LIM-HD transcription factors control axial patterning and specify distinct neuronal and intestinal cell identities in planarians

IF 4.5 3区 生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Open Biology Pub Date : 2023-12-01 DOI:10.1098/rsob.230327
M. D. Molina, Dema Abduljabbar, Anna Guixeras, S. Fraguas, F. Cebrià
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Abstract

Adult planarians can regenerate the gut, eyes and even a functional brain. Proper identity and patterning of the newly formed structures require signals that guide and commit their adult stem cells. During embryogenesis, LIM-homeodomain (LIM-HD) transcription factors act in a combinatorial ‘LIM code’ to control cell fate determination and differentiation. However, our understanding about the role these genes play during regeneration and homeostasis is limited. Here, we report the full repertoire of LIM-HD genes in Schmidtea mediterranea. We found that lim homeobox (lhx) genes appear expressed in complementary patterns along the cephalic ganglia and digestive system of the planarian, with some of them being co-expressed in the same cell types. We have identified that Smed-islet1, -lhx1/5-1, -lhx2/9-3, -lhx6/8, -lmx1a/b-2 and -lmx1a/b-3 are essential to pattern and size the planarian brain as well as for correct regeneration of specific subpopulations of dopaminergic, serotonergic, GABAergic and cholinergic neurons, while Smed-lhx1/5.2 and -lhx2/9.2 are required for the proper expression of intestinal cell type markers, specifically the goblet subtype. LIM-HD are also involved in controlling axonal pathfinding (lhx6/8), axial patterning (islet1, lhx1/5-1, lmx1a/b-3), head/body proportions (islet2) and stem cell proliferation (lhx3/4, lhx2/9-3, lmx1a/b-2, lmx1a/b-3). Altogether, our results suggest that planarians might present a combinatorial LIM code that controls axial patterning and axonal growing and specifies distinct neuronal and intestinal cell identities.
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LIM-HD转录因子控制轴向模式化,并指定扁形动物中不同的神经细胞和肠细胞特性
成年涡虫可以再生肠道、眼睛,甚至有功能的大脑。新形成的结构的正确识别和模式需要引导和投入成体干细胞的信号。在胚胎发生过程中,LIM同源结构域(LIM- hd)转录因子在一个组合的“LIM代码”中起作用,控制细胞命运的决定和分化。然而,我们对这些基因在再生和体内平衡过程中所起的作用的了解是有限的。在这里,我们报道了地中海施米德亚(Schmidtea mediterranea)中LIM-HD基因的全部曲目。我们发现,在涡虫的头神经节和消化系统中,许多同源盒(lhx)基因以互补的模式表达,其中一些基因在相同的细胞类型中共表达。我们已经发现,smmed -islet1、-lhx1/5-1、-lhx2/9-3、-lhx2/ 6/8、-lmx1a/b-2和-lmx1a/b-3对于规划和大小以及多巴胺能、血清素能、gaba能和胆碱能神经元特定亚群的正确再生是必不可少的,而smmed -lhx1/5.2和-lhx2/9.2对于肠道细胞类型标记物的正确表达是必需的,特别是杯状亚型。LIM-HD还参与控制轴突寻路(lhx6/8),轴向模式(islet1, lhx1/5-1, lmx1a/b-3),头/体比例(islet2)和干细胞增殖(lhx3/4, lhx2/9-3, lmx1a/b-2, lmx1a/b-3)。总之,我们的研究结果表明,涡虫可能存在一个组合的LIM代码,控制轴向模式和轴突生长,并指定不同的神经元和肠细胞身份。
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来源期刊
Open Biology
Open Biology BIOCHEMISTRY & MOLECULAR BIOLOGY-
CiteScore
10.00
自引率
1.70%
发文量
136
审稿时长
6-12 weeks
期刊介绍: Open Biology is an online journal that welcomes original, high impact research in cell and developmental biology, molecular and structural biology, biochemistry, neuroscience, immunology, microbiology and genetics.
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