Growth patterns of caudal fin rays are informed by both external signals from the regenerating organ and remembered identity autonomous to the local tissue

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-18 DOI:10.1016/j.ydbio.2024.07.008
Melody Autumn, Yinan Hu, Jenny Zeng, Sarah K. McMenamin
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Abstract

Regenerating tissues must remember or interpret their spatial position, using this information to restore original size and patterning. The external skeleton of the zebrafish caudal fin is composed of 18 rays; after any portion of the fin is amputated, position-dependent regenerative growth restores each ray to its original length. We tested for transcriptional differences during regeneration of proximal versus distal tissues and identified 489 genes that differed in proximodistal expression. Thyroid hormone directs multiple aspects of ray patterning along the proximodistal axis, and we identified 364 transcripts showing a proximodistal expression pattern that was dependent on thyroid hormone context. To test what aspects of ray positional identity are directed by extrinsic environental cues versus remembered identity autonomous to the tissue, we transplanted distal portions of rays to proximal environments and evaluated regeneration within the new location. Native regenerating proximal tissue showed robust expression of scpp7, a transcript with thyroid-regulated proximal enrichment; in contrast, regenerating rays originating from transplanted distal tissue showed reduced (distal-like) expression during outgrowth. These distal-to-proximal transplants regenerated far beyond the length of the graft itself, indicating that cues from the proximal environment promoted additional growth. Nonetheless, these transplants initiated regeneration at a much slower rate compared to controls, suggesting memory of distal identity was retained by the transplanted tissue. This early growth retardation caused rays that originated from transplants to grow noticeably shorter than neighboring native rays. While several aspects of fin ray morphology (bifurcation, segment length) were found to be determined by the environment, we found that both regeneration speed and ray length are remembered autonomously by tissues, and that persist through multiple rounds of amputation and regeneration.

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尾鳍射线的生长模式既受到来自再生器官的外部信号的影响,也受到当地组织自主记忆特性的影响。
再生组织必须记住或解释自己的空间位置,并利用这一信息恢复原来的大小和形态。斑马鱼尾鳍的外部骨架由 18 条鳍条组成;鳍条的任何部分被截断后,位置依赖性再生生长会使每条鳍条恢复到原来的长度。我们检测了近端组织与远端组织再生过程中的转录差异,并确定了 489 个基因在近端组织表达中的差异。甲状腺激素沿着近端轴指导射线模式化的多个方面,我们发现有 364 个转录本显示出依赖于甲状腺激素背景的近端表达模式。为了检验射线位置特征的哪些方面是由外在线索引导的,哪些方面是由组织本身自主记忆的特征引导的,我们将射线的远端部分移植到近端环境,并评估了新位置的再生情况。虽然邻近的近端组织显示出强大的 scpp7 表达,这是一种受甲状腺调控的近端富集转录本,但源自移植远端组织的再生射线在生长过程中显示出减少的(远端样)表达。这些远端向近端移植的再生长度远远超过了移植本身的长度,这表明近端环境的线索促进了额外的生长。然而,与对照组相比,这些移植体最初的再生速度要慢得多,这表明移植组织保留了对远端特征的记忆。这种早期生长迟缓导致移植鳍条的长度明显短于邻近的原生鳍条。虽然发现鳍条形态的几个方面(分叉、节段长度)是由环境决定的,但再生速度和鳍条长度是由组织自主记忆的,并在多轮截肢和再生过程中持续存在。
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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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