Regeneration in the absence of canonical neoblasts in an early branching flatworm

Ludwik Gasiorowski, Chew Chai, Andrei Rozanski, Gargi Purandare, Fruzsina Ficze, Athanasia Mizi, Bo Wang, Jochen C. Rink
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Abstract

The remarkable regenerative abilities of flatworms are closely linked to neoblasts - adult pluripotent stem cells that are the only division-competent cell type outside of the reproductive system. Although the presence of neoblast-like cells and whole-body regeneration in other animals has led to the idea that these features may represent the ancestral metazoan state, the evolutionary origin of both remains unclear. Here we show that the catenulid Stenostomum brevipharyngium, a member of the earliest-branching flatworm lineage, lacks conventional neoblasts despite being capable of whole-body regeneration and asexual reproduction. Using a combination of single-nuclei transcriptomics, in situ gene expression analysis, and functional experiments, we find that cell divisions are not restricted to a single cell type and are associated with multiple fully differentiated somatic tissues. Furthermore, the cohort of germline multipotency genes, which are considered canonical neoblast markers, are not expressed in dividing cells, but in the germline instead, and we experimentally show that they are neither necessary for proliferation nor regeneration. Overall, our results challenge the notion that canonical neoblasts are necessary for flatworm regeneration and open up the possibility that neoblast-like cells may have evolved convergently in different animals, independent of their regenerative capacity.
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早期分支扁形虫在缺乏典型新生细胞情况下的再生
扁形虫非凡的再生能力与新生细胞密切相关,新生细胞是成体多能干细胞,是生殖系统之外唯一具有分裂能力的细胞类型。尽管在其他动物中存在类似新生细胞的细胞和全身再生能力,使人们认为这些特征可能代表了元虫的祖先状态,但两者的进化起源仍不清楚。在这里,我们发现扁形虫最早分支的成员--鲶形虫(Stenostomum brevipharyngium)缺乏传统的新母细胞,尽管它能够进行全身再生和无性繁殖。通过结合使用单核转录组学、原位基因表达分析和功能实验,我们发现细胞分裂并不局限于单一细胞类型,而是与多个完全分化的体细胞组织相关联。此外,被认为是典型新母细胞标记的生殖细胞多潜能基因群并不在分裂细胞中表达,而是在生殖细胞中表达。总之,我们的研究结果对 "典型新母细胞是扁形虫再生的必要条件 "这一观点提出了质疑,并为类似新母细胞的细胞在不同动物中的趋同进化提供了可能性,而与它们的再生能力无关。
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