Genetic models for transforming growth factor beta superfamily signaling in ovarian follicle development.

The transforming growth factor beta (TGFbeta) superfamily has wide-ranging and profound effects on many aspects of cellular growth and development. Many TGFbeta-related ligands, receptors, and intracellular signaling proteins are expressed in the ovary and are critical for normal follicle development. Our laboratory and others have analyzed the in vivo function of the TGFbeta superfamily signal transduction pathways by using gene knockout and knockin approaches.

PAM14, a novel MRG- and Rb-associated protein, is not required for development and T-cell function in mice.

PAM14 has been found to associate in complexes with the MORF4/MRG family of proteins as well as Rb, the tumor suppressor protein. This suggested that it might be involved in cell growth, immortalization, and/or senescence. To elucidate the in vivo function of PAM14, we characterized the expression pattern of mouse Pam14 and generated PAM14-deficient (Pam14(-/-)) mice.

Hormonal control of somatic cell oocyte interactions during ovarian follicle development.

In the mammalian ovarian follicle, paracrine signaling between the oocyte and somatic granulosa cells is bidirectional but the structural basis and physiological regulations of communication between gametic and somatic compartments remain unknown. The present experiments were designed to test the hypothesis that follicle stimulating hormone (FSH) regulates the ability of granulosa cells to make connections with the oocyte. We show that in prepubertal unprimed mice and mice carrying a targeted deletion of the FSHbeta subunit gene, granulosa cells exhibit orientation towards the oocyte manifest by the elaboration of transzonal projections (TZPs) and "apical" centrosome positioning at sites of granulosa-zona contact.

NOBOX deficiency disrupts early folliculogenesis and oocyte-specific gene expression.

Primordial ovarian follicles in mice form when somatic cells surround individual oocytes. We show that lack of Nobox, an oocyte-specific homeobox gene, accelerates postnatal oocyte loss and abolishes the transition from primordial to growing follicles in mice. Follicles are replaced by fibrous tissue in female mice lacking Nobox in a manner similar to nonsyndromic ovarian failure in women.

Modulation of activin/bone morphogenetic protein signaling by follistatin is required for the morphogenesis of mouse molar teeth.

Teeth form as ectodermal appendages, and their morphogenesis is regulated by conserved signaling pathways. The shape of the tooth crown results from growth and folding of inner dental epithelium, and the cusp patterning is regulated by transient signaling centers, the enamel knots. Several signal proteins in the transforming growth factor-beta (TGF beta) superfamily are required for tooth development.

Altered excitation-contraction coupling with skeletal muscle specific FKBP12 deficiency.

The immunophilin FKBP12 binds the skeletal muscle Ca2+ release channel or ryanodine receptor (RyR1), but the functional consequences of this interaction are not known. In this study, we have generated skeletal muscle specific FKBP12-deficient mice to investigate the role of FKBP12 in skeletal muscle. Primary myotubes from these mice show no obvious change in either Ca2+ stores or resting Ca2+ levels but display decreased voltage-gated intracellular Ca2+ release and increased L-type Ca2+ currents.

Follistatin operates downstream of Wnt4 in mammalian ovary organogenesis.

Wnt4(-/-) XX gonads display features normally associated with testis differentiation, suggesting that WNT4 actively represses elements of the male pathway during ovarian development. Here, we show that follistatin (Fst), which encodes a TGFbeta superfamily binding protein, is a downstream component of Wnt4 signaling. Fst inhibits formation of the XY-specific coelomic vessel in XX gonads.

Haploinsufficiency of kelch-like protein homolog 10 causes infertility in male mice.

We identified a testis-specific gene encoding a protein containing a BTB/POZ domain and six kelch repeats, which we named kelch homolog 10 (KLHL10). KLHL10 displays high evolutionary conservation in mammals, as evidenced by 98.7% amino acid identity between mouse and human KLHL10.

Growth differentiation factor 9 regulates expression of the bone morphogenetic protein antagonist gremlin.

Growth differentiation factor 9 (GDF9) is an oocyte-expressed member of the transforming growth factor beta (TGF-beta) superfamily and is required for normal ovarian follicle development and female fertility. GDF9 acts as a paracrine factor and affects granulosa cell physiology. Only a few genes regulated by GDF9 are known.

