<i>Mycobacterium avium</i>Infection and Modulation of Human Macrophage Gene Expression

Greenwell-Wild, Teresa; Vázquez, Nancy; Sim, Davis; Schito, Marco; Chatterjee, Delphi; Orenstein, Jan M.; Wahl, Sharon M.

doi:10.4049/jimmunol.169.11.6286

Cited by 40 publications

(51 citation statements)

References 63 publications

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“…These results further verified previous uncharacterized microarray data obtained from cells infected with M. avium (18,19). Indeed, the levels and kinetics of Myc expression vary among different experiments.…”

Section: Discussionsupporting

confidence: 80%

A role for c-Myc in regulating anti-mycobacterial responses

Yim

Pong

et al. 2011

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

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c-Myc (Myc) is a well known transcription factor that regulates many essential cellular processes; however, its role in modulating immunity is not known. Here, we showed different species of mycobacteria can induce Myc expression via ERK1/2 and JNK activation. Unexpectedly, the induced Myc is localized in the cytoplasm but not in the nucleus. This induced Myc expression is associated with the induction of TNF-α and IL-6 and with the suppression of intracellular mycobacterial growth. To delineate the underlying mechanisms, we demonstrated that Myc enhances IRAK1 degradation, leading to specific activations of ERK1/2 and p38 MAPK but not Akt, and reduces IκBα protein recovery upon degradation. Hence, our findings may provide insights into a potential role for Myc in regulating the antimicrobial responses.cytokine | macrophages

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Section: Discussionsupporting

confidence: 80%

A role for c-Myc in regulating anti-mycobacterial responses

Yim

Pong

et al. 2011

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

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“…While this type of classification of M. avium strains proved to be robust, in that three different methods of evaluation (MAP kinase phosphorylation, TNF-␣ secretion, and size of infection-induced transcriptome) showed consistent results with four different isolates, we found no straightforward association of a specific macrophage response signature with the pathogenicities of the infecting strains, as measured by their intracellular replication rates in vitro. Therefore, the virulence of the species M. avium is not mirrored by a stereotypic, speciesspecific macrophage response, as previously suggested (28). Nor is virulence of M. avium invariably a unique failure to activate macrophages, as hypothesized previously (24,49).…”

Section: Discussionmentioning

confidence: 49%

“…Total RNA was isolated 4 h postinfection. We and other workers have previously noted the donor-dependent variability of macrophage responses to M. avium (9,28). To minimize donor-dependent confounding effects, equal amounts of total RNA obtained from cells of five individual donors were pooled to perform biotin-labeled target synthesis for array hybridization.…”

Section: Resultsmentioning

confidence: 99%

Common and Unique Gene Expression Signatures of Human Macrophages in Response to Four Strains ofMycobacterium aviumThat Differ in Their Growth and Persistence Characteristics

et al. 2005

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Classification of pathogenic species according to the distinct host transcriptional responses that they elicit may become a relevant tool for microarray-based diagnosis of infection. Individual strains of Mycobacterium avium, an opportunistic pathogen in humans, have previously been shown to differ in terms of growth and persistence. In order to cover a wide spectrum of virulence, we selected four M. avium isolates (2151SmO, 2151SmT, SE01, TMC724) that have distinct intramacrophage replication characteristics and cause differential activation in human macrophages. Following infection with each of these strains, the expression of 12,558 genes in human macrophages was systematically analyzed by microarray technology. Fifty genes (including genes encoding proinflammatory cytokines, chemokines, signaling, and adhesion molecules) were differentially expressed more than twofold in response to all of the M. avium isolates investigated and therefore constitute a common macrophage signature in response to M. avium. The magnitude of regulation of most of these genes was directly correlated with the host cell-activating capacity of the particular M. avium strain. The regulation of a number of genes not previously associated with mycobacterial infections was apparent; these genes included genes encoding lymphocyte antigen 64 and myosin X. In addition, individual response patterns typical for some M. avium isolates could be defined by the pronounced upregulation of interleukin-12p40 (IL-12p40) (in the case of 2151SmO) or the specific upregulation of SOCS-1 and IL-10 (in the case of SE01) in macrophages. TMC724, a strain of avian origin, could not be classified by any one of these schemes, possibly indicating the limits of pathogen categorization solely by immune response signatures.The outcome of infection is the net consequence of the immune defenses of the host and a pathogen's capacity to subvert them. Macrophages play a central role in regulating innate and acquired immune responses against pathogens, but several mycobacterial species have developed strategies to persist in these cells even in the face of fully developed T-cell immunity (reviewed in references 40 and 51). Mycobacterium avium is an environmental microorganism and an opportunistic pathogen in humans (33). M. avium causes lymphadenopathies in children, pneumonia in the context of predisposing lung conditions, and disseminated infections in advanced-stage AIDS patients (31, 34). M. avium has proven to be useful in mouse models of infection to define key requirements in mycobacterial infections (3,6,8,15,21,29).Of particular interest when host-pathogen relationships at the species level are compared, M. avium strains having different origins or morphotypes have been shown to differ widely in terms of replication and persistence, both in vitro and in vivo in a mouse model of infection (5,9,15,29,43,48,52), although the molecular basis for this variability in virulence remains undetermined. Previous studies demonstrated an inverse correlation between the virule...

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“…Mycobacterium avium complex (MAC) is ubiquitous in the environment and, normally, nonpathogenic in healthy subjects [46,47].…”

Section: Mycobacterium Avium Complex Infectionmentioning

confidence: 99%

Mucosal inflammation in idiopathic bronchiectasis: cellular and molecular mechanisms

Fuschillo¹,

Felice²,

Balzano³

2008

Eur Respir J

184

124

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Bronchiectasis is a chronic and debilitating lung disease, characterised by irreversible dilatation of the bronchi as consequence of airway injury and remodelling due to recurrent or chronic airway inflammation and infection. The underlying aetiologies include autoimmune diseases, severe infections, genetic abnormalities and acquired disorders.The pathogenesis of bronchiectasis is poorly understood. Three distinct pathogenetic elements, namely infection, inflammation and enzymatic actions, which interact with each other, have been implicated in the pathophysiology of bronchiectasis.Some recent observations indicate that airway inflammation in bronchiectasis comes from a deregulated cytokine network independent of bacterial airway colonisation.In the present review, current knowledge about cellular and molecular inflammatory events in the dynamic process of host-pathogen interaction that are thought to play a relevant role in the pathogenic mechanisms of airway wall destruction leading to bronchiectasis are discussed.

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Mycobacterium aviumInfection and Modulation of Human Macrophage Gene Expression

Cited by 40 publications

References 63 publications

A role for c-Myc in regulating anti-mycobacterial responses

A role for c-Myc in regulating anti-mycobacterial responses

Common and Unique Gene Expression Signatures of Human Macrophages in Response to Four Strains ofMycobacterium aviumThat Differ in Their Growth and Persistence Characteristics

Mucosal inflammation in idiopathic bronchiectasis: cellular and molecular mechanisms

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