Genetic regulation of pituitary gland development in human and mouse

Normal hypothalamopituitary development is closely related to that of the forebrain and is dependent upon a complex genetic cascade of transcription factors and signaling molecules that may be either intrinsic or extrinsic to the developing Rathke’s pouch. These factors dictate organ commitment, cell differentiation, and cell proliferation within the anterior pituitary. Abnormalities in these processes are associated with congenital hypopituitarism, a spectrum of disorders that includes syndromic disorders such as septo-optic dysplasia, combined pituitary hormone deficiencies, and isolated hormone deficiencies, of which the commonest is GH deficiency. The highly variable clinical phenotypes can now in part be explained due to research performed over the last 20 yr, based mainly on naturally occurring and transgenic animal models. Mutations in genes encoding both signaling molecules and transcription factors have been implicated in the etiology of hypopituitarism, with or without other syndromic features, in mice and humans. To date, mutations in known genes account for a small proportion of cases of hypopituitarism in humans. However, these mutations have led to a greater understanding of the genetic interactions that lead to normal pituitary development. This review attempts to describe the complexity of pituitary development in the rodent, with particular emphasis on those factors that, when mutated, are associated with hypopituitarism in humans

A Novel Mutation in the LHX3 Gene is Responsible for Combined Pituitary Hormone Deficiency, Hearing Impairment, and Vertebral Malformations

Abstract Context: The LHX3 LIM-homeodomain transcription factor gene, found in both man and mouse, is required for development of the pituitary and motor neurons and is also expressed in the auditory system. Objective: The objective of this study was to determine the cause of, and further explore, the phenotype in six patients (aged 6 months to 22 years) with combined pituitary hormone deficiency (CPHD), restricted neck rotation, scoliosis and congenital hearing impairment. Three of the patients also have mild autistic-like behaviour. Design: As patients with CPHD and restricted neck rotation have previously been shown to have mutations in the LHX3 gene, a candidate gene approach was applied and the gene was sequenced. Neck anatomy was explored by computed tomography and magnetic resonance imaging, including three-dimensional reformatting. Results: A novel, recessive, splice-acceptor site mutation was found. The predicted protein encoded by the mutated gene lacks the homeodomain and carboxyl terminus of the normal, functional protein. Genealogical studies revealed a common gene source for all six families dating back to the seventeenth century. Anatomical abnormalities in the occipito–atlanto–axial joints in combination with a basilar impression of the dens axis were found in all patients assessed. Conclusions: This study extends both the mutations known to be responsible for LHX3-associated syndromes and their possible phenotypic consequences. Previously reported traits include CPHD and restricted neck rotation; patients examined in the present study also show a severe hearing defect. Additionally the existence of cervical vertebral malformations are revealed, responsible for the rigid neck and the development of scoliosis.</jats:p