Protein translocation through α-helical channels and insertases

Protein translocation systems are essential for distributing proteins across various lipid membranes in cells. Cellular membranes, such as the endoplasmic reticulum (ER) membrane and mitochondrial inner membrane, require highly regulated protein translocation machineries that specifically allow the passage of protein polypeptides while blocking smaller molecules like ions and water. Key translocation systems include the Sec translocation channel, the protein insertases of the Oxa1 superfamily, and the translocases of the mitochondrial inner membrane (TIM). These machineries utilize different mechanisms to create pathways for proteins to move across membranes while preventing ion leakage during the dynamic translocation processes. In this review, we highlight recent advances in our understanding of these α-helical translocation machineries and examine their structures, mechanisms, and regulation. We also discuss the therapeutic potential of these translocation pathways and summarize the progress in drug development targeting these systems for treating diseases.