Legionella Effector AnkX Disrupts Host Cell Endocytic Recycling in a Phosphocholination-Dependent Manner

Allgood, Samual C.; Dueñas, Barbara P. Romero; Noll, Rebecca R.; Pike, Colleen M.; Lein, Sean; Neunuebel, M. Ramona

doi:10.3389/fcimb.2017.00397

Cited by 31 publications

(36 citation statements)

References 59 publications

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“…Thus, it would be expected that during infection, the Rab35 pool accessed by AnkX remains locked in an inactive GDP-bound conformation, which presumably contributes to inhibition of transferrin recycling. In support of this notion, transferrin recycling was inhibited in macrophages infected with the ΔankX mutant complemented with wild-type AnkX but not when complemented with the catalytically inactive AnkX H229A (Allgood et al, 2017). This directly links post-translational modification of host proteins to an inhibitory effect on recycling endocytosis, but it is unclear if this effect was mediated by targeting other recycling Rabs in addition to Rab35.…”

Section: Legionellamentioning

confidence: 95%

“…Though more is known about how L. pneumophila effectors exploit endoplasmic‐reticulum‐to‐Golgi traffic, how other membrane trafficking pathways might be manipulated is less clear. In a recent study using a pulse‐chase approach, transferrin recycling was found to be drastically diminished in U937 macrophages infected with wild‐type L. pneumophila but not in those infected with a translocation‐deficient mutant (Allgood et al, ). This is consistent with the notion that L. pneumophila disrupts one or more host endocytic recycling pathway because TfR is recycled through both the “fast” and “slow” recycling pathways.…”

Section: Bacterial Pathogens Target Rabs That Regulate Endocytic Recymentioning

confidence: 99%

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The recycling endosome and bacterial pathogens

Allgood

Neunuebel

2018

Cellular Microbiology

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Summary Bacterial pathogens have developed a wide range of strategies to survive within human cells. A number of pathogens multiply in a vacuolar compartment, while others can rupture the vacuole and replicate in the host cytosol. A common theme among many bacterial pathogens is the use of specialized secretion systems to deliver effector proteins into the host cell. These effectors can manipulate the host’s membrane trafficking pathways to remodel the vacuole into a replication-permissive niche and prevent degradation. As master regulators of eukaryotic membrane traffic, Rab GTPases are principal targets of bacterial effectors. This review highlights the manipulation of Rab GTPases that regulate host recycling endocytosis by several bacterial pathogens including Chlamydia pneumoniae, Chlamydia trachomatis, Shigella flexneri, Salmonella enterica serovar Typhimurium, Uropathogenic Escherichia coli, and Legionella pneumophila. Recycling endocytosis plays key roles in a variety of cellular aspects such as nutrient uptake, immunity, cell division, migration and adhesion. Though much remains to be understood about the molecular basis and the biological relevance of bacterial pathogens exploiting Rab GTPases, current knowledge supports the notion that endocytic recycling Rab GTPases are differentially targeted to avoid degradation and support bacterial replication. Thus, future studies of the interactions between bacterial pathogens and host endocytic recycling pathways are poised to deepen our understanding of bacterial survival strategies.

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Section: Legionellamentioning

confidence: 95%

Section: Bacterial Pathogens Target Rabs That Regulate Endocytic Recymentioning

confidence: 99%

The recycling endosome and bacterial pathogens

Allgood

Neunuebel

2018

Cellular Microbiology

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“…Another L. pneumophila effector protein is AnkX, a phosphocholine transferase that covalently links a phosphocholine moiety to Rab35 [82]. Fluorescent protein-tagged AnkX introduced to mammalian cells was found to localize at the plasma membrane and tubular membrane compartments by transmission electron microscopy [83]. Consistent with its targeting of the endocytic recycling pathway, AnkX co-localized with Rab35 and a Rab35 cargo, the major histocompatibility class I protein (MHCI) [83].…”

Section: Pathogens Use the Rab35 Pathway During Infectionsmentioning

confidence: 99%

The Function of Rab35 in Development and Disease

Song¹,

Testa²

2018

Peripheral Membrane Proteins

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Rab35 mediates membrane trafficking between the plasma membrane and the early endosomes at the cell surface. Our understanding of the cellular function of Rab35 reveals its role in development and diseases. In the developmental context, Rab35 has been shown to play an important role in regulating epithelial polarity, lumen opening, myoblast fusion, intercalation of epithelium, myelination, neurite outgrowth, and oocyte meiotic maturation. Disruption of recycling endosome mediated by Rab35 has been linked to several neurological diseases, including Parkinson's disease and Down syndrome. In addition, because Rab35 modulates cell migration through its interaction with various effectors, Rab35 plays an important role in cancers. Lastly, the Rab35-mediated recycling endosomal pathway and exocytosis is utilized by pathogens or hijacked by pathogens to promote their infection and survival. This review summarizes the function of Rab35 in endocytosis and focuses on the role of Rab35 in the context of development and diseases.

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“…Zhu et al, 2011). Effectors are responsible for preventing lysosome fusion, recruitment of ER-derived vesicles to the LCV, evasion of the innate immune response, and modulation of a plethora of other host processes to promote intracellular survival and replication of L. pneumophila (Allgood et al, 2017; Bärlocher, Welin, & Hilbi, 2017; Fontana et al, 2011; Horwitz, 1983; Horwitz & Maxfield, 1984; Isberg, O’Connor, & Heidtman, 2009; ubori, Bui, Hubber, & Nagai, 2017; Luo, 2011; C. Price et al, 2017; C. T. Price, Al-Quadan, Santic, Rosenshine, & Abu Kwaik, 2011; Qiu & Luo, 2017; Swanson & Isberg, 1995a, 1995b).…”

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confidence: 99%

Evasion of phagotrophic predation by protist hosts and innate immunity of metazoan hosts byLegionella pneumophila

Best

Kwaik

2018

Cellular Microbiology

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Summary Legionella pneumophila is a ubiquitous environmental bacterium that has evolved to infect and proliferate within amoebae and other protists. It is thought that accidental inhalation of contaminated water particles by humans is what has enabled this pathogen to proliferate within alveolar macrophages and cause pneumonia. However, the highly evolved macrophages are equipped more sophisticated innate defense mechanisms than protists, such as the evolution of phagotrophic feeding into phagocytosis with more evolved innate defense processes. Not surprisingly, the majority of proteins involved in phagosome biogenesis (~80%) have origins in the phagotrophy stage of evolution. There are a plethora of highly evolved cellular and innate metazoan processes, not represented in Protist biology, that are modulated by L. pneumophila; including TLR2 signaling, NF-κB, apoptotic and inflammatory processes, histone modification, caspases, and the NLRC-Naip5 inflammasomes. Importantly, L. pneumophila infects hemocytes of the invertebrate Galleria mellonella, kill G. mellonella larvae, and proliferate in and kill Drosophila adult flies and Caenorhabditis elegans. Although co-evolution with protist hosts has provided a substantial blueprint for L. pneumophila to infect macrophages, we discuss the further evolutionary aspects of co-evolution of L. pneumophila and its adaptation to modulate various highly evolved innate metazoan processes prior to becoming a human pathogen.

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Legionella Effector AnkX Disrupts Host Cell Endocytic Recycling in a Phosphocholination-Dependent Manner

Cited by 31 publications

References 59 publications

The recycling endosome and bacterial pathogens

The recycling endosome and bacterial pathogens

The Function of Rab35 in Development and Disease

Evasion of phagotrophic predation by protist hosts and innate immunity of metazoan hosts byLegionella pneumophila

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