Organelles are miscommunicating: Membrane contact sites getting hijacked by pathogens

Paul, Pratyashaa; Tiwari, Bhavana

doi:10.1080/21505594.2023.2265095

Virulence

2023

DOI: 10.1080/21505594.2023.2265095

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Organelles are miscommunicating: Membrane contact sites getting hijacked by pathogens

Pratyashaa Paul,

Bhavana Tiwari

Abstract: Membrane Contact Sites (MCS) are areas of close apposition of organelles that serve as hotspots for crosstalk and direct transport of lipids, proteins and metabolites. Contact sites play an important role in Ca 2+ signalling, phospholipid synthesis, and micro autophagy. Initially, altered regulation of vesicular trafficking was regarded as the key mechanism for intracellular pathogen survival. However, emerging studies indicate that pathogens hijack MCS elements – a novel strategy for su… Show more

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2024

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VAPA mediates lipid exchange betweenLeishmania amazonensisand host macrophages

Gdovinova,

Descoteaux

2024

Preprint

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Leishmania is a vacuolar pathogen that replicates within parasitophorous vacuoles inside host phagocytes. To promote its replication, Leishmania relies on a panoply of strategies to acquire macromolecules such as lipids from host macrophages. In this study, we have evaluated the role of VAPA, an endoplasmic reticulum-resident membrane protein involved in inter-organellar lipid transport, in macrophages infected with L. amazonensis. Following infection of bone marrow-derived macrophages with metacyclic L. amazonensis promastigotes, we observed that VAPA gradually associates with communal parasitophorous vacuoles. Knockdown of VAPA prevented the replication of L. amazonensis, which was accompanied by an impaired parasitophorous vacuole expansion. Using fluorescent ceramide, we established that VAPA is required for the transport of sphingolipids to the parasitophorous vacuoles and for its acquisition by L. amazonensis amastigotes. Proximity-ligation and immunoprecipitation assays revealed that L. amazonensis hijacks VAPA by disrupting its interactions with the lipid transfer proteins CERT and ORP1L. Finally, we found that VAPA is essential for the transfer of the Leishmania virulence glycolipid lipophosphoglycan from the parasitophorous vacuoles to the host cell endoplasmic reticulum. We propose that VAPA contributes to the ability of L. amazonensis to colonize macrophages by mediating bi-directional transfer of lipids essential for parasite replication and virulence between the parasitophorous vacuoles and the host cell endoplasmic reticulum.

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VAPA mediates lipid exchange betweenLeishmania amazonensisand host macrophages

Gdovinova,

Descoteaux

2024

Preprint

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Organelles are miscommunicating: Membrane contact sites getting hijacked by pathogens

Cited by 1 publication

References 98 publications

VAPA mediates lipid exchange betweenLeishmania amazonensisand host macrophages

VAPA mediates lipid exchange betweenLeishmania amazonensisand host macrophages

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