Title
A pH-Mediated Topological Switch within the N-Terminal Domain of Human Caveolin-3
Author
Ji-Hun Kim, Jonathan P. Schlebach, Zhenwei Lu, Dungeng Peng, Kaitlyn C. Reasoner, Charles R. Sanders
Year
2016
Journal
Biophysical Journal
Abstract
Caveolins mediate the formation of caveolae, which are small omega-shaped membrane invaginations involved in a variety of cellular processes. There are three caveolin isoforms, the third of which (Cav3) is expressed in smooth and skeletal muscles. Mutations in Cav3 cause a variety of human muscular diseases. In this work, we characterize the secondary structure, dynamics, and topology of the monomeric form of the full-length lipidated protein. Cav3 consists of a series of membrane-embedded or surface-associated helical elements connected by extramembrane connecting loops or disordered domains. Our results also reveal that the N-terminal domain undergoes a large scale pH-mediated topological rearrangement between soluble and membrane-anchored forms. Considering that roughly one-third of pathogenic mutations in Cav3 influence charged residues located in this domain, we hypothesize that this transition is likely to be relevant to the molecular basis of Cav3-linked diseases. These results provide insight into the structure of Cav3 and set the stage for mechanistic investigations of the effects of pathogenic mutations.
Instrument
J-810
Keywords
Circular dichroism, Secondary structure, Biochemistry