Subdomains of the Helicobacter pylori Cag T4SS outer membrane core complex exhibit structural independence.

The Helicobacter pylori Cag type IV secretion system (Cag T4SS) has an important role in the pathogenesis of gastric cancer. The Cag T4SS outer membrane core complex (OMCC) is organized into three regions: a 14-fold symmetric outer membrane cap (OMC) composed of CagY, CagX, CagT, CagM, and Cag3; a 17-fold symmetric periplasmic ring (PR) composed of CagY and CagX; and a stalk with unknown composition. We investigated how CagT, CagM, and a conserved antenna projection (AP) region of CagY contribute to the structural organization of the OMCC. Single-particle cryo-EM analyses showed that complexes purified from ΔcagT or ΔcagM mutants no longer had organized OMCs, but the PRs remained structured. OMCCs purified from a CagY antenna projection mutant (CagY∆AP) were structurally similar to WT OMCCs, except for the absence of the α-helical antenna projection. These results indicate that CagY and CagX are sufficient for maintaining a stable PR, but the organization of the OMC requires CagY, CagX, CagM, and CagT. Our results highlight an unexpected structural independence of two major subdomains of the Cag T4SS OMCC.

Control of autophagosome size and number by Atg7.

The induction of bulk autophagy by nitrogen starvation in baker's yeast (S. cerevisiae) involves the upregulation of many autophagy related proteins, including Atg7. One way to investigate the importance of this upregulation is to measure the size and number of autophagosomes formed when insufficient amounts of that protein are available. Atg8 is known to affect autophagosome size, consistent with its role in phagophore expansion. Atg7 is upstream of Atg8, and might therefore be expected to affect only autophagosome size. We used electron microscopy to measure the size and number of autophagosomes formed with limiting amounts of Atg7 and found them to be both smaller and fewer than normal. This suggests that Atg7 may have an Atg8-independent role in autophagosome initiation in addition to its Atg8-dependent role in autophagosome expansion. We also present an improved simulation for estimating original autophagic body number based on the number of cross-sections observed in ultrathin sections.