Erythroid-specific expression of human growth hormone affects bone morphology in transgenic mice.

The regulation of bone deposition and remodeling is highly complex. To further understand the influence of growth hormone on bone deposition, several lines of transgenic mice were generated that expressed the human growth hormone gene (hGH) driven by beta-globin regulatory elements. In situ hybridization confirmed that the hGH gene in these mice was expressed in an erythroid tissue-specific manner; in the fetus hGH was expressed in the liver and in the adult mice hGH was expressed in the bone marrow. The bones of mice in two lines were visualized radiographically by mammography, and relative bone densities were measured. The transgenic mice had detectably more bone density than nontransgenic littermate controls by approximately 3 weeks of age and the relative difference in density increased with age. Histological cross-sections of the tibia showed that adult transgenic mice had increased average cortical bone thickness when compared to their controls. The hypothesis is that the local effect of hGH release from differentiating erythroid cells in the bone marrow is a major contributor to the increased bone deposition in these transgenic mice.