Characterization of a truncated form of arrestin isolated from bovine rod outer segments

Abstract

The inactivation of photolyzed rhodopsin requires phosphorylation of the receptor and binding of a 48‐kDa regulatory protein, arrestin. By binding to phosphorylated photolyzed rhodopsin, arrestin inhibits G protein (G_t) activation and blocks premature dephosphorylation, thereby preventing the reentry of photolyzed rhodopsin into the phototransduction pathway. In this study, we isolated a 44‐kDa form of arrestin, called p⁴⁴, from fresh bovine rod outer segments and characterized its structure and function. A partial primary structure of p⁴⁴ was established by a combination of mass spectrometry and automated Edman degradation of proteolytic peptides. The amino acid sequence was found to be identical with arrestin, except that the C‐terminal 35 residues (positions 370‐404) are replaced by a single alanine. p⁴⁴ appeared to be generated by alternative mRNA splicing, because intron 15 interrupts within the nucleotide codon for ³⁶⁹Ser in the arrestin gene. Functionally, p⁴⁴ binds avidly to photolyzed or phosphorylated and photolyzed rhodopsin. As a consequence of its relatively high affinity for bleached rhodopsin, p⁴⁴ blocks G_t activation. The binding characteristics of p⁴⁴ set it apart from tryptic forms of arrestin (truncated at the N‐ and C‐termini), which require phosphorylation of rhodopsin for tight binding. We propose that p⁴⁴ is a novel splice variant of arrestin that could be involved in the regulation of G_t activation.