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胰岛与LMO的化学计量控制着决定运动神经元和V2a中间神经元身份的转录复合物的功能。

Islet-to-LMO stoichiometries control the function of transcription complexes that specify motor neuron and V2a interneuron identity.

作者信息

Song Mi-Ryoung, Sun Yunfu, Bryson Ami, Gill Gordon N, Evans Sylvia M, Pfaff Samuel L

机构信息

Bioimaging Research Center and Cell Dynamics Research Center, Gwangju Institute of Science and Technology, Gwangju, Republic of Korea.

出版信息

Development. 2009 Sep;136(17):2923-32. doi: 10.1242/dev.037986.

DOI:10.1242/dev.037986
PMID:19666821
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2723064/
Abstract

LIM transcription factors bind to nuclear LIM interactor (Ldb/NLI/Clim) in specific ratios to form higher-order complexes that regulate gene expression. Here we examined how the dosage of LIM homeodomain proteins Isl1 and Isl2 and LIM-only protein Lmo4 influences the assembly and function of complexes involved in the generation of spinal motor neurons (MNs) and V2a interneurons (INs). Reducing the levels of Islet proteins using a graded series of mutations favored V2a IN differentiation at the expense of MN formation. Although LIM-only proteins (LMOs) are predicted to antagonize the function of Islet proteins, we found that the presence or absence of Lmo4 had little influence on MN or V2a IN specification. We did find, however, that the loss of MNs resulting from reduced Islet levels was rescued by eliminating Lmo4, unmasking a functional interaction between these proteins. Our findings demonstrate that MN and V2a IN fates are specified by distinct complexes that are sensitive to the relative stoichiometries of the constituent factors and we present a model to explain how LIM domain proteins modulate these complexes and, thereby, this binary-cell-fate decision.

摘要

LIM转录因子以特定比例与核LIM相互作用分子(Ldb/NLI/Clim)结合,形成调控基因表达的高阶复合物。在此,我们研究了LIM同源结构域蛋白Isl1和Isl2以及仅含LIM结构域的蛋白Lmo4的剂量如何影响参与脊髓运动神经元(MNs)和V2a中间神经元(INs)生成的复合物的组装和功能。使用一系列分级突变降低胰岛蛋白水平有利于V2a IN分化,但以MN形成为代价。尽管预测仅含LIM结构域的蛋白(LMOs)会拮抗胰岛蛋白的功能,但我们发现Lmo4的存在与否对MN或V2a IN的特化影响很小。然而,我们确实发现,通过消除Lmo4可以挽救因胰岛水平降低导致的MN缺失,这揭示了这些蛋白之间的功能相互作用。我们的研究结果表明,MN和V2a IN的命运由对组成因子相对化学计量敏感的不同复合物决定,并且我们提出了一个模型来解释LIM结构域蛋白如何调节这些复合物,从而解释这种二元细胞命运决定。

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本文引用的文献

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