Putative Protein Interactome of the Rhomboid Protease RHBDL4.

The physiological functions of the rhomboid-related protein 4 (RHBDL4) are emerging, but their molecular details remain unclear. Because increased expression of RHBDL4 has been clinically linked to poorer outcomes in cancer patients, this association urgently demands a better understanding of RHBDL4. To elucidate the molecular interactions and pathways that RHBDL4 may be involved in, we conducted proximity-dependent biotin identification (BioID) assays. Our analyses corroborated several of the expected protein interactors such as the transitional endoplasmic reticulum (ER) ATPase VCP/p97 (TERA), but they also described novel putative interactors including IRS4, PGAM5, and GORS2. Using proximity-ligation assays, we validated VCP/p97, COPB, and VRK2 as proteins that are in proximity to RHBDL4. Overall, our results support the emerging functions of RHBDL4 in ER quality control and also point toward putative RHBDL4 functions in protein membrane insertion and membrane organization and trafficking.

The discovery of proteases and intramembrane proteolysis 1.

Proteases carry out a wide variety of physiological functions. This review presents a brief history of protease research, starting with the original discovery of pepsin in 1836. Following the path of time, we revisit how proteases were originally classified based on their catalytic mechanism and how chemical and crystallographic studies unravelled the mechanism of serine proteases. Ongoing research on proteases addresses their biological roles, small molecule inhibitors for therapeutic uses, and protein engineering to modify their activities. The discovery of intramembrane proteases is more recent, beginning with the discovery of site-2 protease in 1997. Since then, different mechanistic classes of intramembrane proteases have been characterized, and many of these act in regulated intramembrane proteolysis in signaling pathways. Furthermore, the rhomboid intramembrane proteases were discovered by genetic and biochemical experiments in Drosophila and then in human cells. Research on the intramembrane proteases is expanding, as their biological importance is recognized.