Haploinsufficiency of chicken ovalbumin upstream promoter transcription factor II in female reproduction.

The chicken ovalbumin upstream promoter transcription factor II, COUP-TFII, is a member of the orphan nuclear receptor transcription factor family. Genetic ablation of COUP-TFII results in early embryonic lethality and demonstrates that this gene is required for cardiac and vascular development. Expression of COUP-TFII persists throughout postnatal life in various tissues including the female reproductive tract.

Suppression of Notch signalling by the COUP-TFII transcription factor regulates vein identity.

Arteries and veins are anatomically, functionally and molecularly distinct. The current model of arterial-venous identity proposes that binding of vascular endothelial growth factor to its heterodimeric receptor--Flk1 and neuropilin 1 (NP-1; also called Nrp1)--activates the Notch signalling pathway in the endothelium, causing induction of ephrin B2 expression and suppression of ephrin receptor B4 expression to establish arterial identity. Little is known about vein identity except that it involves ephrin receptor B4 expression, because Notch signalling is not activated in veins; an unresolved question is how vein identity is regulated.

Identification of murine uterine genes regulated in a ligand-dependent manner by the progesterone receptor.

Progesterone (P4) acting through its cognate receptor, the progesterone receptor (PR), plays an important role in uterine physiology. The PR knockout (PRKO) mouse has demonstrated the importance of the P4-PR axis in the regulation of uterine function. To define the molecular pathways regulated by P4-PR in the mouse uterus, Affymetrix MG U74Av2 oligonucleotide arrays were used to identify alterations in gene expression after acute and chronic P4 treatments.

COUP-TFII is essential for radial and anteroposterior patterning of the stomach.

COUP-TFII, an orphan member of the steroid receptor superfamily, has been implicated in mesenchymal-epithelial interaction during organogenesis. The generation of a lacZ knock-in allele in the COUP-TFII locus in mice allows us to use X-gal staining to follow the expression of COUP-TFII in the developing stomach. We found COUP-TFII is expressed in the mesenchyme and the epithelium of the developing stomach.

Cardiac-specific and ligand-inducible target gene expression in transgenic mice.

Conditional transgene expression in the heart is a useful approach to explore the physiological basis of the cardiac phenotype. The present study describes the development of a binary transgenic system in which transgene expression in the mouse heart can be turned on/off by administration/withdrawal of an exogenous compound. We generated a transgenic line (alphaMHC-Glp 65) harboring a mifepristone (RU486)-controlled chimeric transcription factor (Glp 65) under the regulatory control of the cardiac-specific alpha-myosin heavy chain (alphaMHC) promoter.

Revealing progesterone's role in uterine and mammary gland biology: insights from the mouse.

Apart from distinguishing the in vivo effects of progesterone (P) from those of estrogen (E), the progesterone receptor knockout (PRKO) mouse has furnished unprecedented access to novel cell-signaling paradigms, hitherto unsuspected. Along with providing new cellular principles by which P influences proliferative and differentiative programs obligate for tissue development and tumor progression, the PRKO in conjunction with transcript profiling has begun to uncover the transcriptional cascades underlying these processes. Moreover, studies on isoform-specific knockouts for PR-A (PR-AKO) and PR-B (PR-BKO) have clearly defined distinct physiological roles for the two subtypes of PR, providing essential physiological support for previous in vitro observations.

Cre-mediated recombination in cell lineages that express the progesterone receptor.

Using gene-targeting methods, a progesterone receptor Cre knockin (PR-Cre) mouse was generated in which Cre recombinase was inserted into exon 1 of the PR gene. The insertion positions the Cre gene downstream (and under the specific control) of the endogenous PR promoter. As for heterozygotes for the progesterone receptor knockout (PRKO) mutation, mice heterozygous for the Cre knockin insertion are phenotypically indistinguishable from wildtype.

Mutation of the androgen receptor causes oncogenic transformation of the prostate.

