Temporally restricted activities of En1 regulatory elements underlie distinct limb malformations

bioRxiv - Developmental Biology Pub Date : 2024-08-06 DOI:10.1101/2024.08.06.606766

Alessa R. Ringel, Andreas Magg, Natalia Benetti, Robert Schöpflin, Mira Kühnlein, Asita Carola Stiege, Ute Fischer, Lars Wittler, Stephan Lorenz, Stefan Mundlos, Lila Allou

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Abstract

The precise spatiotemporal expression of developmental genes is required for proper embryonic development. EN1 plays a key role in dorsal-ventral patterning in mouse limb development from embryonic day (E) 9.5 to E11.5. Previously, we identified the lncRNA locus Maenli which drives En1 expression at E9.5, specifically in the limb. Here we addressed how En1 expression is maintained at later developmental stages when Maenli transcriptional activity is absent. With a series of in vivo CRISPR editing, we demonstrate that at later stages E10.5 and E11.5, En1 expression is driven by two intergenic enhancer elements, LSEE1 and LSEE2. Upon simultaneous loss of these two enhancers, mice only exhibit a subset of the En1 mutant and Maenli^-/- limb malformations. We show that the timing of En1 misexpression during limb development causes distinct phenotypes. These findings demonstrate that the temporally restricted activities of cis-regulatory elements, including lncRNA loci and enhancers, may underlie subtle differences in complex disease phenotypes.

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En1调控元件的时间限制活动是不同肢体畸形的基础

胚胎的正常发育需要发育基因的精确时空表达。在胚胎 9.5 天到 11.5 天的小鼠肢体发育过程中，EN1 在背腹模式化中起着关键作用。此前，我们确定了 lncRNA 基因座 Maenli，它在 E9.5 阶段驱动 En1 的表达，尤其是在肢体中。在此，我们探讨了当 Maenli 转录活性缺失时，En1 的表达如何在后期发育阶段得以维持。通过一系列体内CRISPR编辑，我们证明在E10.5和E11.5后期，En1的表达是由两个基因间增强子元件LSEE1和LSEE2驱动的。同时缺失这两个增强子后，小鼠仅表现出En1突变体和Maenli-/-肢体畸形的一部分。我们的研究表明，En1在肢体发育过程中的误表达时间会导致不同的表型。这些研究结果表明，包括 lncRNA 基因座和增强子在内的顺式调控元件在时间上受限的活动可能是复杂疾病表型出现微妙差异的原因。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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bioRxiv - Developmental Biology

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