Involvement of AP-2 in Regulation of the<i>R-FABP</i>Gene in the Developing Chick Retina

Bisgrove, Dwayne A.; Monckton, Elizabeth A.; Godbout, Roseline

doi:10.1128/mcb.17.10.5935

Cited by 24 publications

(23 citation statements)

References 61 publications

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“…We have previously shown that AP-2␣ and AP-2␤ are specifically expressed in the amacrine and horizontal cell lineages of the developing chick retina (Bisgrove et al, 1997). Here, we describe a third member of the AP-2 family, AP-2␦, which has an even more restricted distribution pattern in the developing chick retina.…”

Section: Discussionmentioning

confidence: 75%

“…Five AP-2 genes have been isolated in mice and humans: AP-2␣, AP-2␤, AP-2␥, AP-2␦, and AP-2⑀ (Williams et al, 1988;Moser et al, 1995;Bosher et al, 1996;Chazaud et al, 1996;Zhao et al, 2001a;Feng and Williams, 2003;Tummala et al, 2003). In chicken, two AP-2 genes have been isolated to date, AP-2␣ and AP-2␤ (Bisgrove et al, 1997;Shen et al, 1997;Bisgrove and Godbout, 1999). AP-2 proteins have a highly conserved C-terminal half, which contains the central and helix-span-helix domains involved in DNA binding and dimerization.…”

Section: Introductionmentioning

confidence: 99%

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Expression of AP‐2δ in the developing chick retina

Glubrecht

Mita

et al. 2008

Developmental Dynamics

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Section: Discussionmentioning

confidence: 75%

Section: Introductionmentioning

confidence: 99%

Expression of AP‐2δ in the developing chick retina

Glubrecht

Mita

et al. 2008

Developmental Dynamics

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“…AP-2 expression during mouse embryogenesis was observed around the eye in areas of developing neuroepithelial sensory structures (Mitchell et al, 1991Moser et al, 1995, and AP-2a null mice exhibit a displaced optic cup with dysmorphic neural and pigmented retinal layers of the eye developing medially (Schorle et al, 1996). Recently, it was shown that AP-2 is a regulator of the retinal fatty-acid-binding protein, which is involved in the retinal maturation process (Bisgrove et al, 1997). DAP-2 expression within the region of the brain/optical lobe zone raises the question whether AP-2 is also involved in the development of the visual system.…”

Section: Expression Of Dap-2 During Drosophila Embryonic Development mentioning

confidence: 99%

Cloning and characterization of the Drosophila homologue of the AP-2 transcription factor

et al. 1998

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The AP-2 family of transcription factors (AP-2a, AP-2b and AP-2g) is temporally and spatially regulated in mammals and has also been implicated in oncogenesis. Here we report the isolation of genomic and cDNA clones encoding the Drosophila homologue of AP-2, designated DAP-2. The predicted amino acid sequence exhibits 42 ± 45% overall identity with the vertebrate AP-2 proteins. A sequence of 107 amino acids within the DNA binding and dimerization domain of the vertebrate AP-2 proteins is highly conserved (90 ± 92%) with the DAP-2 homologue. An in vitro translation product of DAP-2 cDNA binds speci®cally to AP-2 consensus binding sites. DAP-2 was also shown to be functionally conserved in vivo because transient transfection of a DAP-2 expression plasmid activated transcription through AP-2 binding sites in both mammalian and Drosophila cell lines. DAP-2 is expressed during early embryogenesis and DAP-2 transcripts are also detected in the adult. Whole-mount in situ hybridizations demonstrated that DAP-2 is expressed initially at stage 9 of Drosophila embryonic development and that DAP-2 transcripts are detected in regions of the brain, eyeantennal disc, optical lobe, antenno-maxillary complex, and in a subset of cells of the ventral nerve cord. The cloning of DAP-2 and the identi®cation of the DAP-2 expression pattern during embryogenesis provides a starting point to address the function of AP-2 during di erentiation and development in a well understood model system.

