Zijiang Zhao

Publications (6)61.11 Total impact

• Source

  Available from: Vojo Deretic

  Article: Delivery of cytosolic components by autophagic adaptor protein p62 endows autophagosomes with unique antimicrobial properties.

  Marisa Ponpuak, Alexander S Davis, Esteban A Roberts, Monica A Delgado, Christina Dinkins, Zijiang Zhao, Herbert W Virgin, George B Kyei, Terje Johansen, Isabelle Vergne, Vojo Deretic
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  ABSTRACT: 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 adaptor 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.
  Immunity 03/2010; 32(3):329-41. · 21.64 Impact Factor
• Source

  Available from: Chris Rae

  Article: Listeriolysin O is necessary and sufficient to induce autophagy during Listeria monocytogenes infection.

  Nicole Meyer-Morse, Jennifer R Robbins, Chris S Rae, Sofia N Mochegova, Michele S Swanson, Zijiang Zhao, Herbert W Virgin, Daniel Portnoy
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  ABSTRACT: Recent studies have suggested that autophagy is utilized by cells as a protective mechanism against Listeria monocytogenes infection. However we find autophagy has no measurable role in vacuolar escape and intracellular growth in primary cultured bone marrow derived macrophages (BMDMs) deficient for autophagy (atg5-/-). Nevertheless, we provide evidence that the pore forming activity of the cholesterol-dependent cytolysin listeriolysin O (LLO) can induce autophagy subsequent to infection by L. monocytogenes. Infection of BMDMs with L. monocytogenes induced microtubule-associated protein light chain 3 (LC3) lipidation, consistent with autophagy activation, whereas a mutant lacking LLO did not. Infection of BMDMs that express LC3-GFP demonstrated that wild-type L. monocytogenes was encapsulated by LC3-GFP, consistent with autophagy activation, whereas a mutant lacking LLO was not. Bacillus subtilis expressing either LLO or a related cytolysin, perfringolysin O (PFO), induced LC3 colocalization and LC3 lipidation. Further, LLO-containing liposomes also recruited LC3-GFP, indicating that LLO was sufficient to induce targeted autophagy in the absence of infection. The role of autophagy had variable effects depending on the cell type assayed. In atg5-/- mouse embryonic fibroblasts, L. monocytogenes had a primary vacuole escape defect. However, the bacteria escaped and grew normally in atg5-/- BMDMs. We propose that membrane damage, such as that caused by LLO, triggers bacterial-targeted autophagy, although autophagy does not affect the fate of wild-type intracellular L. monocytogenes in primary BMDMs.
  PLoS ONE 01/2010; 5(1):e8610. · 4.09 Impact Factor
• Article: Identification of Atg5-dependent transcriptional changes and increases in mitochondrial mass in Atg5-deficient T lymphocytes.

  Linda M Stephenson, Brian C Miller, Aylwin Ng, Jason Eisenberg, Zijiang Zhao, Ken Cadwell, Daniel B Graham, Noboru N Mizushima, Ramnik Xavier, Herbert W Virgin, Wojciech Swat
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  ABSTRACT: Autophagy is implicated in many functions of mammalian cells such as organelle recycling, survival and differentiation, and is essential for the maintenance of T and B lymphocytes. Here, we demonstrate that autophagy is a constitutive process during T cell development. Deletion of the essential autophagy genes Atg5 or Atg7 in T cells resulted in decreased thymocyte and peripheral T cell numbers, and Atg5-deficient T cells had a decrease in cell survival. We employed functional-genetic and integrative computational analyses to elucidate specific functions of the autophagic process in developing T-lineage lymphocytes. Our whole-genome transcriptional profiling identified a set of 699 genes differentially expressed in Atg5-deficient and Atg5-sufficient thymocytes (Atg5-dependent gene set). Strikingly, the Atg5-dependent gene set was dramatically enriched in genes encoding proteins associated with the mitochondrion. In support of a role for autophagy in mitochondrial maintenance in T lineage cells, the deletion of Atg5 led to increased mitochondrial mass in peripheral T cells. We also observed a correlation between mitochondrial mass and Annexin-V staining in peripheral T cells. We propose that autophagy is critical for mitochondrial maintenance and T cell survival. We speculate that, similar to its role in yeast or mammalian liver cells, autophagy is required in T cells for the removal of damaged or aging mitochondria and that this contributes to the cell death of autophagy-deficient T cells.
  Autophagy 08/2009; 5(5):625-35. · 7.45 Impact Factor
• Source

  Available from: Vojo Deretic

  Article: Autophagosome-independent essential function for the autophagy protein Atg5 in cellular immunity to intracellular pathogens.

