During the past several years, one of the most interesting and challenging issues in endocrine genetics is determining how to integrate the findings and approaches traditionally used to understand the powerful, single-gene mutations causing endocrine syndromes with those newer techniques used to dissect the complex genetic architecture of polygenic conditions. With this overriding consideration in mind, it makes sense to begin these considerations with recent novel findings derived from the study of a particularly prismatic monogenic disorder, isolated GnRH deficiency, in defining an area of neuroendocrinology and development. Careful study of this human disease model has been employed successfully by several groups to provide unique windows through which to gain an improved understanding of the challenging issues of the developmental biology of the GnRH neurons where previous nonhuman approaches have had significant technical limitations. For example, study of this disorder has provided the field of neuroendocrinology with several unique insights into the surprising origins and early development of the GnRH neuronal network. Its associated clinical phenotypes have helped to unearth a growing list of genes responsible forGnRHneuronal specification, migration, and neuroendocrine function. Finally, this human genetic model is beginning to provide increasing evidence of interactions between these single genes, clearly demonstrating that an oligogenic genetic architecture underlies this condition.
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