Insulin-like growth factor-I gene therapy reverses morphologic changes and reduces hyperprolactinemia in experimental rat prolactinomas

There is currently widespread interest in the IGFs (IGF-I and IGF-II) and their roles in the regulation of growth and differentiation of an ever increasing number of tissues are being reported. This selective review focused on the current state of our knowledge about the structure of mammalian IGFs and the multiple forms of mRNAs which arise from alternative splicing and promoter sites which arise from gene transcription. Current progress in the immunological measurement of the IGF is reviewed including different strategies for avoiding binding protein interference. The results of measurements of serum IGF-I and IGF-II in fetus and mother and at various stages of postnatal life are described. Existing knowledge of the concentration of these peptides in body fluids and tissues are considered. Last, an attempt is made to indicate circumstances in which the IGFs are exerting their actions in an autocrine/paracrine mode and when endocrine actions predominate. In the latter context it was concluded that an important role for GH action on skeletal tissues via hepatic production of IGF-I and endocrine action of IGF-I on growth cartilage is likely.

Humans with a germline mutation of the RB gene are predisposed to retinoblastoma with a 90% penetrance and are at higher risk for other rare tumors. We have established a mouse strain carrying a germ-line mutation of the Rb-1 gene. Here we describe a nearly 100% incidence of spontaneous pituitary tumors which arise in Rb-1 heterozygous mice from ages 2 to 11 months. Histological and immunological analysis indicate that these tumors originate from the intermediate lobe of the pituitary gland, which is a vestigial structure in adult humans. Progression of the tumors can be followed by the elevated level of a specific proteolytic product of pro-opiomelanocortin prohormone, alpha-melanocyte stimulating hormone, in the circulating blood of the tumor-bearing animals. Multiple foci are frequently seen in the tiny intermediate lobe of the pituitary gland which contains approximately 1.5 x 10(5) cells. The tumor tissues invariably lose expression of full-length Rb protein due to loss of the single wild-type Rb-1 allele. The Rb knock out mouse strain provides a unique model for addressing tissue-specific tumor predisposition by inactivation of a ubiquitously expressed tumor suppressor gene.

The complex range of pituitary regulatory mechanisms reviewed here underlies the critical function of the pituitary in sustaining all higher life forms. Thus, the ultimate net secretion of pituitary hormones is determined by signal integration from all three tiers of pituitary control. It is clear from our current knowledge that the trophic hormone cells of the anterior pituitary are uniquely specialized to respond to these signals. Unravelling their diversity and complexity will shed light upon the normal function of the master gland. Understanding these control mechanisms will lead to novel diagnosis and therapy of disordered pituitary function (357).