Cellular localization of the growth hormone binding protein in the rat.

Abstract

In the rat a GH-binding protein (GHBP) exists that is derived from the GH receptor gene by an alternative messenger RNA splicing mechanism such that the transmembrane and intracellular domains of the GH receptor are replaced by a hydrophilic carboxy terminus. Previous immunohistochemical studies detailing the localization of the GH receptor binding protein (BP) have used monoclonal antibodies that recognize extracellular region-specific epitopes common to both the GH receptor and GHBP. In this study we have used a monoclonal antibody (MAb 4.3) specific for the carboxy terminus of the rat GHBP to map its somatic distribution in the rat and have compared this distribution with that of a MAb recognizing both the BP and the GH receptor. A variety of tissues including the skeletal and muscular systems, the gastrointestinal tract and derivatives, the male and female reproductive systems, skin, central and peripheral nervous systems, and the 18 day gestation fetus were investigated. The distribution of GHBP immunoreactivity (MAb 4.3) was widespread and identical to that previously reported for the extracellular region of the GH receptor (MAbs 263 and 43). Immunoreactivity was both cytoplasmic and nuclear, indicating a possible role for the GHBP in intracellular function. GHBP immunoreactivity was predominantly associated with epithelial/endothelial cell subtypes and with mesenchymal elements such as muscle, chondrocytes, and osteoblasts, as previously described for the GH receptor extracellular region. We also report here the distribution of the GH receptor/GHBP in the kidney, cardiovascular, and respiratory systems. The most prominent immunoreactivity (MAbs 4.3 and 263) was associated with the distal convoluted tubules and collecting ducts of the kidney, with the epithelium and smooth muscle of the broncho-alveolar tree (including type I and II pneumocytes), with the Purkinje and myocardial fibers of the heart and with the endothelium and smooth muscle of blood vessels. Thus we have identified sites of direct GH action in the cardiovascular, renal, and respiratory systems. In conclusion, the extensive cellular distribution of the GHBP in the rat indicates physiological function(s) other than the binding of GH in plasma. Since GHBP mRNA has also been reported in a number of tissues, it may be that the GHBP is synthesized locally to mediate intracellular transport of GH and/or transcriptional regulation by GH in a variety of target tissues.