AI Article Synopsis
- Rab GTPases are targeted by bacterial pathogens to manipulate membrane trafficking, with specific focus on Rab10's role during infection.
- The study identifies ubiquitin signaling, particularly from SidE and SidC ligases, as essential for the modification and recruitment of Rab10 to bacterial vacuoles.
- MavC functions as a negative regulator, crosslinking ubiquitin to SdcB and inhibiting its action, which leads to the removal of Rab10 from vacuoles during later infection stages.
Article Abstract
Rab GTPases are representative targets of manipulation by intracellular bacterial pathogens for hijacking membrane trafficking. recruits many Rab GTPases to its vacuole and exploits their activities. Here, we found that infection-associated regulation of Rab10 dynamics involves ubiquitin signaling cascades mediated by the SidE and SidC families of ubiquitin ligases. Phosphoribosyl-ubiquitination of Rab10 catalyzed by the SidE ligases is crucial for its recruitment to the bacterial vacuole. SdcB, the previously uncharacterized SidC-family effector, resides on the vacuole and contributes to retention of Rab10 at the late stages of infection. We further identified MavC as a negative regulator of SdcB. By the transglutaminase activity, MavC crosslinks ubiquitin to SdcB and suppresses its function, resulting in elimination of Rab10 from the vacuole. These results demonstrate that the orchestrated actions of many effectors fine-tune the dynamics of Rab10 during infection.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11108646 | PMC |
| http://dx.doi.org/10.7554/eLife.89002 | DOI Listing |
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