how does salmonella hijack a cell
PAG Title | how does salmonella hijack a cell |
PAG ID | WAG000013 |
Type | P |
Source Link | BioCarta |
Publication Reference | NA |
PAG Description | Pathogenic Salmonella enter cells such as those of the intestil epithelium by altering cellular cytoskeletal structure and inducing membrane ruffling of the infected cell. Salmonella is able to alter the cytoskeleton and membrane through the action of secreted bacterial Sip proteins, SopE, SopB, and SptP that are inserted into the cytosol of the infected cell. Sip proteins encoded by Salmonella are required for the action of SopE and for the invasion of epithelial cells. SipA stabilizes actin filaments, inducing membrane ruffling and perhaps focusing membrane changes where bacteria are localized to allow their entry. SipC produces a similar effect on actin filaments and cytoskeletal structure. SopE acts as an exchange factor on Rac1 and Cdc42, two GTPases in the Rho family that regulate actin cytoskeleton. The activation of Rac2 and Cdc42 by Salmonella SopE induces changes in cytoskeleton structure that allow bacterial entry into the cell. SopB is another salmonella protein that acts as an inositol polyphosphate phosphatase and also stimulates Cdc42 and Rac1. One of the cellular targets of both Cdc42 and Rac1 that affects actin structure is the Arp2/3 complex. Cdc42 and Rac1 activate Wasp, which activates Arp2/3. Activated Arp2/3 induces the formation of actin Y branches, which in combition with changes in actin caused by SipA and SipC help to form lamellipodia, and causes membrane ruffling, leading to entry of Salmonella into the affected cell. |
Species | Homo sapiens |
Quality Metric Scores | nCoCo Score: 3,179 |
Information Content | Rich |
Other IDs | |
Base PAG ID | WAG000013 |
Human Phenotyte Annotation | |
Curator | PAGER curation team |
Curator Contact | PAGER-contact@googlegroups.com |
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