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“…In the carboxy-terminal half of the protein, all family members share a basic DNA-binding region, which is followed by a helix-span-helix dimerization motif through which the AP-2 proteins can form homodimers, or heterodimers with other family members (18,41,44,65,66,71). Both AP-2␣ and AP-2␤ have been linked to fatty acid-related ocular development (3,4,72). During chick retinogenesis, AP-2␣ and AP-2␤ have been shown to act as transcriptional repressors of retinal fatty acid binding protein (R-FABP), a homologue of mammalian brain FABP that is strongly expressed in the developing chick retina (3,4).…”

mentioning

confidence: 99%

Conditional Deletion of Activating Protein 2α (AP-2α) in the Developing Retina Demonstrates Non-Cell-Autonomous Roles for AP-2α in Optic Cup Development

Bassett

Pontoriero

Feng

et al. 2007

Molecular and Cellular Biology

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Activating protein 2␣ (AP-2␣) is known to be expressed in the retina, and AP-2␣-null mice exhibit defects in the developing optic cup, including patterning of the neural retina (NR) and a replacement of the dorsal retinal pigmented epithelium (RPE) with NR. In this study, we analyzed the temporal and spatial retinal expression patterns of AP-2␣ and created a conditional deletion of AP-2␣ in the developing retina. AP-2␣ exhibited a distinct expression pattern in the developing inner nuclear layer of the retina, and colocalization studies indicated that AP-2␣ was exclusively expressed in postmitotic amacrine cell populations. Targeted deletion of AP-2␣ in the developing retina did not result in observable retinal defects. Further examination of AP-2␣-null mutants revealed that the severity of the RPE defect was variable and, although defects in retinal lamination occur at later embryonic stages, earlier stages showed normal lamination and expression of markers for amacrine and ganglion cells. Together, these data demonstrate that, whereas AP-2␣ alone does not play an intrinsic role in retinogenesis, it has non-cell-autonomous effects on optic cup development. Additional expression analyses showed that multiple AP-2 proteins are present in the developing retina, which will be important to future studies.The retina is an extension of the central nervous system derived from the forebrain neural ectoderm. During vertebrate eye development, the diencephalon evaginates to form optic vesicles, which subsequently invaginate to form a bilayered optic cup. The inner layer of the optic cup will give rise to the neural retina (NR), and the outer layer becomes the retinal pigmented epithelium (RPE) (13). Six principal types of neurons and the Müller glia cells that comprise the NR are generated in a fixed, overlapping chronological order (69). Ganglion cells are "born" (i.e., become postmitotic) first, followed by amacrine, horizontal, and cone photoreceptor cells, and ending with bipolar and Müller glia cells. The birth of rod photoreceptors spans nearly the entire period of retinal histogenesis, which begins at embryonic day 10.5 (E10.5) in mice and continues for approximately 3 weeks, ending at postnatal day 11 (P11) (69). A "central-to-peripheral" gradient of differentiation has been described in the NR, where the genesis of a particular cell type begins in the central retina (near the optic nerve head) and spreads toward the peripheral retina (next to the ciliary body) (26,37,47).A range of extrinsic and intrinsic factors control the many steps that retinal progenitor cells (RPCs) progress through during development, including cell cycle exit, cell fate bias or commitment, and differentiation into a functional neuron or glial cell. The prevailing model to explain how different retinal cell fates are determined from multipotent progenitors suggests that RPCs progress through states of competence, in which their continually changing intrinsic properties determine how they will respond to external signals at given times duri...

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Involvement of AP-2 in Regulation of theR-FABPGene in the Developing Chick Retina

Cited by 24 publications

References 61 publications

Expression of AP‐2δ in the developing chick retina

Expression of AP‐2δ in the developing chick retina

Cloning and characterization of the Drosophila homologue of the AP-2 transcription factor

Conditional Deletion of Activating Protein 2α (AP-2α) in the Developing Retina Demonstrates Non-Cell-Autonomous Roles for AP-2α in Optic Cup Development

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