Abstract
Post-translational modifications (PTMs) are widely used by eukaryotes to control the enzymatic activity, localization or stability of their proteins. Traditionally, it was believed that the broad biochemical diversity of the PTMs is restricted to eukaryotic cells, which exploit it in extensive networks to fine-tune various and complex cellular functions. During the last decade, the advanced detection methods of PTMs and functional studies of the host–pathogen relationships highlight that bacteria have also developed a large arsenal of PTMs, particularly to subvert host cell pathways to their benefit. Legionella pneumophila, the etiological agent of the severe pneumonia legionellosis, is the paradigm of highly adapted intravacuolar pathogens that have set up sophisticated biochemical strategies. Among them, L. pneumophila has evolved eukaryotic-like and rare/novel PTMs to hijack host cell processes. Here, we review recent progress about the diversity of PTMs catalyzed by Legionella: ubiquitination, prenylation, phosphorylation, glycosylation, methylation, AMPylation, and de-AMPylation, phosphocholination, and de-phosphocholination. We focus on the host cell pathways targeted by the bacteria catalyzed PTMs and we stress the importance of the PTMs in the Legionella infection strategy. Finally, we highlight that the discovery of these PTMs undoubtedly made significant breakthroughs on the molecular basis of Legionella pathogenesis but also lead the way in improving our knowledge of the eukaryotic PTMs and complex cellular processes that are associated to.
Highlights
Post-translational modifications (PTMs) are widely used by eukaryotes to control quickly, locally and the enzymatic activity, localization or stability of their proteins, and to fine-tune key factors of the cellular biology to environmental changes
It was believed that the broad biochemical diversity of the PTMs is restricted to complex eukaryotic cells, which exploit it in extensive networks to control various and complex cellular functions
Given PTMs play key roles in the cellular biology, it is not surprising that interference with host PTMs is a strategy widely used by bacterial pathogens to escape from host cell defences and to hijack host cell pathways to their benefit
Summary
Post-translational modifications (PTMs) are widely used by eukaryotes to control quickly, locally and the enzymatic activity, localization or stability of their proteins, and to fine-tune key factors of the cellular biology to environmental changes. It was believed that the broad biochemical diversity of the PTMs is restricted to complex eukaryotic cells, which exploit it in extensive networks to control various and complex cellular functions. Within environmental phagocytic cells and human macrophages, L. pneumophila evades endocytic degradation (Horwitz and Maxfield, 1984; Clemens et al, 2000), controls the innate immune response, especially the NF-κB pathway (Schmeck et al, 2007; Shin et al, 2008), and triggers the biogenesis of a Legionella-containing vacuole (LCV), a rough endoplasmic reticulum-like compartment permissive for its intracellular replication (Horwitz, 1983; Kagan and Roy, 2002). Crucial for hijacking host cell vesicle trafficking necessary for LCV biogenesis, and subsequently for intracellular multiplication of L. pneumophila, is the Dot/Icm Type 4 Secretion System (T4SS; Marra et al, 1992; Andrews et al, 1998) that www.frontiersin.org
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