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A Redox Regulatory System Critical for Mycobacterial Survival in Macrophages and Biofilm Development
A Redox Regulatory System Critical for Mycobacterial Survival in Macrophages and Biofilm Development
by Pham, Thanh H. , Nguyen, Liem , de la Peña, Andres H. , Wolff, Kerstin A. , Gabelli, Sandra B. , Nguyen, Hoa T. , Amzel, L. Mario
in Animals / Antibiotics / Bacterial Proteins - metabolism / Biofilms / Health aspects / Homeostasis / Homeostasis - physiology / Host-bacteria relationships / Humans / Identification and classification / Kinases / Macrophages / Macrophages - microbiology / Metabolism / Mycobacteria / Mycobacterium smegmatis - physiology / Oxidation-Reduction / Oxidation-reduction reactions / Oxidative stress / Phosphorylation / Proteins / Signal Transduction - physiology / Standard deviation / Tuberculosis
2015
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A Redox Regulatory System Critical for Mycobacterial Survival in Macrophages and Biofilm Development
by Pham, Thanh H. , Nguyen, Liem , de la Peña, Andres H. , Wolff, Kerstin A. , Gabelli, Sandra B. , Nguyen, Hoa T. , Amzel, L. Mario
in Animals / Antibiotics / Bacterial Proteins - metabolism / Biofilms / Health aspects / Homeostasis / Homeostasis - physiology / Host-bacteria relationships / Humans / Identification and classification / Kinases / Macrophages / Macrophages - microbiology / Metabolism / Mycobacteria / Mycobacterium smegmatis - physiology / Oxidation-Reduction / Oxidation-reduction reactions / Oxidative stress / Phosphorylation / Proteins / Signal Transduction - physiology / Standard deviation / Tuberculosis
2015
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A Redox Regulatory System Critical for Mycobacterial Survival in Macrophages and Biofilm Development
A Redox Regulatory System Critical for Mycobacterial Survival in Macrophages and Biofilm Development
by Pham, Thanh H. , Nguyen, Liem , de la Peña, Andres H. , Wolff, Kerstin A. , Gabelli, Sandra B. , Nguyen, Hoa T. , Amzel, L. Mario
in Animals / Antibiotics / Bacterial Proteins - metabolism / Biofilms / Health aspects / Homeostasis / Homeostasis - physiology / Host-bacteria relationships / Humans / Identification and classification / Kinases / Macrophages / Macrophages - microbiology / Metabolism / Mycobacteria / Mycobacterium smegmatis - physiology / Oxidation-Reduction / Oxidation-reduction reactions / Oxidative stress / Phosphorylation / Proteins / Signal Transduction - physiology / Standard deviation / Tuberculosis
2015

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A Redox Regulatory System Critical for Mycobacterial Survival in Macrophages and Biofilm Development
A Redox Regulatory System Critical for Mycobacterial Survival in Macrophages and Biofilm Development
Journal Article

A Redox Regulatory System Critical for Mycobacterial Survival in Macrophages and Biofilm Development

Pham, Thanh H.,
Nguyen, Liem,
de la Peña, Andres H.,
Wolff, Kerstin A.,
Gabelli, Sandra B.,
Nguyen, Hoa T.,
Amzel, L. Mario
2015
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Overview
Survival of M. tuberculosis in host macrophages requires the eukaryotic-type protein kinase G, PknG, but the underlying mechanism has remained unknown. Here, we show that PknG is an integral component of a novel redox homeostatic system, RHOCS, which includes the ribosomal protein L13 and RenU, a Nudix hydrolase encoded by a gene adjacent to pknG. Studies in M. smegmatis showed that PknG expression is uniquely induced by NADH, which plays a key role in metabolism and redox homeostasis. In vitro, RenU hydrolyses FAD, ADP-ribose and NADH, but not NAD+. Absence of RHOCS activities in vivo causes NADH and FAD accumulation, and increased susceptibility to oxidative stress. We show that PknG phosphorylates L13 and promotes its cytoplasmic association with RenU, and the phosphorylated L13 accelerates the RenU-catalyzed NADH hydrolysis. Importantly, interruption of RHOCS leads to impaired mycobacterial biofilms and reduced survival of M. tuberculosis in macrophages. Thus, RHOCS represents a checkpoint in the developmental program required for mycobacterial growth in these environments.
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Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject

Animals

/ Antibiotics

/ Bacterial Proteins - metabolism

/ Biofilms

/ Health aspects

/ Homeostasis

/ Homeostasis - physiology

/ Host-bacteria relationships

/ Humans

/ Identification and classification

/ Kinases

/ Macrophages

/ Macrophages - microbiology

/ Metabolism

/ Mycobacteria

/ Mycobacterium smegmatis - physiology

/ Oxidation-Reduction

/ Oxidation-reduction reactions

/ Oxidative stress

/ Phosphorylation

/ Proteins

/ Signal Transduction - physiology

/ Standard deviation

/ Tuberculosis

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