Interrelationship of growth differentiation factor 9 and inhibin in early folliculogenesis and ovarian tumorigenesis in mice.

To investigate the interrelationship of inhibin alpha and growth differentiation factor 9 (GDF9) during early folliculogenesis, we generated mice lacking both inhibin alpha and GDF9. Our findings on these Inha Gdf9 double-mutant mice are as follows: 1). females develop ovarian tumors and a cachexia-like wasting syndrome, resembling mice lacking inhibin alpha alone.

Identification and characterization of evolutionarily conserved pufferfish, zebrafish, and frog orthologs of GASZ.

We previously identified Gasz (a germ cell-specific gene encoding a protein containing four ankyrin repeats, a sterile-alpha motif, and a basic leucine zipper) in six mammalian species. Here, we report GASZ orthologs in pufferfish (Fugu rubripes), zebrafish (Danio verio), and frog (Xenopus laevis). Sequences of the three Gasz cDNAs were determined by database mining and 5'- and 3'-rapid amplification of cDNA ends (RACE) followed by sequencing.

Tektin3 encodes an evolutionarily conserved putative testicular microtubules-related protein expressed preferentially in male germ cells.

Tektins are microtubule-associated cytoskeletal proteins that are expressed primarily in the male germ cell-lineage in centrioles and basal bodies and within ciliary and flagellar doublet microtubules. They are proposed to be important for axonemal architecture and microtubule stability in the sperm tail and in other ciliated and flagellar structures. Using an in silico (electronic database) subtractive approach to identify germ cell-specific genes in vertebrates, we isolated a new member of the Tektin gene family from mice, Tektin3.

Granulosa cell-specific inactivation of follistatin causes female fertility defects.

Follistatin plays an important role in female physiology by regulating FSH levels through blocking activin actions. Failure to regulate FSH has been implicated as a potential cause of premature ovarian failure. Premature ovarian failure is characterized by amenorrhea, infertility, and elevated gonadotropin levels in women under the age of 40.

Regulation of FSHbeta and GnRH receptor gene expression in activin receptor II knockout male mice.

To examine in vivo, the local effects of inhibins and activins within the anterior pituitary, independent of their endocrine effects exerted from the gonad, in mediating FSH homeostasis, we used castrated knockout mice lacking either inhibin alpha or activin receptor II (ACVR2) alone or in combination. Compared to castrated wild-type (WT) mice, FSHbeta mRNA levels in the pituitaries of Acvr2 null mice were significantly downregulated in the absence of gonadal feedback. FSHbeta mRNA levels were not significantly higher in the pituitaries of castrated inhibin alpha null mice compared to those in Acvr2 null mice and remained the same in the pituitaries of castrated double mutant mice lacking both inhibin and ACVR2.

Activins are critical modulators of growth and survival.

Activins betaA and betaB (encoded by Inhba and Inhbb genes, respectively) are related members of the TGF-beta superfamily. Previously, we generated mice with an Inhba knock-in allele (InhbaBK) that directs the expression of activin betaB protein in the spatiotemporal pattern of activin betaA. These mice were small and had shortened life spans, both influenced by the dose of the hypomorphic InhbaBK allele.

Expression profiling analyses of gonadotropin responses and tumor development in the absence of inhibins.

Transgenic mice with engineered disruptions in bidirectional endocrine signaling between the pituitary and gonad have shed light on the specific effects of the loss of function of gonadotropins and inhibins. These models are valuable tools for studying ovarian biology because they phenocopy specific pathological states and have variations in ovarian tissue composition that allow us to identify genes expressed in specific cell types. We have used emerging mRNA expression profiling technologies to gain a more comprehensive view of genes that are expressed in the mammalian ovary and adrenal gland in the FSHbeta and inhibin alpha knockout mouse models.

HILS1 is a spermatid-specific linker histone H1-like protein implicated in chromatin remodeling during mammalian spermiogenesis.

