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      Insights on Mycobacterium leprae Efflux Pumps and Their Implications in Drug Resistance and Virulence

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          Abstract

          Drug resistance in Mycobacterium leprae is assumed to be due to genetic alterations in the drug targets and reduced cell wall permeability. However, as observed in Mycobacterium tuberculosis, drug resistance may also result from the overactivity of efflux systems, which is mostly unexplored. In this perspective, we discuss known efflux pumps involved in M. tuberculosis drug resistance and virulence and investigate similar regions in the genome of M. leprae. In silico analysis reveals that the major M. tuberculosis efflux pumps known to be associated with drug resistance and virulence have been retained during the reductive evolutionary process that M. leprae underwent, e.g., RND superfamily, the ABC transporter BacA, and the MFS P55. However, some are absent (DinF, MATE) while others are derepressed (Mmr, SMR) in M. leprae reflecting the specific environment where M. leprae may live. The occurrence of several multidrug resistance efflux transporters shared between M. leprae and M. tuberculosis reveals potential implications in drug resistance and virulence. The conservation of the described efflux systems in M. leprae upon genome reduction indicates that these systems are potentially required for its intracellular survival and lifestyle. They potentially are involved in M. leprae drug resistance, which could hamper leprosy treatment success. Studying M. leprae efflux pumps as new drug targets is useful for future leprosy therapeutics, enhancing the global efforts to eradicate endemic leprosy, and prevent the emergence of drug resistance in afflicted countries.

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          The Black Queen Hypothesis: Evolution of Dependencies through Adaptive Gene Loss

          J Morris, Richard Lenski, Erik R. Zinser (2012)
          ABSTRACT Reductive genomic evolution, driven by genetic drift, is common in endosymbiotic bacteria. Genome reduction is less common in free-living organisms, but it has occurred in the numerically dominant open-ocean bacterioplankton Prochlorococcus and “Candidatus Pelagibacter,” and in these cases the reduction appears to be driven by natural selection rather than drift. Gene loss in free-living organisms may leave them dependent on cooccurring microbes for lost metabolic functions. We present the Black Queen Hypothesis (BQH), a novel theory of reductive evolution that explains how selection leads to such dependencies; its name refers to the queen of spades in the game Hearts, where the usual strategy is to avoid taking this card. Gene loss can provide a selective advantage by conserving an organism’s limiting resources, provided the gene’s function is dispensable. Many vital genetic functions are leaky, thereby unavoidably producing public goods that are available to the entire community. Such leaky functions are thus dispensable for individuals, provided they are not lost entirely from the community. The BQH predicts that the loss of a costly, leaky function is selectively favored at the individual level and will proceed until the production of public goods is just sufficient to support the equilibrium community; at that point, the benefit of any further loss would be offset by the cost. Evolution in accordance with the BQH thus generates “beneficiaries” of reduced genomic content that are dependent on leaky “helpers,” and it may explain the observed nonuniversality of prototrophy, stress resistance, and other cellular functions in the microbial world.
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            The continuing challenges of leprosy.

            D Scollard, L. ADAMS, T P Gillis (2006)
            Leprosy is best understood as two conjoined diseases. The first is a chronic mycobacterial infection that elicits an extraordinary range of cellular immune responses in humans. The second is a peripheral neuropathy that is initiated by the infection and the accompanying immunological events. The infection is curable but not preventable, and leprosy remains a major global health problem, especially in the developing world, publicity to the contrary notwithstanding. Mycobacterium leprae remains noncultivable, and for over a century leprosy has presented major challenges in the fields of microbiology, pathology, immunology, and genetics; it continues to do so today. This review focuses on recent advances in our understanding of M. leprae and the host response to it, especially concerning molecular identification of M. leprae, knowledge of its genome, transcriptome, and proteome, its mechanisms of microbial resistance, and recognition of strains by variable-number tandem repeat analysis. Advances in experimental models include studies in gene knockout mice and the development of molecular techniques to explore the armadillo model. In clinical studies, notable progress has been made concerning the immunology and immunopathology of leprosy, the genetics of human resistance, mechanisms of nerve injury, and chemotherapy. In nearly all of these areas, however, leprosy remains poorly understood compared to other major bacterial diseases.
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              Microbial minimalism: genome reduction in bacterial pathogens.

              Nancy Moran (2002)
              When bacterial lineages make the transition from free-living or facultatively parasitic life cycles to permanent associations with hosts, they undergo a major loss of genes and DNA. Complete genome sequences are providing an understanding of how extreme genome reduction affects evolutionary directions and metabolic capabilities of obligate pathogens and symbionts.
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                Author and article information

                Contributors
                Journal
                Journal ID (nlm-ta): Front Microbiol
                Journal ID (iso-abbrev): Front Microbiol
                Journal ID (publisher-id): Front. Microbiol.
                Title: Frontiers in Microbiology
                Publisher: Frontiers Media S.A.
                ISSN (Electronic): 1664-302X
                Publication date (Electronic): 13 December 2018
                Publication date Collection: 2018
                Volume: 9
                Electronic Location Identifier: 3072
                Affiliations
                [1] 1Global Health and Tropical Medicine, Instituto de Higiene e Medicina Tropical, Universidade Nova de Lisboa , Lisbon, Portugal
                [2] 2Study Group for Mycobacterial Infections (ESGMYC), European Society for Clinical Microbiology and Infectious Diseases (ESCMID) , Basel, Switzerland
                [3] 3Université Paris Diderot, INSERM IAME UMR1137, Sorbonne Paris Cité , Paris, France
                [4] 4APHP, Groupe Hospitalier Lariboisière Fernand-Widal, Laboratoire de Bacteriologie , Paris, France
                [5] 5Centre National de Référence des Mycobactéries et Résistance des Mycobactéries aux Antituberculeux , Paris, France
                Author notes

                Edited by: Silvia Buroni, University of Pavia, Italy

                Reviewed by: Katiany Rizzieri Caleffi Ferracioli, Universidade Estadual de Maringá, Brazil; Yusuf Akhter, Babasaheb Bhimrao Ambedkar University, India

                *Correspondence: Emmanuelle Cambau emmanuelle.cambau@ 123456aphp.fr

                This article was submitted to Evolutionary and Genomic Microbiology, a section of the journal Frontiers in Microbiology

                Article
                DOI: 10.3389/fmicb.2018.03072
                PMC ID: 6300501
                PubMed ID: 29387050
                SO-VID: 6855bb08-8e05-473c-854b-23bb93ec4468
                Copyright © Copyright © 2018 Machado, Lecorche, Mougari, Cambau and Viveiros.
                License:

                This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

                History
                Date received : 18 July 2018
                Date accepted : 28 November 2018
                Page count
                Figures: 1, Tables: 1, Equations: 0, References: 96, Pages: 10, Words: 7861
                Categories
                Subject: Microbiology
                Subject: Perspective

                ScienceOpen disciplines: Microbiology & Virology
                Keywords: antimicrobial resistance,efflux pumps,leprosy,mycobacteria,tuberculosis,virulence
                Data availability:
                ScienceOpen disciplines: Microbiology & Virology
                Keywords: antimicrobial resistance, efflux pumps, leprosy, mycobacteria, tuberculosis, virulence

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