Your search keyword '"Miquerol, Lucile"' showing total 3 results

1. Cortical and retinal defects caused by dosage-dependent reductions in VEGF-A paracrine signaling

Author

Haigh, Jody J., Morelli, Paula I., Gerhardt, Holger, Haigh, Katharina, Tsien, John, Damert, Annette, Miquerol, Lucile, Muhlner, Ulrich, Klein, Rudiger, Ferrara, Napoleone, Wagner, Erwin F., Betsholtz, Christer, and Nagy, Andras

Subjects

Nervous system -- Research, Biological sciences

Abstract

To determine the function of VEGF-A in nervous system development, we have utilized the Nestin promoter-driven Cre recombinase transgene, in conjunction with a conditional and hypomorphic VEGF-A allele, to lower VEGF-A activity in neural progenitor cells. Mice with intermediate levels of VEGF-A activity showed decreased blood vessel branching and density in the cortex and retina, resulting in a thinner retina and aberrant structural organization of the cortex. Severe reductions in VEGF-A led to decreases in vascularity and subsequent hypoxia, resulting in the specific degeneration of the cerebral cortex and neonatal lethality. Decreased neuronal proliferation and hypoxia was evident at E11.5, leading to increased neuronal apoptosis in the cortex by E15.5. In order to address whether the observed changes in the structural organization of the nervous system were due to a direct and autocrine role of VEGF-A on the neural population, we conditionally inactivated the main VEGF-A receptor, Flk1, specifically in neuronal lineages, by using the Nestin Cre transgene. The normality of these mice ruled out the possibility that VEGF-A/Flk1 signaling has a significant autocrine role in CNS development. VEGF-A dosage is therefore a critical parameter regulating the density of the vascular plexus in the developing CNS that is in turn a key determinant in the development and architectural organization of the nervous system. Keywords: VEGF-A; Cre recombinase; Conditional gene inactivation; Blood vessel; Endothelium; Nervous system; Cortex; Retina

Published

2003

2. Nkx2.5 cell-autonomous gene function is required for the postnatal formation of the peripheral ventricular conduction system

Author

Meysen, Sonia, primary, Marger, Laurine, additional, Hewett, Kenneth W., additional, Jarry-Guichard, Thérèse, additional, Agarkova, Irina, additional, Chauvin, Jean Paul, additional, Perriard, Jean Claude, additional, Izumo, Seigo, additional, Gourdie, Robert G., additional, Mangoni, Matteo E., additional, Nargeot, Joël, additional, Gros, Daniel, additional, and Miquerol, Lucile, additional

Published

2007

3. Multiple development roles of VEGF suggested by a LacZ-tagged allele

Author

Miquerol, Lucile, Gertsenstein, Marina, Harpal, Kendraprasad, Rossant, Janet, and Nagy, Andras

Subjects

Neovascularization -- Research, Blood vessels -- Growth, Allelomorphism -- Research, Biological sciences

Abstract

Vascular endothelial growth factor (VEGF) is an angiogenic factor and a potent stimulator of microvascular permeability. It is a mitogen specific for endothelial cells. The expression of VEGF and its two receptors, Flk-1 and Flt-1, is pivotal for proper formation of blood vessels in embryogenesis as shown by gene-targeting experiments. Interestingly, the loss of even a single allele of VEGF led to embryonic lethality between day E9.5 and day E10.5 in the mouse. To assess the role of VEGF during embryonic development we decided to tag VEGF expression with LacZ, by inserting an IRES (internal ribosome entry site)-LacZ reporter cassette into the 3[prime] untranslated region of the gene. This alteration enabled us to monitor VEGF expression throughout embryonic development at single-cell resolution. [Beta]-Galactosidase expression from the altered VEGF locus was first observed prior to gastrulation and was detectable at all stages of vascular development in the embryo. Later, the specific cellular distribution and the level of VEGF expression indicated its pleiotropic role in development. High expression levels seemed to be associated with vasculogenesis and permeability, whereas lower levels were associated with angiogenesis and cell migration. In addition, we found VEGF expression in a subtype of endothelial cells present in the endocardium. We believe that the LacZ-tagged allele we have generated offers a precise means of detecting VEGF expression under a variety of physiological and pathological conditions. Key Words: vascular endothelial growth factor; endothelial cells; gene targeting; IRES-lacZ knock-in; embryonic development; vasculogenesis; angiogenesis.

Published

1999