The interplay between the clustering of transmembrane proteins and coupling of anchored membrane proteins

Clustering of membrane proteins plays an important role in many cellular activities such as protein sorting and signal transduction. In this study, we used dissipative particle dynamics simulation method to investigate the clustering of anchored membrane proteins (AMPs) in the presence of transmembrane proteins (TMPs). First, our simulation results show that clustering of AMPs and that of TMPs are in fact interdependent, and depending on their hydrophobic length, both protein mixing and protein demixing are observed. Especially, the protein demixing occurs only when the hydrophobic mismatch of TMPs is negative while that of AMPs is positive. Second, our simulation results indicate that the clustering of TMPs also modulates the coupling of the clustering of AMPs in both leaflets. On the one hand, the coupling between AMPs in different leaflets will be strongly restrained if TMPs form protein mixing with AMPs in one leaflet and protein demixing with AMPs in the other leaflet. On the other hand, the coupling between AMPs can be enhanced or mediated by TMPs when TMPs mix with AMPs in both leaflets. Our results may have some implications on our understanding of how different types of membrane proteins cluster and provide a possible explanation of how TMPs participate in signal transduction across cellular membranes. © 2014 © 2013 Taylor & Francis.