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Query: UMLS:C0026918 (
Mycobacterium
)
52,428
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Mycobacterium
tuberculosis is one of the intracellular parasitic bacteria escaping the intracellular killing inside macrophages. The aim of this symposium was to get some insight into the mechanism of pathogenicity and host defense in M. tuberculosis infection, which has not yet been elucidated well, by the presentation of up-to-date knowledge on these aspect in infection with different intracellular parasitic microbes. Dr. Yoshikai (Nagoya Univ.) indicated that TLR is involved in the initial response of host against S. choleraesuis. Among the cytokines contributing to the induction of specific immunity, the importance of IL-15 was emphasized, based on their own experimental data using IL-15 transgenic mice and the application of anti-IL-15 antibody in vivo. Dr. Yoshida (Kyushu Univ.) reviewed the mechanisms of intracellular growth of Legionellae. Several genes so far identified as essential genes in intra-macrophage growth appeared to be similar to those encoding type 3 secretion system observed in Shigellae. There is a significant strain difference in the growth of L. pneumophila inside macrophages and such difference seemed to be under the control of a gene at chromosome 13, Lgn 1. The investigation of difference in the mode of escape among various Legionella. spp. may provide a novel mechansim in bacterial invasion and escape. Dr. Kawamura (Kyoto Univ.) summarized some new reports on the molecular mechanism of the inhibition of P-L fusion by M. tuberculosis. He emphasized the importance of the alteration in phagosomal maturation as indicated by the accumulation of
TACO
protein. The possible involvement of TLR in the recognition of Mycobacterial cells and its LAM was discussed. Dr. Kawakami (Ryukyu Univ.) first discussed the possibility that Cryptococcus neoformans, a fungal pathogen, could be regarded as one of the intracellular parasitic microbes. His presentation mainly focused on the TH1-Th2 balance in the expression of host defense against C. neoformans in mice. From their experimental infection using attenuated strain TC-13 in various cytokine-knock out mice, the pivotal role of both IL-12 and IL-18 was clearly indicated.
...
PMID:[Mechanisms of pathogenicity and host defense in infections by intracellular parasitic microbes]. 1106 72
Pathogenic mycobacteria, including
Mycobacterium
tuberculosis, are phagocytosed by macrophages but manage to survive within the mycobacterial phagosome. Recent work has shed some more light on the mechanisms of mycobacterial entry and survival inside macrophages. Two host cell components, the steroid cholesterol and a phagosomal coat protein termed
TACO
were found to play crucial roles in the establishment of an intracellular infection. This review describes how these findings may help to understand the circumvention of the normal trafficking routes inside host cells by mycobacteria.
...
PMID:Entry and survival of pathogenic mycobacteria in macrophages. 1135 19
Mycobacterium
tuberculosis evades the innate antimicrobial defenses of macrophages by inhibiting the maturation of its phagosome to a bactericidal phagolysosome. Despite intense studies of the mycobacterial phagosome, the mechanism of mycobacterial persistence dependent on prolonged phagosomal retention of the coat protein
coronin-1
is still unclear. The present study demonstrated that several mycobacterial proteins traffic intracellularly in M. bovis BCG-infected cells and that one of them, with an apparent subunit size of M(r) 50,000, actively retains
coronin-1
on the phagosomal membrane. This protein was initially termed coronin-interacting protein (CIP)50 and was shown to be also expressed by M. tuberculosis but not by the non-pathogenic species M. smegmatis. Cell-free system experiments using a GST-
coronin-1
construct showed that binding of CIP50 to
coronin-1
required cholesterol. Thereafter, mass spectrometry sequencing identified mycobacterial lipoamide dehydrogenase C (LpdC) as a
coronin-1
binding protein. M. smegmatis over-expressing Mtb LpdC protein acquired the capacity to maintain
coronin-1
on the phagosomal membrane and this prolonged its survival within the macrophage. Importantly, IFNgamma-induced phagolysosome fusion in cells infected with BCG resulted in the dissociation of the LpdC-
coronin-1
complex by a mechanism dependent, at least in part, on IFNgamma-induced LRG-47 expression. These findings provide further support for the relevance of the LpdC-
coronin-1
interaction in phagosome maturation arrest.
...
PMID:Lipoamide dehydrogenase mediates retention of coronin-1 on BCG vacuoles, leading to arrest in phagosome maturation. 1765 61
Mycobacterium
tuberculosis is sensitive to nitric oxide generated by inducible nitric oxide synthase (iNOS). Consequently, to ensure its survival in macrophages, M. tuberculosis inhibits iNOS recruitment to its phagosome by an unknown mechanism. Here we report the mechanism underlying this process, whereby mycobacteria affect the scaffolding protein EBP50, which normally binds to iNOS and links it to the actin cytoskeleton. Phagosomes harboring live mycobacteria showed reduced capacity to retain EBP50, consistent with lower iNOS recruitment. EBP50 was found on purified phagosomes, and its expression increased upon macrophage activation, paralleling expression changes seen with iNOS. Overexpression of EBP50 increased while EBP50 knockdown decreased iNOS recruitment to phagosomes. Knockdown of EBP50 enhanced mycobacterial survival in activated macrophages. We tested another actin organizer,
coronin-1
, implicated in mycobacterium-macrophage interaction for contribution to iNOS exclusion. A knockdown of
coronin-1
resulted in increased iNOS recruitment to model latex bead phagosomes but did not increase iNOS recruitment to phagosomes with live mycobacteria and did not affect mycobacterial survival. Our findings are consistent with a model for the block in iNOS association with mycobacterial phagosomes as a mechanism dependent primarily on reduced EBP50 recruitment.
...
PMID:Mechanism of inducible nitric oxide synthase exclusion from mycobacterial phagosomes. 1806 90
Mycobacterium
leprae is an intracellular pathogen that survives within the phagosome of host macrophages. Several host factors are involved in producing tolerance, while others are responsible for killing the mycobacterium. Tryptophan aspartate-containing coat protein (
TACO
; also known as CORO1A or
coronin-1
) inhibits the phagosome maturation that allows intracellular parasitization. In addition, the Toll-like receptor (TLR) activates the innate immune response. Both CORO1A and TLR-2 co-localize on the phagosomal membrane in the dermal lesions of patients with lepromatous leprosy. Therefore, we hypothesized that CORO1A and TLR-2 might interact functionally. This hypothesis was tested by investigating the effect of CORO1A in TLR-2-mediated signalling and, inversely, the effect of TLR-2-mediated signalling on CORO1A expression. We found that CORO1A suppresses TLR-mediated signal activation in human macrophages, and that TLR2-mediated activation of the innate immune response resulted in suppression of CORO1A expression. However, M. leprae infection inhibited the TLR-2-mediated CORO1A suppression and nuclear factor-kappaB activation. These results suggest that the balance between TLR-2-mediated signalling and CORO1A expression will be key in determining the fate of M. leprae following infection.
...
PMID:Tryptophan aspartate-containing coat protein (CORO1A) suppresses Toll-like receptor signalling in Mycobacterium leprae infection. 1943 3
