Rasha A Elmaoued 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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Control of autophagy initiation by phosphoinositide 3-phosphatase jumpy

Vergne

Roberts

Elmaoued

et al. 2009

EMBO J

249

221

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The majority of studies on autophagy, a cytoplasmic homeostatis pathway of broad biological and medical significance, have been hitherto focused on the phosphatidylinositol 3-kinases as the regulators of autophagy. Here, we addressed the reverse process driven by phosphoinositide phosphatases and uncovered a key negative regulatory role in autophagy of a phosphatidylinositol 3-phosphate (PI3P) phosphatase Jumpy (MTMR14). Jumpy associated with autophagic isolation membranes and early autophagosomes, defined by the key factor Atg16 necessary for proper localization and development of autophagic organelles. Jumpy orchestrated orderly succession of Atg factors by controlling recruitment to autophagic membranes of the sole mammalian Atg factor that interacts with PI3P, WIPI-1 (Atg18), and by affecting the distribution of Atg9 and LC3, the two Atg factors controlling organization and growth of autophagic membranes. A catalytically inactive Jumpy mutant, R336Q, found in congenital disease centronuclear myopathy, lost the ability to negatively regulate autophagy. This work reports for the first time that initiation of autophagy is controlled not only by the forward reaction of generating PI3P through a lipid kinase but that its levels are controlled by a specific PI3P phosphatase, which when defective can lead to human disease.

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2,3,7,8‐tetrachlorodibenzo‐p‐dioxin (TCDD) inhibition of coronary development is preceded by a decrease in myocyte proliferation and an increase in cardiac apoptosis

2001

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The reduction of myocyte proliferation by TCDD preceded the reduction in coronary artery number and size, suggesting that changes in coronary development may be a consequence of reduced myocyte proliferation and a thinner ventricle wall. The peak of TCDD-induced increase in apoptosis occurred even earlier in embryo development and thus may contribute to changes in myocyte proliferation, coronary development, and cardiac structural malformations; however, a cause-and-effect relationship between apoptosis and these other events has yet to be established.

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Control of autophagy initiation by phosphoinositide 3-phosphatase jumpy

Vergne¹,

Roberts²,

Elmaoued³

et al. 2009

EMBO J

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Since the publication of this paper, the authors have noticed an error in Figure 2 panel C, page 2248. The displayed gel is wrong. The error occurred during the revision of the paper. The correct Figure 2 panel C is shown here.The authors apologize for any inconvenience caused. Figure 2 Jumpy blocks autophagic degradation. (C) C2C12 cells were transfected for 48 h with control (sc) or Jumpy siRNA, incubated for 4 h with or without 100 nM Bafilomycin A1 in full media, lysed, probed for endogenous p62 and actin by immunoblotting, and percentage of p62 was quantitated (mean ± s.e.m., n ¼ 3).

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Chapter 21 Monitoring Autophagy during Mycobacterium tuberculosis Infection

Ponpuak

Delgado

Elmaoued

et al. 2009

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Tuberculosis is one of the world's most prevalent infectious diseases. The causative agent, M. tuberculosis, asymptomatically infects more than 30% of the world population and causes 8 million cases of active disease and 2 million deaths annually. Its pathogenic success stems from its ability to block phagolysosome biogenesis and subsequent destruction in the host macrophages. Recently, our laboratory has uncovered autophagy as a new means of overcoming this block and promoting the killing of mycobacteria. Here we describe the methods to study autophagy during M. tuberculosis infection of macrophages. The described assays can be used to investigate and identify factors important for autophagic elimination of mycobacteria that could potentially provide new therapeutic targets to defeat this disease.

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Rasha A Elmaoued

Toll-like receptors control autophagy

Control of autophagy initiation by phosphoinositide 3-phosphatase jumpy

2,3,7,8‐tetrachlorodibenzo‐p‐dioxin (TCDD) inhibition of coronary development is preceded by a decrease in myocyte proliferation and an increase in cardiac apoptosis

Control of autophagy initiation by phosphoinositide 3-phosphatase jumpy

Chapter 21 Monitoring Autophagy during Mycobacterium tuberculosis Infection

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