Recent evidence demonstrates that the androgen receptor (AR) continues to influence prostate cancer growth despite medical therapies that reduce circulating androgen ligands to castrate levels and/or block ligand binding. Whereas the mutation, amplification, overexpression of AR, or cross-talk between AR and other growth factor pathways may explain the failure of androgen ablation therapies in some cases, there is little evidence supporting a causal role between AR and prostate cancer. In this study, we functionally and directly address the role whereby AR contributes to spontaneous cancer progression by generating transgenic mice expressing (i) AR-WT to recapitulate increased AR levels and ligand sensitivity, (ii) AR-T857A to represent a promiscuous AR ligand response, and (iii) AR-E231G to model altered AR function.

Transgenic mouse model of ventricular preexcitation and atrioventricular reentrant tachycardia induced by an AMP-activated protein kinase loss-of-function mutation responsible for Wolff-Parkinson-White syndrome.

Background: We identified a gene (PRKAG2) that encodes the gamma-2 regulatory subunit of AMP-activated protein kinase (AMPK) with a mutation (Arg302Gln) responsible for familial Wolff-Parkinson-White (WPW) syndrome. The human phenotype consists of ventricular preexcitation, conduction abnormalities, and cardiac hypertrophy.

Methods And Results: To elucidate the molecular basis for the phenotype, transgenic mice were generated by cardiac-restricted expression of the wild-type (TG(WT)) and mutant(TG(R302Q)) PRKAG2 gene with the cardiac-specific promoter alpha-myosin heavy chain.

Animal models of implantation.

Implantation is an intricately timed event necessary in the process of viviparous birth that allows mammals to nourish and protect their young during early development. Human implantation begins when the blastocyst both assumes a fixed position in the uterus and establishes a more intimate relationship with the endometrium. Due to the impracticalities of studying implantation in humans, animal models are necessary to decipher the molecular and mechanical events of this process.

The nuclear orphan receptor COUP-TFII is required for limb and skeletal muscle development.

The nuclear orphan receptor COUP-TFII is widely expressed in multiple tissues and organs throughout embryonic development, suggesting that COUP-TFII is involved in multiple aspects of embryogenesis. Because of the early embryonic lethality of COUP-TFII knockout mice, the role of COUP-TFII during limb development has not been determined. COUP-TFII is expressed in lateral plate mesoderm of the early embryo prior to limb bud formation.

Mucin is produced by clara cells in the proximal airways of antigen-challenged mice.

Airway mucus hypersecretion is a prominent feature of many obstructive lung diseases. We thus determined the ontogeny and exocytic phenotype of mouse airway mucous cells. In naive mice, ciliated (approximately 40%) and nonciliated (approximately 60%) epithelial cells line the airways, and > 95% of the nonciliated cells are Clara cells that contain Clara cell secretory protein (CCSP).

p63 is the molecular switch for initiation of an epithelial stratification program.

Development of stratified epithelia, such as the epidermis, requires p63 expression. The p63 gene encodes isoforms that contain (TA) or lack (DeltaN) a transactivation domain. We demonstrate that TAp63 isoforms are the first to be expressed during embryogenesis and are required for initiation of epithelial stratification.

Prostate-specific expression of p53(R172L) differentially regulates p21, Bax, and mdm2 to inhibit prostate cancer progression and prolong survival.

Loss of heterozygosity or mutation at the p53 tumor suppressor gene locus is frequently associated with advanced human prostate cancer. Hence, replacement p53 gene therapy may prove to be efficacious for this disease. While many mutations result in p53 molecules with oncogenic properties, other variants may possess wild-type properties with increased tumor suppressor activity.

Induction of cytotoxic T-lymphocyte antigen-2beta, a cysteine protease inhibitor in decidua: a potential regulator of embryo implantation.

During early pregnancy, the steroid hormone progesterone induces differentiation of uterine stroma to decidual cells, which regulate embryo-uterine interactions. The progesterone-induced signaling molecules that participate in the formation and function of decidua remain poorly understood. We recently utilized high-density oligonucleotide microarrays to identify several genes whose expression is markedly altered in pregnant uterus in response to RU486, a well characterized antagonist of the progesterone receptor (PR).

Progesterone involvement in breast development and tumorigenesis--as revealed by progesterone receptor "knockout" and "knockin" mouse models.

