Your search keyword '"Robert, Nadine"' showing total 13 results

1. Role of Prickle1 in Ciliogenesis and Localization of Sonic Hedgehog Components

Author

Robert, Nadine and Robert, Nadine

Abstract

Robinow Syndrome (RS) is a rare genetic disorder characterized by dwarfism, craniofacial dysmorphology, vertebral and gonadal dystrophy. RS is caused by mutations in members of the Wnt/Planar Cell Polarity pathway. In addition, patients with RS have phenotypic features of ciliopathies. To model RS, we have chosen Prickle1Bj/Bj mice. The Prickle1Bj/Bj develop wider faces and shorter limbs similar to many mouse models of RS and ciliopathies. During facial development, I observed swollen primary cilia and increased Hedgehog (HH) signaling. Importantly, I localized Prickle1 protein in the nucleus and cilia of cells in the Prickle1+/+ and Prickle1Bj/Bj embryonic faces. The primary cilium is a microtubule-based organelle that perceives and executes mechanical and chemical signaling transduction for the HH pathway. Mediating the normal activity of HH requires an intact ciliary axoneme and appropriate localization of HH components by intraflagellar transport (IFT) in the cilium. In Prickle1Bj/Bj mutants, I observed widening of the ciliary pockets with Transmission Electron Microscopy. Immunofluorescence staining revealed defective anterograde (IFT-88, IFT-52) and retrograde (IFT-122, IFT-140) intraflagellar trafficking in addition to the mislocalization of a ciliary membrane component (ARL13B) in the Prickle1Bj/Bj face compared to controls. I observed increased staining of SMO and Gli2, in the Prickle1Bj/Bj nucleus and ciliary axoneme. In agreement with these results, I observed defective Gli processing by Western Blot in the Prickle1Bj/Bj face and limbs. We attempted to rescue the Prickle1Bj/Bj phenotype by dampening HH signaling with Vismodegib, an FDA-approved HH antagonist, and observed tissue specific responses in the skeleton, and ciliary morphology. We directly tested if HH signaling is contributing to the etiology of RS using primary RS fibroblast cells. In RS fibroblasts Prickle1 and SMO proteins are localized to the ciliary axoneme. We modulated HH signaling in th

Published

2020

2. Localization of Tfap2β, Casq2, Penk, Zic1, and Zic3 Expression in the Developing Retina, Muscle, and Sclera of the Embryonic Mouse Eye

Author

Wan, Yong, primary, White, Casey, additional, Robert, Nadine, additional, Rogers, Matthew B., additional, and Szabo-Rogers, Heather L., additional

Published

2019

3. Localization of Tfap2β, Casq2, Penk, Zic1, and Zic3Expression in the Developing Retina, Muscle, and Sclera of the Embryonic Mouse Eye

Author

Wan, Yong, White, Casey, Robert, Nadine, Rogers, Matthew B., and Szabo-Rogers, Heather L.

Abstract

Optic development involves sequential interactions between several different tissue types, including the overlying ectoderm, adjacent mesoderm, and neural crest mesenchyme and the neuroectoderm. In an ongoing expression screen, we identified that Tfap2β, Casq2, Penk, Zic1, and Zic3are expressed in unique cell types in and around the developing eye. Tfap2β, Zic1, and Zic3are transcription factors, Casq2is a calcium binding protein and Penkis a neurotransmitter. Tfap2β, Zic1, and Zic3have reported roles in brain and craniofacial development, while Casq2and Penkhave unknown roles. These five genes are expressed in the major tissue types in the eye, including the muscles, nerves, cornea, and sclera. Penkexpression is found in the sclera and perichondrium. At E12.5 and E15.5, the extra-ocular muscles express Casq2, the entire neural retina expresses Zic1, and Zic3is expressed in the optic disk and lip of the optic cup. The expression of Tfap2βexpanded from corneal epithelium to the neural retina between E12.5 to E15.5. These genes are expressed in similar domains as Hedgehog (Gli1, and Ptch1) and the Wnt (Lef1) pathways. The expression patterns of these five genes warrant further study to determine their role in eye morphogenesis:

Published

2019

4. Développement de la sensibilité à la localisation sonore dans le collicule supérieur du rat Long-Evans

Author

Robert, Nadine, Lepore, Franco, and Guillemot, Jean-Paul

Subjects

Sound localisation, Neurones auditifs binauraux, Collicule supérieur, Interaural intensity difference, Localisation sonore, Auditory system, Binaural auditory neurons, Development, Différence interaurale d'intensité, Système auditif, Superior colliculus, Développement

Abstract

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.

