Planarian LDB and SSDP proteins scaffold transcriptional complexes for regeneration and patterning

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-03 DOI:10.1016/j.ydbio.2024.06.021
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Abstract

Sequence-specific transcription factors often function as components of large regulatory complexes. LIM-domain binding protein (LDB) and single-stranded DNA-binding protein (SSDP) function as core scaffolds of transcriptional complexes in animals and plants. Little is known about potential partners and functions for LDB/SSDP complexes in the context of tissue regeneration. In this work, we find that planarian LDB1 and SSDP2 promote tissue regeneration, with a particular function in anterior regeneration and mediolateral polarity reestablishment. We find that LDB1 and SSDP2 interact with one another and with characterized planarian LIM-HD proteins Arrowhead, Islet1, and Lhx1/5–1. We also show that SSDP2 and LDB1 function with islet1 in polarity reestablishment and with lhx1/5–1 in serotonergic neuron maturation. Finally, we find new roles for LDB1 and SSDP2 in regulating gene expression in the planarian intestine and parenchyma; these functions are likely LIM-HD-independent. Together, our work provides insight into LDB/SSDP complexes in a highly regenerative organism. Further, our work provides a strong starting point for identifying and characterizing potential binding partners of LDB1 and SSDP2 and for exploring roles for these proteins in diverse aspects of planarian physiology.

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Planarian LDB 和 SSDP 蛋白为转录复合物搭建了再生和模式化的支架。
序列特异性转录因子通常是大型调控复合物的组成部分。在动物和植物中,LIM-结构域结合蛋白(LDB)和单链DNA结合蛋白(SSDP)是转录复合物的核心支架。人们对 LDB/SSDP 复合物在组织再生中的潜在伙伴和功能知之甚少。在这项工作中,我们发现刨花 LDB1 和 SSDP2 可促进组织再生,在前部再生和内外侧极性重建中具有特殊功能。我们发现,LDB1 和 SSDP2 相互作用,并与具有特征性的扁平动物 LIM-HD 蛋白 Arrowhead、Islet1 和 Lhx1/5-1 相互作用。我们还发现,SSDP2 和 LDB1 与 Islet1 一起在极性重建过程中发挥作用,与 lhx1/5-1 一起在血清素能神经元成熟过程中发挥作用。最后,我们发现了 LDB1 和 SSDP2 在调控刨形动物肠道和实质细胞基因表达方面的新作用;这些功能可能与 LIM-HD 无关。总之,我们的工作让我们对高度再生生物体中的 LDB/SSDP 复合物有了深入的了解。此外,我们的工作还为鉴定和描述 LDB1 和 SSDP2 的潜在结合伙伴以及探索这些蛋白在刨食动物生理学各方面的作用提供了一个强有力的起点。
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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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