ATF4 May Be Essential for Adaption of the Ocular Lens to Its Avascular Environment

Xiang, Jiawen; Pompetti, Anthony J.; Faranda, Adam P.; Wang, Yan; Novo, Samuel G.; Li, David Wan-Cheng; Duncan, Melinda K.

doi:10.3390/cells12222636

Cells

2023

DOI: 10.3390/cells12222636

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ATF4 May Be Essential for Adaption of the Ocular Lens to Its Avascular Environment

Jiawen Xiang,

Anthony J. Pompetti,

Adam P. Faranda

et al.

Abstract: The late embryonic mouse lens requires the transcription factor ATF4 for its survival although the underlying mechanisms were unknown. Here, RNAseq analysis revealed that E16.5 Atf4 null mouse lenses downregulate the mRNA levels of lens epithelial markers as well as known markers of late lens fiber cell differentiation. However, a comparison of this list of differentially expressed genes (DEGs) with other known transcriptional regulators of lens development indicated that ATF4 expression is not directly contro… Show more

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2024

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Anp32b Deficiency Suppresses Ocular Development by Repression of Pax6

Wei,

Liu,

Yang

et al. 2024

Ophthalmic Res

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Introduction This study aims to elucidate the role and molecular mechanisms of acidic leucine-rich nuclear phosphoprotein 32kDa B (Anp32b)-deficiency in ocular development. Methods We used constitutive C57BL/6-derived Anp32b−/− mice to elucidate the role of Anp32b in ocular development, including the phenotype and proportion of eye malformation in different genotypes. RNA-Seq analysis and rescue experiments were performed to investigate the underlying mechanisms of Anp32b. Results Deletion of Anp32b contributes to severe defects in ocular development, including anophthalmia and microphthalmia. Moreover, Anp32b is highly expressed in the lens, and Anp32b−/− embryos with microphthalmia often exhibit severely impaired lens development. Mechanistically, ANP32B directly interacts with paired box protein 6 (PAX6), a master transcriptional regulator, and enhances its transcriptional activity. Overexpression of PAX6 partially but significantly reverses the inhibition of proliferation observed in ANP32B knockdown lens epithelial cells. Conclusions Our findings indicate that Anp32b-deficiency suppresses ocular development by repressing Pax6 and identify that Anp32b is a viable therapeutic target for ocular developmental defects.

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Anp32b Deficiency Suppresses Ocular Development by Repression of Pax6

Wei,

Liu,

Yang

et al. 2024

Ophthalmic Res

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ATF4 May Be Essential for Adaption of the Ocular Lens to Its Avascular Environment

Cited by 1 publication

References 108 publications

Anp32b Deficiency Suppresses Ocular Development by Repression of Pax6

Anp32b Deficiency Suppresses Ocular Development by Repression of Pax6

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