AI Article Synopsis
- Bacterial pathogens like serovar Typhimurium exploit host eukaryotic pathways to facilitate their own survival and replication, particularly by invading intestinal cells and modifying their vacuoles.
- Two secreted effectors, SifA and SseJ, play a crucial role in transforming the vacuole into an environment conducive for bacterial replication, with SseJ exhibiting a unique "pearling effect" that helps form endosomal tubules under specific osmotic conditions.
- This study highlights the innovative use of two-color, superresolution imaging to directly observe how virulence factors are secreted during infection, revealing new insights into the mechanisms behind endosomal tubule formation and the role of the microtubule motor protein kinesin in this
Article Abstract
Bacterial pathogens exploit eukaryotic pathways for their own end. Upon ingestion, serovar Typhimurium passes through the stomach and then catalyzes its uptake across the intestinal epithelium. It survives and replicates in an acidic vacuole through the action of virulence factors secreted by a type three secretion system located on pathogenicity island 2 (SPI-2). Two secreted effectors, SifA and SseJ, are sufficient for endosomal tubule formation, which modifies the vacuole and enables to replicate within it. Two-color, superresolution imaging of the secreted virulence factor SseJ and tubulin revealed that SseJ formed clusters of conserved size at regular, periodic intervals in the host cytoplasm. Analysis of SseJ clustering indicated the presence of a pearling effect, which is a force-driven, osmotically sensitive process. The pearling transition is an instability driven by membranes under tension; it is induced by hypotonic or hypertonic buffer exchange and leads to the formation of beadlike structures of similar size and regular spacing. Reducing the osmolality of the fixation conditions using glutaraldehyde enabled visualization of continuous and intact tubules. Correlation analysis revealed that SseJ was colocalized with the motor protein kinesin. Tubulation of the endoplasmic reticulum is driven by microtubule motors, and in the present work, we describe how has coopted the microtubule motor kinesin to drive the force-dependent process of endosomal tubulation. Thus, endosomal tubule formation is a force-driven process catalyzed by virulence factors secreted into the host cytoplasm during infection. This study represents the first example of using two-color, superresolution imaging to analyze the secretion of virulence factors as they are secreted from the SPI-2 type three secretion system. Previous studies imaged effectors that were overexpressed in the host cytoplasm. The present work reveals an unusual force-driven process, the pearling transition, which indicates that -induced filaments are under force through the interactions of effector molecules with the motor protein kinesin. This work provides a caution by highlighting how fixation conditions can influence the images observed.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6016247 | PMC |
| http://dx.doi.org/10.1128/mBio.01083-18 | DOI Listing |
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Article Synopsis
- Bacterial pathogens like serovar Typhimurium exploit host eukaryotic pathways to facilitate their own survival and replication, particularly by invading intestinal cells and modifying their vacuoles.
- Two secreted effectors, SifA and SseJ, play a crucial role in transforming the vacuole into an environment conducive for bacterial replication, with SseJ exhibiting a unique "pearling effect" that helps form endosomal tubules under specific osmotic conditions.
- This study highlights the innovative use of two-color, superresolution imaging to directly observe how virulence factors are secreted during infection, revealing new insights into the mechanisms behind endosomal tubule formation and the role of the microtubule motor protein kinesin in this
Pearls in running drops on an inclined glass substrate excited by Lamb waves.
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October 2017
Institute of Sensor and Actuator Technology, Coburg University of Applied Sciences and Arts, Coburg, 96450, Germany.
We demonstrate that pearling droplets will be released from droplets as they sliding down a partially wetting glass plate excited by Lamb waves. During the movement, we find that the transitions at generating pearling are independent of the drop size and depend only on a critical capillary number Ca. Further up, the position of the pearls must be at or around the droplet's advancing or receding end of the initial state.
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