TY - JOUR
T1 - Characterization of the translocation-competent complex between the Helicobacter pylori oncogenic protein CagA and the accessory protein CagF
AU - Bonsor, Daniel A.
AU - Weiss, Evelyn
AU - Iosub-Amir, Anat
AU - Reingewertz, Tali H.
AU - Chen, Tiffany W.
AU - Haas, Rainer
AU - Friedler, Assaf
AU - Fischer, Wolfgang
AU - Sundberg, Eric J.
PY - 2013/11/15
Y1 - 2013/11/15
N2 - CagA is a virulence factor that Helicobacter pylori inject into gastric epithelial cells through a type IV secretion system where it can cause gastric adenocarcinoma. Translocation is dependent on the presence of secretion signals found in both the N-and C-terminal domains of CagA and an interaction with the accessory protein CagF. However, the molecular basis of this essential protein-protein interaction is not fully understood. Herein we report, using isothermal titration calorimetry, that CagA forms a 1:1 complex with a monomer of CagF with nM affinity. Peptide arrays and isothermal titration calorimetry both show that CagF binds to all five domains of CagA, each with μM affinity. More specifically, a coiled coil domain and a C-terminal helix within CagF contacts domains II-III and domain IV of CagA, respectively. In vivo complementation assays of H. pylori with a double mutant, L36A/I39A, in the coiled coil region of CagF showed a severe weakening of the CagA-CagF interaction to such an extent that it was nearly undetectable. However, it had no apparent effect on CagA translocation. Deletion of the C-terminal helix of CagF also weakened the interaction with CagA but likewise had no effect on translocation. These results indicate that the CagA-CagF interface is distributed broadly across the molecular surfaces of these two proteins to provide maximal protection of the highly labile effector protein CagA.
AB - CagA is a virulence factor that Helicobacter pylori inject into gastric epithelial cells through a type IV secretion system where it can cause gastric adenocarcinoma. Translocation is dependent on the presence of secretion signals found in both the N-and C-terminal domains of CagA and an interaction with the accessory protein CagF. However, the molecular basis of this essential protein-protein interaction is not fully understood. Herein we report, using isothermal titration calorimetry, that CagA forms a 1:1 complex with a monomer of CagF with nM affinity. Peptide arrays and isothermal titration calorimetry both show that CagF binds to all five domains of CagA, each with μM affinity. More specifically, a coiled coil domain and a C-terminal helix within CagF contacts domains II-III and domain IV of CagA, respectively. In vivo complementation assays of H. pylori with a double mutant, L36A/I39A, in the coiled coil region of CagF showed a severe weakening of the CagA-CagF interaction to such an extent that it was nearly undetectable. However, it had no apparent effect on CagA translocation. Deletion of the C-terminal helix of CagF also weakened the interaction with CagA but likewise had no effect on translocation. These results indicate that the CagA-CagF interface is distributed broadly across the molecular surfaces of these two proteins to provide maximal protection of the highly labile effector protein CagA.
UR - http://www.scopus.com/inward/record.url?scp=84887837319&partnerID=8YFLogxK
U2 - 10.1074/jbc.M113.507657
DO - 10.1074/jbc.M113.507657
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C2 - 24072713
AN - SCOPUS:84887837319
SN - 0021-9258
VL - 288
SP - 32897
EP - 32909
JO - Journal of Biological Chemistry
JF - Journal of Biological Chemistry
IS - 46
ER -