The branching of insulin-like growth factor 1 and insulin: an immunohistochemical analysis during phylogeny.

Abstract

The co-existence of insulin-like growth factor 1 (IGF-1) with the classical islet hormones insulin (INS), glucagon (GLUC), somatostatin (SOM) and pancreatic polypeptide (PP) in the endocrine pancreas of representative species of cyclostomes (Myxine glutinosa), cartilaginous fish (Raja clavata, Squalus acanthias) and bony fish (Cottus scorpius, Carassius auratus, Cyprinus carpio, Anguilla anguilla) was studied by the use of monoclonal and polyclonal antisera and the double immunofluorescence technique. In all species investigated, IGF-1-like-immunoreactive cells were found in the endocrine pancreas, however, in varying localization. In Myxine glutinosa, all INS-immunoreactive cells and some of the SOM-immunoreactive cells contained IGF-1-like-immunoreactivity. In Raja and Squalus, only a minority of the INS-immunoreactive cells also displayed IGF-1-like-immunoreactivity. The majority of the IGF-1-like-immunoreactivity was observed in SOM- and in GLUC-immunoreactive cells. Different results were obtained in bony fish. In Cottus, in the Brockmann bodies and the small islets IGF-1-like- and INS-immunoreactivities co-existed to 100%. In contrast, in the other bony fish studied IGF-1-like-immunoreactivity was not observed in INS-immunoreactive cells: in Cyprinus, IGF-1-like-immunoreactivity was found in GLUC-, PP- and SOM-immunoreactive cells and in Carassius and Anguilla, in SOM-immunoreactive cells only. Thus, in all bony fish species with the exception of Cottus, IGF-1 and insulin display a distinct cellular distribution, similar to that of mammals. The present results, thus, may indicate that the branching of IGF-1 and insulin has occurred at the phylogenetic level of bony fish.