On the molecular mechanism of interaction between the neurophysins and oxytocin and vasopressin

Abstract

Detailed mechanisms are presented at the molecular level for the binding of oxytocin and of vasopressin to their carrier proteins neurophysin (NP) I and neurophysin II. The amino acid sequence of both these is known together with the pattern of disulphide bound formation for the latter. It is suggested that the peptide hormone fits snugly into a deep cavity in the protein carrier, so that the complex forms a globular, water-extruding mass. Features of the mode of interaction determined by experiment [such as the binding of the terminal amino group of the hormone to a carboxyl group of NP, the close binding of tyr and phe of the hormone to a lipophilic region of NP and the close relation of tyr (2) of the hormone with tyr (49) of NP]are built into the model. The differences between NPI and NPII are related to differences between oxytocin (ile at 3) and vasopressin (phe at 3). Finally a number of specific predictions are made that are testable by experiment concerning the X-ray structure of the NP-hormone complexes and the ease and result of chemical modification of specific residues.