Activins and inhibins in mammalian testis development: new models, new insights.

The discovery of activin and inhibins as modulators of the hypothalamic-pituitary-gonadal axis has set the foundation for understanding their central importance to many facets of development and disease. This review contains an overview of the processes and cell types that are central to testis development and spermatogenesis and then provides an update focussed on information gathered over the past five years to address new concepts about how these proteins function to control testis development in fetal and juvenile life. Current knowledge about the interactive nature of the transforming growth factor-ß (TGFß) superfamily signalling network is applied to recent findings about activins and inhibins in the testis. Information about the regulated synthesis of signalling components and signalling regulators in the testis is integrated with new concepts that demonstrate their functional significance. The importance of activin bioactivity levels or dosage in controlling balanced growth of spermatogonial cells and their niche at different stages of testis development is highlighted.

TCam-2 seminoma cell line exhibits characteristic foetal germ cell responses to TGF-beta ligands and retinoic acid.

Germ cell testicular cancer is understood to arise during embryogenesis, based on the persistence of embryonic germ cell markers in carcinoma in situ and seminoma. In this study, we examine the potential of the seminoma-derived TCam-2 cell line to be used as representative in functional analyses of seminoma. We demonstrate expression of several early germ cell markers, including BLIMP1, OCT3/4, AP2γ, NANOG and KIT. Many TGF-beta superfamily receptors and downstream transcription factors are also present in these cells including the normally foetal ACTRIIA receptor, indicating potential responsiveness to TGF-beta superfamily ligands. Treatment with BMP4 or RA induces a significant increase in ACTRIA, ACTRIIA and ACTRIIB transcripts, whereas activin A decreases ACTRIB. BMP4 and RA each support TCam-2 survival and/or proliferation. In addition, despite increased KIT mRNA levels induced by BMP4, RA and activin A, activin A does not improve survival or proliferation. The capacity for BMP4 and retinoic acid to enhance foetal germ cell survival and proliferation/self-renewal has been demonstrated in mice, but not previously tested in humans. This study is the first to demonstrate a functional response in seminoma cells, using a well-characterized cell line, consistent with their foetal germ cell-like identity.

Nucleocytoplasmic transport as a driver of mammalian gametogenesis.

Adult fertility requires appropriate and coordinated instruction of somatic and germ cell activity during lineage specification, development and maturation. Driven by alterations in the complement of nuclear proteins such as transcription factors and chromatin remodelling components, these events proceed by sequential changes in gene expression in response to a myriad of signalling cues. Controlled access of proteins to the nucleus is a key driver of developmental switches. This review discusses key examples of regulated nucleocytoplasmic transport during mammalian gametogenesis and the mechanisms underpinning these transport events, focusing on examples critical for the establishment of fertility.

Drivers of germ cell maturation.

Spermatogenesis requires progression of germ line stem cells through a precisely ordered differentiation pathway to form spermatozoa. Diverse and dynamic signals from the transforming growth factor-beta (TGF-beta) superfamily influence many stages of germ cell development. For example, interactions between several TGF-beta superfamily ligands (bone morphogenetic proteins, activin, and glial-derived neurotrophic growth factor [GDNF]) appear to govern the onset of spermatogenesis, and we are exploring how germ cells interpret these competing signals. We examined the in vivo impact of activin on testis development using two mouse models, the inhba-/- mouse (which lacks the gene encoding the activin A subunit and dies at birth) and BK mice, with inhbb (encoding the activin betaB subunit) replacing inhba (which survive to adulthood and show delayed fertility onset in males). Distinct effects on Sertoli cell and germ cell populations during fetal and early postnatal development were measured. We recognize that specific proteins, including downstream targets of TGF-beta signals, such as Smads, must move into the nucleus to implement the gene transcription changes required for development. We hypothesized that changes at the level of cellular nuclear transport machinery may be required to mediate this. Examination of proteins involved in classical nuclear import, the importins, revealed that each importin has a developmentally regulated expression pattern in male germ cells. Because each importin binds a selected range of cargo proteins and mediates their nucleocytoplasmic passage, our findings suggest that each importin ferries cargo required for discrete stages of spermatogenesis.