A Drosophila screen identifies neurofibromatosis-1 genetic modifiers involved in systemic and synaptic growth.

Rare diseases (Austin, Tex.) Pub Date : 2014-02-25 eCollection Date: 2014-01-01 DOI:10.4161/rdis.28341

James A Walker, André Bernards

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引用次数: 11

Abstract

Neurofibromatosis type 1 (NF1) is caused by loss of a negative regulator of Ras oncoproteins. Unknown genetic modifiers have been implicated in NF1's characteristic variability. Drosophila melanogaster dNf1 phenotypes include cognitive deficits and reduced growth, both of which resemble human symptoms. We recently reported results of a screen for dominant modifiers of dNf1 growth. Suppressors include the dAlk tyrosine kinase and its activating ligand, two other genes involved in Ras/ERK signal transduction, the synaptic scaffold Dap160 and the CCKLR-17D1 drosulfakinin receptor. Additional modifiers include several genes involved in cAMP/PKA signaling. Providing mechanistic insights, dAlk, jeb, and CCKLR-17D1 also suppress a dNf1 synaptic overgrowth defect, and increasing cAMP/PKA signaling in the neuroendocrine ring gland rescued the dNf1 growth deficiency. Finally, among the several suppressors identified in our screen, we specifically implicate ALK as a potential therapeutic target by showing that NF1-regulated ALK/RAS/ERK signaling is conserved in human cells.

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果蝇筛选识别神经纤维瘤病-1基因修饰参与系统和突触生长。

1型神经纤维瘤病(NF1)是由Ras癌蛋白负调节因子的缺失引起的。未知的遗传修饰因子与NF1的特征变异有关。黑胃果蝇的dNf1表型包括认知缺陷和生长减少，这两者都类似于人类的症状。我们最近报道了筛选dNf1生长显性修饰因子的结果。抑制因子包括dAlk酪氨酸激酶及其激活配体，另外两个参与Ras/ERK信号转导的基因，突触支架Dap160和CCKLR-17D1 drosulakinin受体。其他修饰因子包括一些参与cAMP/PKA信号传导的基因。dAlk、jeb和CCKLR-17D1也抑制dNf1突触过度生长缺陷，神经内分泌环腺中cAMP/PKA信号的增加挽救了dNf1生长缺陷。最后，在我们的筛选中发现的几个抑制因子中，我们通过显示nf1调节的ALK/RAS/ERK信号在人类细胞中是保守的，明确暗示ALK是一个潜在的治疗靶点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Rare diseases (Austin, Tex.)

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