Published

2008

5. Des livres pour tous les goûts!

Author

Robert, Nadine

Published

2018

6. AIF-Mediated Programmed Necrosis: A Highly Orchestrated Way to Die

Author

Boujrad, Hanan, primary, Gubkina, Olena, additional, Robert, Nadine, additional, Krantic, Slavica, additional, and Susin, Santos A., additional

Published

2007

7. Identification and Characterization of AIFsh2, a Mitochondrial Apoptosis-inducing Factor (AIF) Isoform with NADH Oxidase Activity

Author

Delettre, Cécile, primary, Yuste, Victor J., additional, Moubarak, Rana S., additional, Bras, Marlène, additional, Robert, Nadine, additional, and Susin, Santos A., additional

Published

2006

8. Mise en place d'un système transversal de contrôle des pipettes dans un établissement public de santé

Author

Robert, Nadine

Published

2004

9. Activity of the Interferon-Induced 2′5′-Oligoadenylate Synthetase in Patients with Chronic Hepatitis C

Author

PAWLOTSKY, JEAN-MICHEL, primary, HOVANESSIAN, ARA, additional, ROUDOT-THORAVAL, FRANÇOISE, additional, LEBON, PIERRE, additional, ROBERT, NADINE, additional, BOUVIER, MAGALI, additional, BABANY, GÉRARD, additional, DUVAL, JEAN, additional, and DHUMEAUX, DANIEL, additional

Published

1995

10. Characterization of an Interferon-Induced 48-kD Protein Immunologically Related to the Double-Stranded RNA-Activated Protein Kinase PKR

Author

KADEREIT, SUZANNE, primary, GALABRU, JULIEN, additional, ROBERT, NADINE, additional, MEURS, ELIANE F., additional, and HOVANESSIAN, ARA G., additional

Published

1994

11. The binding of double-stranded RNA and adenovirus VAI RNA to the interferon-induced protein kinase.

Author

Galabru, Julien, Katze, Michael G., Robert, Nadine, and Hovanessian, Ara G.

Subjects

RNA, ADENOVIRUS diseases, PROTEIN kinases, PHOSPHOTRANSFERASES, PROTEINS, ORGANIC compounds

Abstract

The protein kinase from human cells dependent on double-stranded (ds) RNA is a 68-kDa protein (p68 kinase), the level of which is enhanced significantly in cells treated with interferon. When activated by low concentrations of dsRNA, the p68 kinase becomes phosphorylated and thereby catalyzes the phosphorylation of the protein-synthesis initiation factor, eIF2. Here, we have purified the p68 kinase to homogeneity using a specific monoclonal antibody to investigate its capacity to bind dsRNA, poly(I)-poly(C). Our study suggest that p68 kinase has high- and low-affinity binding sites: the high-affinity binding site is responsible for the activation and the low-affinity binding site for the inaction of kinase activity. This is in accord with the fact that autophosphorylation of p68 kinase occurs at low concentrations of dsRNA whereas high concentrations of dsRNA inhibit its autophosphorylation. We have also investigated the binding of adenoviral VAI RNA to the purified p68 kinase and have found that the affinity of this binding is lower than that of poly(I) · poly(C). We show that VAI RNA can activate or inhibit autophosphorylation of p68 kinase in a dose-dependent manner, i.e. activation at ≤1 µg/ml or inhibition at >1 µg/ml of VAI RNA. In spite of its lower affinity of binding, VAI RNA cannot be displaced by poly(I) · poly(C) or reovirus dsRNA. These data confirm our previous results to illustrate that VAI RNA can bind p68 kinase and cause its inactivation irreversably. [ABSTRACT FROM AUTHOR]

Published

1989

12. Rapid decrease in the levels of the double-stranded RNA-dependent protein kinase during virus infections

Author

Hovanessian, Ara G., primary, Galabru, Julien, additional, Meurs, Eliane, additional, Buffet-Janvresse, Claudine, additional, Svab, Josette, additional, and Robert, Nadine, additional

Published

1987

13. AIF-mediated programmed necrosis: a highly regulated way to die.

Author

Boujrad H, Gubkina O, Robert N, Krantic S, and Susin SA

Subjects

Animals, Apoptosis genetics, Apoptosis physiology, Cell Death genetics, Cell Death physiology, Humans, Necrosis classification, Necrosis enzymology, Necrosis genetics, Necrosis pathology, Apoptosis Inducing Factor physiology

Abstract

Historically, two main forms of cell death have been distinguished: apoptosis and necrosis. Apoptosis was initially considered as the only physiological and programmed form of cell death. This type of death is recurrently associated with caspases, a family of cysteine proteases activated in apoptotic conditions. However, it is now widely recognized that programmed cell death (PCD) can also occur in the complete absence of caspase activation. The existence of non-caspase PCD pathways was corroborated by the discovery of caspase-independent executioners, such as the mitochondrial protein Apoptosis-Inducing Factor (AIF). Necrosis has often been viewed as an accidental and uncontrolled cell death process. Nevertheless, increasing evidence shows that, like apoptosis, necrosis could be a highly orchestrated type of PCD. Indeed, apoptosis and necrosis present more similarities than it has been originally thought. Here, we summarize the different classifications of PCD and the current knowledge of a necrotic PCD pathway mediated by AIF: alkylating DNA-damage mediated death. We also outline the molecular mechanisms controlling this form of PCD and discuss their potential relevance in physiological and pathological settings. These emerging data on the molecular mechanisms regulating programmed necrosis may certainly have potent therapeutic consequences in treating both apoptotic-resistant tumors and degenerating adult neurons.

Published

2007