FIGURE SUMMARY
Title

Autophagy and Lc3-Associated Phagocytosis in Zebrafish Models of Bacterial Infections

Authors
Muñoz-Sánchez, S., van der Vaart, M., Meijer, A.H.
Source
Full text @ Cells

Antimicrobial mechanisms dependent on the autophagy machinery. (A) Xenophagy is a subtype of selective autophagy mediated by Sequestosome1-like receptors (SLRs) that target ubiquitinated microbes in the cytosol and interact with LC3 on nascent autophagosomes. (B) SLRs also detect galectins on damaged phagosomes, which may induce the autophagic degradation of these vesicles or initiate an autophagy-mediated membrane repair process, preventing microbes from entering the cytosol. (C) The autophagolysosomal pathway processes ubiquitinated proteins into antimicrobial peptides. (D) The formation of LAPosomes, where LC3 associates with phagosomes, is an autophagy-related process linked with reactive oxygen production.

GFP-Lc3 response to M. marinum infection in the tail fin of zebrafish larvae. In the experimental setup of tail fin injections, mCrimson-labeled M. marinum bacteria (200 colony forming units) are microinjected into the tail fin area of zebrafish larvae at 3 days post fertilization (dpf), derived from a double transgenic line that contains a ubiquitously expressed CMV:GFP-Lc3 construct and an mpeg1:mCherry-F construct that labels macrophages. The injection site and region of imaging (ROI) is indicated in the schematic drawing of the larva and a representative bright field and fluorescence overlay image shows the infected area in the tail fin. Confocal laser-scanning microscopy images were acquired 1, 4, and 24 h post infection (hpi). Fluorescent excitation in the range of GFP, far-red and red were used to visualize GFP-Lc3, M. marinum, and macrophages, respectively. At 1 hpi, macrophages are already recruited at the site of infection and phagocytosis of bacteria can be observed. At 4 hpi, GFP-Lc3 signal is observed inside infected macrophages and often appears in ring-shaped patterns. At 24 hpi, the bacterial cluster sizes and numbers are increased, both intra- and extracellularly, which is associated with strong punctate GFP-Lc3 signal in the infected tissue. The boxed areas in the representative images of the different time points are shown in detail on the right. Scale bars: 10 μm.

Host-protective and host-detrimental interactions of bacterial pathogens with the autophagy machinery in zebrafish infection models. (A) p62-dependent xenophagy restricts growth of S. flexneri bacteria in macrophages of the zebrafish host. (B) In the zebrafish M. marinum model, p62, Optn, and Dram1 are required for host resistance. p62 and Optn both mediate xenophagy in infected macrophages, while Dram1, an integral membrane protein of intracellular vesicles including lysosomes, promotes vesicle fusion events. (C) LAP, which requires the signaling molecule Rubicon (Rubcn) and the Cyba component of NADPH oxidase, is the predominant defense response of zebrafish macrophages to S. Typhimurium infection. (D) In zebrafish neutrophils, Cyba-mediated LAP provides a replication niche for S. aureus, while p62-mediated xenophagy counteracts the growth of bacteria that may be released from phagosomes or LAPosomes. Functions of the proteins indicated in bold have been demonstrated by knockdown, mutation, and/or overexpression analyses. See the text for references.

Acknowledgments
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