Disruption of Cg-Ppm1, a Polyprenyl Monophosphomannose Synthase, and the Generation of Lipoglycan-less Mutants in Corynebacterium glutamicum

Gibson, Kevin J.; Eggeling, Lothar; Maughan, William N.; Krumbach, Karin; Gurcha, Sudagar S.; Nigou, Jérôme; Puzo, Germain; Sahm, Hermann; Besra, Gurdyal S.

doi:10.1074/jbc.m307988200

Cited by 48 publications

(52 citation statements)

References 49 publications

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“…Clearly, MSMEG4250 is not essential in M. smegmatis but is required for growth at elevated temperatures. Electron microscopy analyses of the mutant strain as compared with the WT did not reveal any marked ultrastructural changes, in accord with the observation that a LAM-like deficient mutant of Corynebacterium did not display any altered ultrastructural morphology (19).…”

Section: Construction Of Mycobacterium Smegmatis ⌬Msmeg4250 By Allelicsupporting

confidence: 61%

“…MSMEG4250 and PIG-M are of similar size and contain 10 predicted transmembrane-spanning domains with the DID motif located in the first extracytoplasmic loop and both the N and C termini within the cytoplasm, all of which are indicative of analogous functions. Moreover, a homologous ORF is present in the known genomes of other actinomycetes, all with the ability to synthesize PIMs and related products (19).…”

Section: Sequence Of Msmeg4250 Suggests a Unique Family Of Gts Of Thmentioning

confidence: 99%

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Biosynthesis of mycobacterial lipoarabinomannan: Role of a branching mannosyltransferase

Kaur

Berg

Dinadayala

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

110

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M ycobacterial diseases, such as tuberculosis and leprosy, remain serious human public health problems. One critical feature that contributes to the particular pathogenicity and physiology of mycobacteria is the unique, highly hydrophobic and impermeable cell wall (1). Beyond the cytoplasmic membrane, the cell wall of Mycobacterium tuberculosis consists of a core of mycolic acids, arabinogalactan and peptidoglycan, providing the template for insertion of products such as the phthiocerol-containing lipids, the trehalose mycolates, phosphatidylinositol mannosides (PIMs), and their more glycosylated derivatives, lipomannan (LM) and lipoarabinomannan (LAM) (2), all of which contribute to the particular physiology and disease induction capacity of Mycobacterium species. LAM, in its various forms, including those with mannose (Man) ''caps'' (ManLAM), has been implicated in many of the key aspects of the pathogenesis of tuberculosis and leprosy, such as induction of phagocytosis, phagosomal alteration and inhibition of fusion with lysosomes, and induction of innate, humoral, and acquired T cell-mediated immunity (3, 4). However, all of these studies (often conflicting) were conducted with the isolated molecule. Mutants devoid of LAM are crucial to fully resolve its role in disease pathogenesis and bacterial physiology.Although structurally well defined (5), the underlying enzymology and genetics of LAM biosynthesis are unknown. It has been believed, although not empirically demonstrated, that both LM and LAM have their origins in the PIMs, because all contain a phosphatidylinositol (PI) moiety (5, 6). The first step in PIM synthesis involves the transfer of a Manp residue to the 2 position of the myo-inositol ring of PI to form PIM 1 , catalyzed by PimA (7,8). Biosynthesis proceeds by means of the sequential addition of Manp residues to PIM 1 or its acylated counterpart (AcPIM 1 ), § catalyzed in part by PimB and PimC, to produce PIM species having from two (PIM 2 ) to three (PIM 3 ) Manp residues (9, 10). The Manp units at position 6 of the inositol of PIM 3 are further elongated with Manp to generate higher PIMs (PIM 4 , PIM 5 , and PIM 6 ) (11, 12). However, the mannosyltransferases (ManTs) involved in these biosynthetic steps have not been identified. PIM 6 is likely a ''dead-end'' product, because it contains 2-linked Manp, a combination not found in the mannan core of LM͞ LAM (13); PIM 4 is the likely precursor for the subsequent extension of the mannan chain, giving rise to ''linear LM'' (12), which is further mannosylated at the C-2 positions, resulting in mature, branched LM. LAM itself retains the PI end and mannan backbone of LM; the Araf (arabinofuranose) residues originate in decaprenyl-P-arabinofuranose (C 50 -P-Araf ), and addition is partially catalyzed by EmbC (14).The only well characterized glycosyltransferases (GTs) implicated in PIM͞LM͞LAM biosynthesis are the three initial ManTs, PimA, PimB, and PimC, and EmbC (8-10, 14). Apparently, the ManTs that use GDP-Man as sugar donors occur on the cytoplas...

