Robert L. Gendron scite author profile

Here we describe in detail both the expression of Hoxa-11 in the wild-type mouse uterus and the defects resulting in maternal reproductive failure of Hoxa-11 null female mice. The Hoxa-11 gene is expressed at peak levels in uterine stromal cells during metestrus. Hoxa-11 transcripts were induced beginning on Day 2 of gestation in the stromal cells underlying the uterine epithelium and appeared in the secondary decidual zone between Days 6 and 8 of gestation. At early gestational stages, stromal, decidual, and glandular cell development were deficient in Hoxa-11 null uteri in comparison to wild-type as assessed by histology and immunohistochemical localization of the decidual cell marker epitope, stage-specific embryonic antigen-3 (SSEA-3). Both steroid-induced uterine stromal and glandular cell proliferation as well as oil-induced stromal decidualization after induction of pseudopregnancy were deficient in mutant uteri. Moreover, both Western blotting and immunohistochemistry demonstrated that the burst of glandular leukemia inhibitory factor (LIF) found in normal pregnant uteri at Day 4.5 of gestation was absent in Hoxa-11-deficient uteri. The LIF burst was also not observed in the uteri of bilaterally ovariectomized, hormonally stimulated Hoxa-11 mutants. These results demonstrate that the Hoxa-11 gene is required for normal uterine stromal cell and glandular differentiation during pregnancy, as is the presence of the steroid-induced glandular LIF burst initiating embryo implantation.

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TGFβ2 in Corneal Morphogenesis during Mouse Embryonic Development

Saika

Liu

et al. 2001

Developmental Biology

156

131

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To examine the roles of TGFbeta isoforms on corneal morphogenesis, the eyes of mice that lack TGFbetas were analyzed at different developmental stages for cell proliferation, migration and apoptosis, and for expression patterns of keratin 12, lumican, keratocan and collagen I. Among the three Tgfb(-/-) mice, only Tgfb2(-/-) mice have abnormal ocular morphogenesis characterized by thin corneal stroma, absence of corneal endothelium, fusion of cornea to lens (a Peters'-like anomaly phenotype), and accumulation of hyaline cells in vitreous. In Tgfb2(-/-) mice, fewer keratocytes were found in stroma that has a decreased accumulation of ECM; for example, lumican, keratocan and collagen I were greatly diminished. The absence of TGFbeta2 did not compromise cell proliferation, nor enhance apoptosis. The thinner stroma resulting from decreased ECM synthesis may account for the decreased cell number in the stroma of Tgfb2 null mice. Keratin 12 expression was not altered in Tgfb2(-/-) mice, implicating normal corneal type epithelial differentiation. Delayed appearance of macrophages in ocular tissues was observed in Tgfb2(-/-) mice. Malfunctioning macrophages may account for accumulation of cell mass in vitreous of Tgfb2 null mice.

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Physiologic and molecular consequences of endothelial Bmpr2 mutation

et al. 2011

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BackgroundPulmonary arterial hypertension (PAH) is thought to be driven by dysfunction of pulmonary vascular microendothelial cells (PMVEC). Most hereditary PAH is associated with BMPR2 mutations. However, the physiologic and molecular consequences of expression of BMPR2 mutations in PMVEC are unknown.MethodsIn vivo experiments were performed on adult mice with conditional endothelial-specific expression of the truncation mutation Bmpr2delx4+, with age-matched transactivator-only mice as controls. Phenotype was assessed by RVSP, counts of muscularized vessels and proliferating cells, and staining for thromboses, inflammatory cells, and apoptotic cells. The effects of BMPR2 knockdown in PMVEC by siRNA on rates of apoptosis were assessed. Affymetrix expression arrays were performed on PMVEC isolated and cultured from triple transgenic mice carrying the immortomouse gene, a transactivator, and either control, Bmpr2delx4+ or Bmpr2R899X mutation.ResultsTransgenic mice showed increased RVSP and corresponding muscularization of small vessels, with histologic alterations including thrombosis, increased inflammatory cells, increased proliferating cells, and a moderate increase in apoptotic cells. Expression arrays showed alterations in specific pathways consistent with the histologic changes. Bmpr2delx4+ and Bmpr2R899X mutations resulted in very similar alterations in proliferation, apoptosis, metabolism, and adhesion; Bmpr2delx4+ cells showed upregulation of platelet adhesion genes and cytokines not seen in Bmpr2R899X PMVEC. Bmpr2 mutation in PMVEC does not cause a loss of differentiation markers as was seen with Bmpr2 mutation in smooth muscle cells.ConclusionsBmpr2 mutation in PMVEC in vivo may drive PAH through multiple, potentially independent, downstream mechanisms, including proliferation, apoptosis, inflammation, and thrombosis.

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Embryonic vasculogenesis by endothelial precursor cells derived from lung mesenchyme

et al. 2000

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Conditional Knockdown of Tubedown-1 in Endothelial Cells Leads to Neovascular Retinopathy

Wall

Gendron

Good

et al. 2004

Invest. Ophthalmol. Vis. Sci.

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Robert L. Gendron

Abnormal Uterine Stromal and Glandular Function Associated with Maternal Reproductive Defects in Hoxa-11 Null Mice1

TGFβ2 in Corneal Morphogenesis during Mouse Embryonic Development

Physiologic and molecular consequences of endothelial Bmpr2 mutation

Embryonic vasculogenesis by endothelial precursor cells derived from lung mesenchyme

Conditional Knockdown of Tubedown-1 in Endothelial Cells Leads to Neovascular Retinopathy

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