Stevanus A. Listian scite author profile

Bacteria interact with their environment including microbes and higher eukaryotes. The ability of bacteria and fungi to affect each other are defined by various chemical, physical and biological factors. During physical association, bacterial cells can directly attach and settle on the hyphae of various fungal species. Such colonization of mycelia was proposed to be dependent on biofilm formation by the bacteria, but the essentiality of the biofilm matrix was not represented before.Here, we demonstrate that secreted biofilm matrix components of the soil-dwelling bacterium, Bacillus subtilis are essential for the establishment of a dense bacterial population on the hyphae of the filamentous black mold fungus, Aspergillus niger and the basidiomycete mushroom, Agaricus bisporus. We further illustrate that these matrix components can be shared among various mutants highlighting the community shaping impact of biofilm formers on bacteria-fungi interactions.

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Conserved mechanisms drive host-lipid access, import, and utilization in Mycobacterium tuberculosis and M. marinum

Foulon

Listian

Soldati

et al. 2022

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ER-dependent membrane repair of mycobacteria-induced vacuole damage

Anand

Mazur

Rosell-Arevalo

et al. 2023

Preprint

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Several intracellular pathogens, such asMycobacterium tuberculosis, damage endomembranes to access the cytosol and subvert innate immune responses. The host counteracts endomembrane damage by recruiting repair machineries that retain the pathogen inside the vacuole. Here, we show that the endoplasmic reticulum (ER)-Golgi protein oxysterol binding protein (OSBP) and itsDictyostelium discoideumhomologue OSBP8 are recruited to theMycobacterium-containing vacuole (MCV) after ESX-1-dependent membrane damage. Lack of OSBP8 causes a hyperaccumulation of phosphatidylinositol-4-phosphate (PI4P) on the MCV and decreased cell viability. OSBP8-depleted cells had reduced lysosomal and degradative capabilities of their vacuoles that favoured mycobacterial growth. In agreement with a function of OSBP8 in membrane repair, human macrophages infected withM. tuberculosisrecruited OSBP in an ESX-1 dependent manner. These findings identified an ER-dependent repair mechanism for restoring MCVs in which OSBP8 functions to equilibrate PI4P levels on damaged membranes.

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List of contributors

Vallejo-Cardona

Fraga²,

Bhardwaj³

et al. 2022

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