Selective response to insulin Versus insulin-like growth factor-I and -II and up-regulation of insulin receptor splice variant B in the differentiated mouse mammary epithelium

Abstract

The terminal differentiation of the mouse mammary gland epithelium during lactation has been shown to require IGFs and/or superphysiological levels of insulin. It has been suggested that IGF receptor I (IGF-IR), in addition to its well-established role in the mammarygland during puberty and pregnancy, serves as the principal mediator of IGFs at this stage of development. However, our analysis of the expression levels of IGF-IR and the two insulin receptor (IR) splice variants, IR-A and IR-B, has revealed a 3- to 4-fold up-regulation of IR-B transcripts and a 6-fold down-regulation of IGF-IR transcripts and protein during terminal differentiation in the developing mammary gland. IR-B expression was also more than 10-fold up-regulated in murine mammary epithelial cell line HC11 during differentiation in vitro. As already described for the human form, murine IR-B cloned from HC11 exhibited selectivity for insulin as compared with IGFs. When differentiated HC11 cells were stimulated by 10 nM insulin, a concentration that is unable to activate IGF-IR, induction of milk protein and lipid synthetic enzyme gene expression, lactate production, and phosphorylation of Akt were observed. In contrast, on differentiated HC11 cells 10 nM IGF-I or 10 nM IGF-II were able to exert growth-promoting effects only. The lack of response of differentiated cells to low levels of IGFs could not be explained by inactivation of IGFs by IGF binding proteins. Our results suggest a previously unrecognized predominant role for IR-B in the differentiated mammary epithelium. Copyright © 2009 by The Endocrine Society.