Chromatin remodeling is a major event that occurs during mammalian spermiogenesis, the process of spermatid maturation into spermatozoa. Nuclear condensation during spermiogenesis is accomplished by replacing somatic histones (linker histone H1 and core histones) and the testis-specific linker histone, H1t, with transition proteins and protamines. It has long been thought that H1t is the only testis-specific linker histone, and that all linker histones are replaced by transition proteins, and subsequently by protamines during spermiogenesis.

Sexually dimorphic roles of steroid hormone receptor signaling in gonadal tumorigenesis.

Sex steroids control cellular phenotypes by binding to receptor proteins that in turn regulate downstream gene expression. They are important tropic factors in hormonally responsive tissues and have been implicated in the pathogenesis of both benign proliferations and malignancies at some of these sites. Knockout mice lacking inhibins, alpha:beta heterodimeric peptide hormones of the TGFbeta superfamily, develop gonadal tumors that produce sex steroids and depend on pituitary gonadotropin hormones.

Cyclin D2 and p27 are tissue-specific regulators of tumorigenesis in inhibin alpha knockout mice.

Inhibins are heterodimeric (alpha:betaA and alpha:betaB) endocrine, paracrine, and autocrine factors of the TGFbeta superfamily that are produced predominantly by ovarian granulosa cells in females and testicular Sertoli cells in males. Control of granulosa and Sertoli cell proliferation is lost in the inhibin alpha (Inhalpha) knockout mouse model, leading to gonadotropin-dependent gonadal tumors of the granulosa/Sertoli cell lineage in both females and males. Castrate Inhalpha knockout mice develop sex steroidogenic tumors of the adrenal cortex.

Normal reproductive function in InhBP/p120-deficient mice.

The inhibins are gonadal transforming growth factor beta superfamily protein hormones that suppress pituitary follicle-stimulating hormone (FSH) synthesis. Recently, betaglycan and inhibin binding protein (InhBP/p120, also known as the product of immunoglobulin superfamily gene 1 [IGSF1]) were identified as candidate inhibin coreceptors, shedding light on the molecular basis of how inhibins may affect target cells. Activins, which are structurally related to the inhibins, act within the pituitary to stimulate FSH production.

Previously uncharacterized roles of platelet-activating factor acetylhydrolase 1b complex in mouse spermatogenesis.

Platelet-activating factor (PAF) has been shown to affect sperm motility and acrosomal function, thereby altering fertility. PAF acetylhydrolase 1b (PAFAH1B) hydrolyzes PAF and is composed of three subunits [the lissencephaly (LIS1) protein and alpha1 and alpha2 subunits] and structurally resembles a GTP-hydrolyzing protein. Besides the brain, transcripts for Lis1, alpha1, and alpha2 are localized to meiotic and early haploid germ cells.

Zygote arrest 1 (Zar1) is an evolutionarily conserved gene expressed in vertebrate ovaries.

Zygote arrest 1 (ZAR1) is an ovary-specific maternal factor that plays essential roles during the oocyte-to-embryo transition. In mice, the Zar1 mRNA is detected as a 1.4-kilobase (kb) transcript that is synthesized exclusively in growing oocytes.

Genetic engineering to study testicular tumorigenesis.

In humans, Sertoli cell tumors account for approximately 4% of all testicular tumors, and 20% of these are malignant. The mechanisms underlying Sertoli cell tumorigenesis remain largely unknown. Using gene knockout technology, we previously generated mutant mice lacking the alpha subunit of inhibin dimers.

Fatty acid synthesis is essential in embryonic development: fatty acid synthase null mutants and most of the heterozygotes die in utero.

In animals, including humans, the source of long-chain saturated fatty acids is de novo synthesis, which is mediated by fatty acid synthase (FAS), ingested food, or both. To understand the importance of de novo fatty acid synthesis, we generated FAS knockout mice. The heterozygous FAS mutants (Fasn+/-) are ostensibly normal.

Roles of NPM2 in chromatin and nucleolar organization in oocytes and embryos.

Upon fertilization, remodeling of condensed maternal and paternal gamete DNA occurs to form the diploid genome. In Xenopus laevis, nucleoplasmin 2 (NPM2) decondenses sperm DNA in vitro. To study chromatin remodeling in vivo, we isolated mammalian NPM2 orthologs.