posted on 2007-02-27, 00:00authored byCarmine Ercole, Roberta Spadaccini, Caterina Alfano, Teodorico Tancredi, Delia Picone
Bovine seminal ribonuclease (BS-RNase) is made up of two identical subunits bridged through
two disulfide bonds. In solution, it exists as a 2:1 equilibrium mixture between two forms, with (M×M)
and without swapping (M=M) of the N-terminal arms. The swapping endows BS-RNase with some special
biological functions, including antitumor activity, since M×M retains a dimeric structure even under
reducing conditions, thus evading the cytosolic ribonuclease inhibitor. To investigate the structural basis
of domain swapping in BS-RNase, we have obtained several mutants by replacing selected residues with
the corresponding ones of its monomeric counterpart, bovine pancreatic ribonuclease (RNase A). We
have already shown that, in contrast with all other cases of swapped proteins, the swapping propensity of
BS-RNase does not depend on the specific sequence of the 16−22 hinge loop, which connects the main
body to the dislocating arm. In this paper we report the design, the expression, and the structural
characterization of two mutants obtained by replacing Arg80 with Ser either in BS-RNase or in the mutant
already containing the 16−22 hinge sequence of RNase A. NMR and circular dichroism data indicate
that, in the monomeric form of the latter mutant, Ser80 acts as a switch for the conformation of the hinge
region. Accordingly, in the dimeric form of the same mutant the M×M:M=M equilibrium ratio is inverted
to 1:2. Overall, these data suggest that the presence of Arg80 triggers the swapping of N-terminal ends
and plays a relevant role in the stability of the swapped form of BS-RNase.