In light of recent clinical trials, the debate concerning the risks and benefits of progestin-based postmenopausal hormone replacement therapy (HRT) has reached a renewed level of urgency. Irrespective of the position taken, the consensus is that more basic research needs to be performed to address progesterone's fundamental role in mammary development and tumorigenesis. Towards this end, the progesterone receptor knockout (PRKO) mouse demonstrated that progesterone is essential for pregnancy-associated mammary gland ductal side-branching and alveologenesis and that these morphological changes are dependent on progesterone-induced mammary epithelial proliferation.

Steroid receptor RNA activator stimulates proliferation as well as apoptosis in vivo.

Steroid receptor RNA activator (SRA) is an RNA that coactivates steroid hormone receptor-mediated transcription in vitro. Its expression is strongly up-regulated in many human tumors of the breast, uterus, and ovary, suggesting a potential role in pathogenesis. To assess SRA function in vivo, a transgenic-mouse model was generated to enable robust human SRA expression by using the transcriptional activity of the mouse mammary tumor virus long terminal repeat.

GCNF-dependent repression of BMP-15 and GDF-9 mediates gamete regulation of female fertility.

To determine the function of germ cell nuclear factor (GCNF) in female reproduction, we generated an oocyte-specific GCNF knockout mouse model (GCNF(fl/fl)Zp3Cre(+)). These mice displayed hypofertility due to prolonged diestrus phase of the estrous cycle and aberrant steroidogenesis. These reproductive defects were secondary to a primary defect in the oocytes, in which expression of the paracrine transforming growth factor-beta signaling molecules, bone morphogenetic protein 15 (BMP-15) and growth differentiation factor 9 (GDF-9), were up-regulated in GCNF(fl/fl)Zp3Cre(+) females at diestrus.

Defective mammary gland morphogenesis in mice lacking the progesterone receptor B isoform.

Progesterone (P) regulates female reproduction via two nuclear receptors, PR-A and PR-B. Although both receptors display overlapping and distinct transcription regulatory properties, their individual physiological roles are unclear. To address the physiological role of PR-A, we generated a mouse model in which expression of PR-B was specifically ablated (PRBKO-/-).

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.

Overexpression of human chorionic gonadotropin causes multiple reproductive defects in transgenic mice.

Human CG is a pregnancy marker secreted by the placenta, and it utilizes the same receptors as does LH. Human CG is a heterodimer, and its subunits are expressed in tissues other than placenta. Similarly, LH/hCG receptors are also expressed in multiple tissues; however, the physiological significance of this expression is unknown.

A genomic approach to identify novel progesterone receptor regulated pathways in the uterus during implantation.

The cellular actions of steroid hormone progesterone (P) are mediated via its nuclear receptors, which regulate the expression of specific target genes. The identity of gene networks that are regulated by the P receptors (PRs) in the uterus at various stages of the reproductive cycle and pregnancy, however, remain largely unknown. In this study, we have used oligonucleotide microarrays to identify mRNAs whose expression in the pregnant mouse uterus is modulated by RU486, a well-characterized PR antagonist, which is also an effective inhibitor of implantation.

Targeted expression of IGF-1 transgene to skeletal muscle accelerates muscle and motor neuron regeneration.

Currently, there is no known medical treatment that hastens the repair of damaged nerve and muscle. Using IGF-1 transgenic mice that specifically express human recombinant IGF-1 in skeletal muscle, we test the hypotheses that targeted gene expression of IGF-1 in skeletal muscle enhances motor nerve regeneration after a nerve crush injury. The IGF-1 transgene affects the initiation of the muscle repair process after nerve injury as shown by increased activation of SCA-1positive myogenic stem cells.

A novel LacZ reporter mouse reveals complex regulation of the progesterone receptor promoter during mammary gland development.

To further our understanding of progesterone (P) as an endocrine mammogen, a PR(lacz) knockin mouse was generated in which the endogenous progesterone receptor (PR) promoter directly regulated lacZ reporter expression. The PR(lacz) mouse revealed PR promoter activity was restricted to the epithelial compartment during the prenatal and postnatal stages of mammary gland development. At puberty, PR promoter activity was unexpectedly robust and restricted to the body cells within the terminal end buds and to the luminal epithelial cells in the subtending ducts.