Retinoic acid regulates the expression of dorsoventral topographic guidance molecules in the chick retina

Sen, Jonaki; Harpavat, Sanjiv; Peters, Michael J.; Cepko, Constance L.

doi:10.1242/dev.02100

Cited by 41 publications

(49 citation statements)

References 76 publications

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“…Modulation of WNT signaling by RA signaling likely occurs at the level of RAR␣, which we show here is the main RAR expressed in fetal brain ECs. RARs can interact with components of the WNT transcriptional complex, which includes ␤-catenin, TCF members, and Lef1, and through these interactions modulate WNTmediated transcription (Easwaran et al, 1999;Shah et al, 2003). Future work looking at the direct interactions between proteins in these two pathways will provide insight into how brain ECs integrate RA and WNT signaling appropriately during brain vascular development.…”

Section: Discussionmentioning

confidence: 99%

“…To do this, cells were cotransfected with the same dominant-negative RAR␣ construct (dnRAR␣403) used to construct the dnRAR403-flox allele used in our in vivo experiments (Damm et al, 1993;Sen et al, 2005). Expression of this truncated construct interferes with endogenous RA signaling because the transcriptional regulatory domain of the receptor is deleted (Damm et al, 1993;Sen et al, 2005;Rajaii et al, 2008). Expression of the dnRAR␣403 construct in cells without treatment of WNT3a or RA had no effect on TOP-Flash reporter activity (Fig.…”

Section: Ra Exposure Inhibits Endothelial Wnt Signaling Both In Vivo mentioning

confidence: 99%

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Diverse Functions of Retinoic Acid in Brain Vascular Development

Bonney

Harrison-Uy

Mishra

et al. 2016

Journal of Neuroscience

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Section: Discussionmentioning

confidence: 99%

Section: Ra Exposure Inhibits Endothelial Wnt Signaling Both In Vivo mentioning

confidence: 99%

Diverse Functions of Retinoic Acid in Brain Vascular Development

Bonney

Harrison-Uy

Mishra

et al. 2016

Journal of Neuroscience

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“…Exactly the same number of genes was found to be enriched in the dorsal retina, using the same criteria (SI Table 10). Five of the 10 most highly enriched ''dorsal'' genes were genes previously shown to be enriched in the dorsal retina: Tbx5, Ephrin B2 (Efnb2), COUP-TFII (Nr2f2), Raldh1 (Aldh1a1), and Cyb1b1 (13)(14)(15)(16)(17)(18). In addition, the two dorsal Ͼ ventral cone genes discussed above, Opn1mw (M-opsin), Smug1, and one additional cone gene, Arr3, were also found to be among the top 21 most dorsally enriched genes.…”

Section: Dorsal-ventral (D-v) Patterning Of Photoreceptor Genes Suggementioning

confidence: 99%

A typology of photoreceptor gene expression patterns in the mouse

Corbo

Myers

Lawrence

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

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Mutations in photoreceptor-enriched genes have been implicated in dozens of human retinal diseases, yet no systematic analysis of rod and cone gene expression patterns has been carried out. In addition, although cone photoreceptor loss accounts for much of the morbidity of retinal disease, relatively few cone-specific genes are known. In this study, we carried out microarray and in situ hybridization analyses of the mouse Neural retina leucine zipper gene (Nrl) mutant, which shows an en masse conversion of rods into cones, to establish a typology of photoreceptor gene expression and to identify novel cone-specific genes. We found a total of 18 new cone-enriched genes, some of which map near uncloned retinal disease loci. Several of these genes have a dorsal-ventral (D-V) pattern of expression similar to that of short-or mediumwavelength opsins. We carried out microarray analysis of dorsal and ventral microdissected WT retina and found additional photoreceptor genes with an asymmetric distribution. Overall, we found that photoreceptor genes fall on an expression spectrum from rod-specific to cone-specific, with many showing varying degrees of rod and cone coexpression. These expression patterns can be reliably predicted from microarray data alone. Our results demonstrate definitive molecular differences between rods and cones that may underlie the physiological differences between these two classes of photoreceptors.blindness ͉ cone photoreceptor ͉ retina ͉ rod photoreceptor

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“…Finally, exogenous retinoic acid can improve aspects of alveolar formation in animal models of lung disease (Shifren and Mecham, 2006;Pierce et al, 2007;Stinchcombe and Maden, 2008) through both improved matrix production and pro-angiogenic effects. Interestingly, ephrinB2 expression is increased by retinoic acid and endogenous retinoids in other systems (Merrill et al, 2004;Sen et al, 2005) and could be modulate the effects of this system. It will be of interest to relate the loss-of-function in the ephrinB2 line to known signaling cascades affecting lung development.…”

Section: Other Mouse Models Of Deficient Lung Developmentmentioning

confidence: 99%

Role for ephrinB2 in postnatal lung alveolar development and elastic matrix integrity

Wilkinson

Schittny

Reinhardt

et al. 2008

Developmental Dynamics

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Alveoli are formed in the lung by the insertion of secondary tissue folds, termed septa, which are subsequently remodeled to form the mature alveolar wall. Secondary septation requires interplay between three cell types: endothelial cells forming capillaries, contractile interstitial myofibroblasts, and epithelial cells. Here, we report that postnatal lung alveolization critically requires ephrinB2, a ligand for Eph receptor tyrosine kinases expressed by the microvasculature. Mice homozygous for the hypomorphic knockin allele ephrinB2 ⌬V/⌬V , encoding mutant ephrinB2 with a disrupted C-terminal PDZ interaction motif, show severe postnatal lung defects including an almost complete absence of lung alveoli and abnormal and disorganized elastic matrix. Lung alveolar formation is not sensitive to loss of ephrinB2 cytoplasmic tyrosine phosphorylation sites. Postnatal day 1 mutant lungs show extracellular matrix alterations without differences in proportions of major distal cell populations. We conclude that lung alveolar formation relies on endothelial ephrinB2 function. Developmental Dynamics 237:2220 -2234, 2008.

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Retinoic acid regulates the expression of dorsoventral topographic guidance molecules in the chick retina

Cited by 41 publications

References 76 publications

Diverse Functions of Retinoic Acid in Brain Vascular Development

Diverse Functions of Retinoic Acid in Brain Vascular Development

A typology of photoreceptor gene expression patterns in the mouse

Role for ephrinB2 in postnatal lung alveolar development and elastic matrix integrity

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