An Ig heavy chain enhancer of the channel catfish Ictalurus punctatus: evolutionary conservation of function but not structure.

Abstract

Abstract The teleost fishes are among the earliest evolutionary lineages to have an Ig heavy chain (IgH) locus whose organization approximates that of mammals. To understand transcriptional control of the IgH locus in a teleost fish and to gain insight into the evolution of the control elements, the enhancer activity in the IgH locus of the channel catfish, Ictalurus punctatus, was investigated. Segments of the locus extending from upstream of the proximal JH gene to 2.5 kb downstream of the second transmembrane (TM2) exon of the mu gene were tested in transient transfection expression assays in murine myeloma and T cell lines, and in catfish B lymphoblastoid, monocyte-like, and putative T cell lines. In marked contrast to mammals, no enhancer activity was observed in the catfish JH to C mu intron, but strong enhancer activity (approaching that of the murine IgH intronic enhancer) was identified in a 1.8-kb segment that included the TM2 exon. This catfish enhancer was active in a B lineage-specific manner in both catfish and murine cells. It was not localized in a small core region, but appeared to contain multiple, dispersed cooperative elements rich in octamer- and mu E5-related motifs. Although the catfish IgH enhancer shares functional characteristics with the mammalian IgH intronic and 3' enhancers, its unusual organization does not permit any obvious inferences concerning evolutionary relationships between the catfish enhancer and any one of the murine IgH enhancers.