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Section: Construction Of Mycobacterium Smegmatis ⌬Msmeg4250 By Allelicsupporting

confidence: 61%

Section: Sequence Of Msmeg4250 Suggests a Unique Family Of Gts Of Thmentioning

confidence: 99%

Biosynthesis of mycobacterial lipoarabinomannan: Role of a branching mannosyltransferase

Kaur

Berg

Dinadayala

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

110

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“…for the free lipids, or in petroleum ether/acetone (95 : 5, v/v) for the bound lipids. Autoradiograms were produced by 2-3 days' exposure to Kodak X-Omat AR film to reveal 14 C-labelled lipids, 14 C-labelled fatty acid methyl esters (FAMES) and 14 C-labelled mycolic acid methyl esters (MAMES), which were compared with known standards (Puech et al, 2000(Puech et al, , 2001Gibson et al, 2003).…”

Section: Methodsmentioning

confidence: 99%

Ethambutol, a cell wall inhibitor of Mycobacterium tuberculosis, elicits l-glutamate efflux of Corynebacterium glutamicum

et al. 2005

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Corynebacterium glutamicum is used for the large-scale production of L-glutamate, but the efflux of this amino acid is poorly understood. This study shows that addition of ethambutol (EMB) to growing cultures of C. glutamicum causes L-glutamate efflux at rates of up to 15 nmol min "1 (mg dry wt) "1 , whereas in the absence of EMB, no efflux occurs. EMB is used for the treatment of Mycobacterium tuberculosis, and at a molecular level it targets a series of arabinosyltransferases (EmbCAB). The single arabinosyltransferase-encoding emb gene of C. glutamicum was placed under the control of a Tet repressor (TetR). Experiments with this strain, as well as with an emb-overexpressing strain, coupled with biochemical analyses showed that: (i) emb expression was correlated with L-glutamate efflux, (ii) emb overexpression increased EMB resistance, (iii) EMB caused less arabinan deposition in cell wall arabinogalactan, and (iv) EMB caused a reduced content of cell-wall-bound mycolic acids. Thus EMB addition resulted in a marked disordering of the cell envelope, which was also discernible by examining cellular morphology. In order to further characterize the cellular response to EMB addition, genome-wide expression profiling was performed using DNA microarrays. This identified 76 differentially expressed genes, with 18 of them upregulated more than eightfold. Among these were the cell-wall-related genes ftsE and mepA (encoding a secreted metalloprotease); however, genes of central metabolism were largely absent. Given that an altered lipid composition of the plasma membrane of C. glutamicum can result in L-glutamate efflux, we speculate that major structural alterations of the cell envelope are transmitted to the membrane, which in turn activates an export system, perhaps via increased membrane tension.

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“…[16][17][18] A C. glutamicum homolog of mycobacterial polyprenyl monophosphomannose synthetase, which is involved in mycolate-layer formation, was also identified. 19) Recently, an emb gene encoding a possible target enzyme of EMB was cloned from C. glutamicum. The effects of EMB on C. glutamicum cells were investigated using strains in which expression of emb could be controlled.…”

mentioning

confidence: 99%

Fluorescent Phospholipid Analogs as Microscopic Probes for Detection of the Mycolic Acid-Containing Layer inCorynebacterium glutamicum: Detecting Alterations in the Mycolic Acid-Containing Layer Following Ethambutol Treatment

Kumagai

Hirasawa

Hayakawa

et al. 2005

Bioscience, Biotechnology, and Biochemistry

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Disruption of Cg-Ppm1, a Polyprenyl Monophosphomannose Synthase, and the Generation of Lipoglycan-less Mutants in Corynebacterium glutamicum

Cited by 48 publications

References 49 publications

Biosynthesis of mycobacterial lipoarabinomannan: Role of a branching mannosyltransferase

Biosynthesis of mycobacterial lipoarabinomannan: Role of a branching mannosyltransferase

Ethambutol, a cell wall inhibitor of Mycobacterium tuberculosis, elicits l-glutamate efflux of Corynebacterium glutamicum

Fluorescent Phospholipid Analogs as Microscopic Probes for Detection of the Mycolic Acid-Containing Layer inCorynebacterium glutamicum: Detecting Alterations in the Mycolic Acid-Containing Layer Following Ethambutol Treatment

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