Ovarian autografts in sheep as a model for studying folliculogenesis

Abstract

The studies outlined in this review indicate that the cortical autograft, in addition to its clinical application as a means to restore fertility, represents a valuable experimental model that can be exploited to examine aspects of both early and terminal follicle development. The autograft procedure is a means to experimentally deplete the follicle population in an individual and this procedure results in similar endocrine changes and reproductive cycle perturbances as those observed in aged sheep and women with incipient ovarian failure. This methodology therefore represents a non-primate large animal model to study the consequences of, and possible interventions to overcome, reproductive problems associated with depleted ovarian follicular reserves. Without the necessity of keeping animals for large periods of time so that this depletion can occur naturally. In terms of early follicle development, the fact that the ischaemia that occurs during revascularisation of the autograft effectively synchronises follicle development at the primordial stages of development means that the autograft can be used as a model to study the control of early follicle development. This model has been used to examine the role of FSH (follicle stimulating hormone) in the control of early follicle development and the preliminary data presented provides strong evidence that FSH does indeed modulate early folliculogenesis, confirming the value of this model as a means of performing experimental investigations in this area. Further work using this model will concentrate on the role of other endocrine and local factors in the control of early folliculogenesis and the identification of the key developmental checkpoints during this process, with a view to designing physiological culture systems to support early follicle and oocyte development.