Evidence that the growth hormone receptor mediates differentiation and development of the mammary gland.

We have shown that nonlactogenic rat (r) GH is far more potent than rPRL in inducing rat mammary development. To determine the relative roles of GH and PRL in mammary development and their mechanisms of action, we have compared the abilities of a group of native and mutant GHs, PRLs, and placental lactogens (PLs) to induce mammary development, bind to GH receptors, and activate lactogenic receptors. Mammary development was assessed histologically by counting terminal end buds and alveolar structures in glands from sexually immature, hypophysectomized, castrated, estradiol-treated rats. Hormones were implanted, in Elvax pellets, into the lumbar mammary gland. Significant increases in terminal end buds (P < 0.03) over internal control values were obtained with rGH, recombinant human GH (rhGH), rbGH, and one of two mutant rhGHs. These four hormones were also found to bind to GH receptors with high affinity. In contrast, little development occurred with hPRL, rPRL, rhPL, ovine PRL, mutant forms of rhPRL and rhPL, and a mutant of rhGH altered to reduce binding to GH and PRL receptors. All of these substances are more than 50-fold reduced in binding to the GH receptor, yet can bind and activate lactogenic receptors. Thus, only those natural or mutant pituitary or placental hormones with high binding affinity to GH receptors induce mammary development, suggesting that GH receptors play a central role in this process.