  Zijiang Zhao, Blima Fux, Megan Goodwin, Ildiko R Dunay, David Strong, Brian C Miller, Ken Cadwell, Monica A Delgado, Marisa Ponpuak, Karen G Green, Robert E Schmidt, Noboru Mizushima, Vojo Deretic, L David Sibley, Herbert W Virgin
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  ABSTRACT: The physiologic importance of autophagy proteins for control of mammalian bacterial and parasitic infection in vivo is unknown. Using mice with granulocyte- and macrophage-specific deletion of the essential autophagy protein Atg5, we show that Atg5 is required for in vivo resistance to the intracellular pathogens Listeria monocytogenes and Toxoplasma gondii. In primary macrophages, Atg5 was required for interferongamma (IFN-gamma)/LPS-induced damage to the T. gondii parasitophorous vacuole membrane and parasite clearance. While we did not detect classical hallmarks of autophagy, such as autophagosomes enveloping T. gondii, Atg5 was required for recruitment of IFN-gamma-inducible p47 GTPase IIGP1 (Irga6) to the vacuole membrane, an event that mediates IFN-gamma-mediated clearance of T. gondii. 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.
  Cell host & microbe 12/2008; 4(5):458-69. · 13.02 Impact Factor
• Source

  Available from: fly-bay.org

  Article: Coronavirus replication does not require the autophagy gene ATG5.

  Zijiang Zhao, Larissa B Thackray, Brian C Miller, Teresa M Lynn, Michelle M Becker, Eric Ward, Noboru N Mizushima, Mark R Denison, Herbert W Virgin
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  ABSTRACT: Macroautophagy (herein autophagy) is a cellular process, requiring ATG5, by which cells deliver double membrane-bound packets containing cytoplasm or cytoplasmic organelles to the lysosome. This process has been reported in some cases to be antiviral, while in other cases it has been reported to be required for efficient viral replication or release. A role for autophagy in RNA virus replication has been an attractive hypothesis because of the association of RNA virus replication with complex membrane rearrangements in the cytoplasm that can generate opposed double membranes. In this study we demonstrate that ATG5 is not required for murine hepatitis virus (MHV) replication n either bone marrow derived macrophages (BMMphi) lacking ATG5 by virtue of Crerecombinase ediated gene deletion or primary low passage murine ATG5(-/-) embryonic ibroblasts (pMEFs). We conclude that neither ATG5 nor an intact autophagic pathway re required for MHV replication or release.
  Autophagy 3(6):581-5. · 7.45 Impact Factor
• Source

  Available from: landesbioscience.com

  Article: The autophagy gene ATG5 plays an essential role in B lymphocyte development.

  Brian C Miller, Zijiang Zhao, Linda M Stephenson, Ken Cadwell, Heather H Pua, Heung Kyu Lee, Noboru N Mizushima, Akiko Iwasaki, You-Wen He, Wojciech Swat, Herbert W Virgin
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  ABSTRACT: Macroautophagy (herein autophagy) is an evolutionarily conserved process, requiring the gene ATG5, by which cells degrade cytoplasmic constituents and organelles. Here we show that ATG5 is required for efficient B cell development and for the maintenance of B-1a B cell numbers. Deletion of ATG5 in B lymphocytes using Cre-LoxP technology or repopulation of irradiated mice with ATG5-/- fetal liver progenitors resulted in a dramatic reduction in B-1 B cells in the peritoneum. ATG5-/- progenitors exhibited a significant defect in B cell development at the pro- to pre-B cell transition, although a proportion of pre-B cells survived to populate the periphery. Inefficient B cell development in the bone marrow was associated with increased cell death, indicating that ATG5 is important for B cell survival during development. In addition, B-1a B cells require ATG5 for their maintenance in the periphery. We conclude that ATG5 is differentially required at discrete stages of development in distinct, but closely related, cell lineages.
  Autophagy 4(3):309-14. · 7.45 Impact Factor