that are unrelated to the in-vivo disease environments. The present study was aimed to (1). Investigate cidality of Mtb targets using a non-chemical inhibitor antisense-RNA (AS-RNA) under in-vivo simulated in-vitro conditions.(2). Confirm the cidality of the targets under in-vivo in experimental tuberculosis. (3). Correlate in-vitro vs. in-vivo cidality data to identify the in-vitro condition that best predicts in-vivo cidality potential of the targets. Using cidality as a metric for efficacy, and AS-RNA as a target-specific inhibitor, we delineated the cidality potential of five target genes under six different physiological conditions (replicating, hypoxia, low pH, nutrient starvation, nitrogen depletion, and nitric oxide).In-vitro cidality confirmed in experimental tuberculosis in BALB/c mice using the AS-RNA allowed us to identify cidal targets in the rank order of rpoB>aroK>ppk>rpoC>ilvB. RpoB was used as the cidality control. In-vitro and in-vivo studies feature aroK (encoding shikimate kinase) as an in-vivo mycobactericidal target suitable for anti-TB drug discovery. In-vitro to in-vivo cidality correlations suggested the low pH (R = 0.9856) in-vitro model as best predictor of in-vivo cidality; however, similar correlation studies in pathologically relevant (Kramnik) mice are warranted. In the acute infection phase for the high fidelity translation, the compound efficacy may also be evaluated in the low pH, in addition to the standard replication condition.
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spelling pubmed-48563842016-05-06 Unravelling the Secrets of Mycobacterial Cidality through the Lens of Antisense Kaur, Parvinder Datta, Santanu Shandil, Radha Krishan Kumar, Naveen Robert, Nanduri Sokhi, Upneet K. Guptha, Supreeth Narayanan, Shridhar Anbarasu, Anand Ramaiah, Sudha PLoS One Research Article One of the major impediments in anti-tubercular drug discovery is the lack of a robust grammar that governs the in-vitro to the in-vivo translation of efficacy. Mycobacterium tuberculosis (Mtb) is capable of growing both extracellular as well as intracellular; encountering various hostile conditions like acidic milieu, free radicals, starvation, oxygen deprivation, and immune effector mechanisms. Unique survival strategies of Mtb have prompted researchers to develop in-vitro equivalents to simulate in-vivo physiologies and exploited to find efficacious inhibitors against various phenotypes. Conventionally, the inhibitors are screened on Mtb under the conditions that are unrelated to the in-vivo disease environments. The present study was aimed to (1). Investigate cidality of Mtb targets using a non-chemical inhibitor antisense-RNA (AS-RNA) under in-vivo simulated in-vitro conditions.(2). Confirm the cidality of the targets under in-vivo in experimental tuberculosis. (3). Correlate in-vitro vs. in-vivo cidality data to identify the in-vitro condition that best predicts in-vivo cidality potential of the targets. Using cidality as a metric for efficacy, and AS-RNA as a target-specific inhibitor, we delineated the cidality potential of five target genes under six different physiological conditions (replicating, hypoxia, low pH, nutrient starvation, nitrogen depletion, and nitric oxide).In-vitro cidality confirmed in experimental tuberculosis in BALB/c mice using the AS-RNA allowed us to identify cidal targets in the rank order of rpoB>aroK>ppk>rpoC>ilvB. RpoB was used as the cidality control. In-vitro and in-vivo studies feature aroK (encoding shikimate kinase) as an in-vivo mycobactericidal target suitable for anti-TB drug discovery. In-vitro to in-vivo cidality correlations suggested the low pH (R = 0.9856) in-vitro model as best predictor of in-vivo cidality; however, similar correlation studies in pathologically relevant (Kramnik) mice are warranted. In the acute infection phase for the high fidelity translation, the compound efficacy may also be evaluated in the low pH, in addition to the standard replication condition. Public Library of Science 2016-05-04 /pmc/articles/PMC4856384/ /pubmed/27144597 http://dx.doi.org/10.1371/journal.pone.0154513 Text en © 2016 Kaur et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Kaur, Parvinder
Datta, Santanu
Shandil, Radha Krishan
Kumar, Naveen
Robert, Nanduri
Sokhi, Upneet K.
Guptha, Supreeth
Narayanan, Shridhar
Anbarasu, Anand
Ramaiah, Sudha
Unravelling the Secrets of Mycobacterial Cidality through the Lens of Antisense
title Unravelling the Secrets of Mycobacterial Cidality through the Lens of Antisense
title_full Unravelling the Secrets of Mycobacterial Cidality through the Lens of Antisense
title_fullStr Unravelling the Secrets of Mycobacterial Cidality through the Lens of Antisense
title_full_unstemmed Unravelling the Secrets of Mycobacterial Cidality through the Lens of Antisense
title_short Unravelling the Secrets of Mycobacterial Cidality through the Lens of Antisense
title_sort unravelling the secrets of mycobacterial cidality through the lens of antisense
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4856384/
https://www.ncbi.nlm.nih.gov/pubmed/27144597
http://dx.doi.org/10.1371/journal.pone.0154513
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