Post-translationally abnormal collagens of prolyl 3-hydroxylase-2 null mice offer a pathobiological mechanism for the high myopia linked to human LEPREL1 mutations

David M. Hudson; Kyu Sang Joeng; Rachel Werther; Abbhirami Rajagopal; Maryann Weis; Brendan H. Lee; David R. Eyre

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Post-translationally abnormal collagens of prolyl 3-hydroxylase-2 null mice offer a pathobiological mechanism for the high myopia linked to human LEPREL1 mutations

Journal of Biological Chemistry (2015) 290(13) 8613-8622

DOI: 10.1074/jbc.M114.634915

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Abstract

Background: Mutations in LEPREL1, the gene encoding prolyl 3-hydroxylase-2 (P3H2), cause severe nonsyndromic myopia. Results: Collagens I and IV from P3h2-null mouse eye tissues were significantly reduced in 3-hydroxylation compared with wild-type littermates. Conclusion: Loss of P3h2 causes altered collagen prolyl 3-hydroxylation from multiple tissues. Significance: Improved understanding of molecular mechanisms of myopia could aid in early diagnosis and treatment of irreversible vision loss.

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Hudson, D. M., Joeng, K. S., Werther, R., Rajagopal, A., Weis, M., Lee, B. H., & Eyre, D. R. (2015). Post-translationally abnormal collagens of prolyl 3-hydroxylase-2 null mice offer a pathobiological mechanism for the high myopia linked to human LEPREL1 mutations. Journal of Biological Chemistry, 290(13), 8613–8622. https://doi.org/10.1074/jbc.M114.634915

Post-translationally abnormal collagens of prolyl 3-hydroxylase-2 null mice offer a pathobiological mechanism for the high myopia linked to human LEPREL1 mutations

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