Direct contact of the bacterial surface induces phase separation in the host phagosome membrane

Aher Jayesh Bhausaheb, Aniruddha N, Debraj Koiri, Jafarulla Shaikh, Sandeep Choubey, Mohammed Saleem
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Abstract

Pathogenic bacteria evade host defense by rupturing the phagosomal compartment, enabling their escape into the host cytosol. The bacteria is known to establish direct physical contact with the host compartment prior to phagosome disruption. However, the impact of direct-physical contact on the phagosome remodeling and deformation remains elusive. To probe this, we first developed a method wherein we reconstitute a phagosome-like giant compartment encapsulating Mycobacterium smegmatis, a non-motile opportunistic bacterium. We discover that the direct contact between the bacteria and the encapsulating host membrane induces membrane bending, lipid wrapping, and local lipid phase separation at the contact site. The degree of phase separation is driven by the bacterial load leading to fluidization of the membrane, as evident from the decreased area stretch and bending modulus, making the host compartment more deformable. Surprisingly, for saturating bacterial load the fluid host membrane transforms into a scaffold-like rigid layer. We also find that the direct contact of the bacteria enhances the membranolytic potential of ESAT-6 thus contributing to its virulence. Together our findings provide mechanistic insights into the role of direct physical contact of the bacteria during phagosome disruption.
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细菌表面的直接接触导致宿主吞噬体膜相分离
致病细菌通过破坏吞噬体区,使其逃逸到宿主细胞质中,从而逃避宿主的防御。众所周知,在吞噬体破裂之前,细菌会与宿主区室建立直接的物理接触。然而,直接物理接触对吞噬体重塑和变形的影响仍然难以捉摸。为了探究这个问题,我们首先开发了一种方法,在这种方法中,我们重组了一个包裹着非运动性机会性细菌--烟曲霉分枝杆菌(Mycobacterium smegmatis)的巨型吞噬体。我们发现,细菌与包裹的宿主膜直接接触会导致膜弯曲、脂质包裹以及接触部位的局部脂质相分离。相分离的程度受细菌负载的驱动,导致膜的流体化,这一点从面积拉伸和弯曲模量的减小可以看出,这使得宿主隔室更易变形。令人惊讶的是,当细菌负荷达到饱和时,流体宿主膜会转变为类似于支架的刚性层。我们还发现,细菌的直接接触增强了 ESAT-6 的膜溶解潜能,从而提高了其毒力。我们的研究结果从机理上揭示了细菌直接物理接触在吞噬体破坏过程中的作用。
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