Lack of Nuclear Localization of the Creb3l1 Transcription Factor Causes Defects in Caudal Fin Bifurcation in Zebrafish Danio rerio.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Peyton E VanWinkle, Bridge Wynn, Eunjoo Lee, Tomasz J Nawara, Holly Thomas, John M Parant, Cecilia Alvarez, Rosa Serra, Elizabeth Sztul
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Abstract

Introduction: The formation of normal bone and bone healing requires the cAMP-responsive element binding protein 3-like-1 (Creb3l1) transmembrane transcription factor, as deletion of the murine CREB3L1 results in osteopenic animals with limited capacity to repair bone after a fracture. Creb3l1 undergoes regulated intramembrane proteolysis (RIP) to release the N-terminal transcription activating (TA) fragment that enters the nucleus and regulates the expression of target genes.

Methods: To expand our understanding of Creb3l1's role in skeletal development and skeletal patterning, we aimed to generate animals expressing only the TA fragment of Creb3l1 lacking the transmembrane domain and thereby not regulated through RIP. However, the CRISPR/Cas9-mediated genome editing in zebrafish Danio rerio caused a frameshift mutation that added 56 random amino acids at the C-terminus of the TA fragment (TA+), making it unable to enter the nucleus. Thus, TA+ does not regulate transcription, and the creb3l1TA+/TA+ fish do not mediate creb3l1-dependent transcription.

Results: We document that the creb3l1TA+/TA+ fish exhibit defects in the patterning of caudal fin lepidotrichia, with significantly distalized points of proximal bifurcation and decreased secondary bifurcations. Moreover, using the caudal fin amputation model, we show that creb3l1TA+/TA+ fish have decreased regeneration and that their regenerates replicate the distalization and bifurcation defects observed in intact fins of creb3l1TA+/TA+ animals. These defects correlate with altered expression of the shha and ptch2 components of the Sonic Hedgehog signaling pathway in creb3l1TA+/TA+ regenerates.

Conclusion: Together, our results uncover a previously unknown intersection between Creb3l1 and the Sonic Hedgehog pathway and document a novel role of Creb3l1 in tissue patterning.

Creb3l1 转录因子核定位缺失导致斑马鱼尾鳍分叉缺陷
正常骨骼的形成和骨愈合需要 cAMP 反应元件结合蛋白 3-like-1 (Creb3l1)跨膜转录因子,因为缺失小鼠 CREB3L1 会导致骨质疏松动物骨折后修复骨骼的能力有限。Creb3l1经过调节性膜内蛋白水解(RIP),释放出N端转录激活(TA)片段,TA片段进入细胞核,调节靶基因的表达。为了扩大我们对Creb3l1在骨骼发育和骨骼形态中作用的了解,我们的目标是产生仅表达Creb3l1 TA片段的动物,该片段缺乏跨膜结构域,因此不能通过RIP调控。然而,CRISPR/Cas9介导的斑马鱼D. rerio基因组编辑导致了一个移帧突变,在TA片段(TA+)的C端增加了56个随机氨基酸,使其无法进入细胞核。因此,TA+不能调控转录,而creb3l1TA+/TA+鱼类动物是creb3l1转录无效。根据我们的记录,creb3l1TA+/TA+鱼的尾鳍鳞片花纹出现缺陷,近端分叉点明显变远,次级分叉点减少。此外,利用尾鳍截肢模型,我们发现 creb3l1TA+/TA+ 鱼类的再生能力下降,其再生鱼复制了在 creb3l1TA+/TA+ 动物完整鳍上观察到的远端化和分叉缺陷。这些缺陷与creb3l1TA+/TA+再生体中音速刺猬信号通路的shha和ptch2成分的表达改变有关。总之,我们的研究结果发现了 Creb3l1 与 Sonic Hedgehog 通路之间以前未知的交叉点,并记录了 Creb3l1 在组织模式化中的新作用。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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