Mònica Delgado scite author profile

Autophagy is a newly recognized innate defense mechanism, acting as a cell-autonomous system for elimination of intracellular pathogens. The signals and signalling pathways inducing autophagy in response to pathogen invasion are presently not known. Here we show that autophagy is controlled by recognizing conserved pathogen-associated molecular patterns (PAMPs). We screened a PAMP library for effects on autophagy in RAW 264.7 macrophages and found that several prototype Toll-like receptor (TLR) ligands induced autophagy. Singlestranded RNA and TLR7 generated the most potent effects. Induction of autophagy via TLR7 depended on MyD88 expression. Stimulation of autophagy with TLR7 ligands was functional in eliminating intracellular microbes, even when the target pathogen was normally not associated with TLR7 signalling. These findings link two innate immunity defense systems, TLR signalling and autophagy, provide a potential molecular mechanism for induction of autophagy in response to pathogen invasion, and show that the newly recognized ability of TLR ligands to stimulate autophagy can be used to treat intracellular pathogens.

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Autophagosome-Independent Essential Function for the Autophagy Protein Atg5 in Cellular Immunity to Intracellular Pathogens

Zhao

Fux

Goodwin

et al. 2008

Cell Host & Microbe

380

472

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SUMMARY The physiologic importance of autophagy proteins for control of mammalian bacterial and parasitic infection in vivo is unknown. We show that expression of the essential autophagy protein Atg5 in granulocytes and macrophages is required for in vivo resistance to infection with L. monocytogenes and T. gondii. In primary macrophages, Atg5 was not required for IFNγ/LPS-mediated transcription, induction of nitric oxide, or inhibition of T. gondii replication. However, Atg5 was required for IFNγ/LPS-induced damage to the T. gondii parasitophorous vacuole membrane and parasite clearance. While we did not detect autophagosomes enveloping T. gondii, Atg5 was required for recruitment of the IFNγ-inducible p47 GTPase IIGP1 (Irga6) to the vacuole membrane. This work shows that Atg5 expression in phagocytic cells is essential for cellular immunity to intracellular pathogens in vivo and that an autophagy protein can participate in immunity and intracellular killing of pathogens via autophagosome-independent processes such as GTPase trafficking.

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Delivery of Cytosolic Components by Autophagic Adaptor Protein p62 Endows Autophagosomes with Unique Antimicrobial Properties

et al. 2010

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Summary Autophagy allows cells to self-digest portions of their own cytoplasm for a multitude of physiological purposes including innate and adaptive immunity functions. In one of its innate immunity manifestations, autophagy is known to contribute to the killing of intracellular microbes including Mycobacterium tuberculosis, although the molecular mechanisms have been unclear. Here, we delineated sequential steps of the autophagic pathway necessary to control intracellular M. tuberculosis and found that in addition to autophagy initiation and maturation, an accessory autophagy-targeting molecule p62 (A170 or SQSTM1) was required for mycobactericidal activity. The p62 adapter protein delivered specific ribosomal and bulk ubiquitinated cytosolic proteins to autolysosomes where they were proteolytically converted into products capable of killing M. tuberculosis. Thus, p62 brings cytosolic proteins to autolysosomes where they are processed from innocuous precursors into neo-antimicrobial peptides, explaining in part the unique bactericidal properties of autophagic organelles.

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Human IRGM regulates autophagy and cell-autonomous immunity functions through mitochondria

et al. 2010

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IRGM, a human immunity related GTPase, confers autophagic defense against intracellular pathogens by an unknown mechanism. Here we report the unexpected mode of IRGM action. IRGM showed differential affinity for mitochondrial lipid cardiolipin, translocated to mitochondria, affected mitochondrial fission and induced autophagy. Mitochondrial fission was necessary for autophagic control of intracellular mycobacteria by IRGM. IRGM influenced mitochondrial membrane polarization and cell death. Overexpression of IRGMd but not IRGMb splice isoforms caused mitochondrial depolarization and autophagy-independent but Bax/Bak-dependent cell death. By acting on mitochondria IRGM confers autophagic protection or cell death, explaining IRGM action both in defense against tuberculosis and in damaging inflammation in Crohn's disease.

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T Helper 2 Cytokines Inhibit Autophagic Control of Intracellular Mycobacterium tuberculosis

et al. 2007

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Autophagy is a recently recognized immune effector mechanism against intracellular pathogens. The role of autophagy in innate immunity has been well established, but the extent of its regulation by the adaptive immune response is less well understood. The T helper 1 (Th1) cell cytokine IFN-gamma induces autophagy in macrophages to eliminate Mycobacterium tuberculosis. Here, we report that Th2 cytokines affect autophagy in macrophages and their ability to control intracellular M. tuberculosis. IL-4 and IL-13 abrogated autophagy and autophagy-mediated killing of intracellular mycobacteria in murine and human macrophages. Inhibition of starvation-induced autophagy by IL-4 and IL-13 was dependent on Akt signaling, whereas the inhibition of IFN-gamma-induced autophagy was Akt independent and signal transducer and activator of transcription 6 (STAT6) dependent. These findings establish a mechanism through which Th1-Th2 polarization differentially affects the immune control of intracellular pathogens.

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Mònica Delgado

Toll-like receptors control autophagy

Autophagosome-Independent Essential Function for the Autophagy Protein Atg5 in Cellular Immunity to Intracellular Pathogens

Delivery of Cytosolic Components by Autophagic Adaptor Protein p62 Endows Autophagosomes with Unique Antimicrobial Properties

Human IRGM regulates autophagy and cell-autonomous immunity functions through mitochondria

T Helper 2 Cytokines Inhibit Autophagic Control of Intracellular Mycobacterium tuberculosis

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