Developmental Neurobiology Unit, Instituto de Biomedicina de Valencia IBV-CSIC, Valencia, Spain.
Molecular Basis of Neurodegeneration Unit, Instituto de Biomedicina de Valencia IBV-CSIC, Valencia, Spain.
Elife. 2023 Jul 14;12:e89702. doi: 10.7554/eLife.89702.
Cilia, either motile or non-motile (a.k.a primary or sensory), are complex evolutionarily conserved eukaryotic structures composed of hundreds of proteins required for their assembly, structure and function that are collectively known as the ciliome. Ciliome gene mutations underlie a group of pleiotropic genetic diseases known as ciliopathies. Proper cilium function requires the tight coregulation of ciliome gene transcription, which is only fragmentarily understood. RFX transcription factors (TF) have an evolutionarily conserved role in the direct activation of ciliome genes both in motile and non-motile cilia cell-types. In vertebrates, FoxJ1 and FoxN4 Forkhead (FKH) TFs work with RFX in the direct activation of ciliome genes, exclusively in motile cilia cell-types. No additional TFs have been described to act together with RFX in primary cilia cell-types in any organism. Here we describe FKH-8, a FKH TF, as a direct regulator of the sensory ciliome genes in . FKH-8 is expressed in all ciliated neurons in C. , binds the regulatory regions of ciliome genes, regulates ciliome gene expression, cilium morphology and a wide range of behaviors mediated by sensory ciliated neurons. FKH-8 and DAF-19 ( RFX) physically interact and synergistically regulate ciliome gene expression. FKH-8 function can be replaced by mouse FOXJ1 and FOXN4 but not by other members of other mouse FKH subfamilies. In conclusion, RFX and FKH TF families act jointly as direct regulators of ciliome genes also in sensory ciliated cell types suggesting that this regulatory logic could be an ancient trait predating functional cilia sub-specialization.
纤毛,无论是能动的还是非能动的(也称为初级纤毛或感觉纤毛),都是由数百种蛋白质组成的复杂进化保守的真核结构,这些蛋白质对于它们的组装、结构和功能是必需的,这些蛋白质共同被称为纤毛组。纤毛组基因突变是一组称为纤毛病的多效遗传疾病的基础。适当的纤毛功能需要纤毛组基因转录的紧密协同调节,而这一点只是部分理解。RFX 转录因子(TF)在能动和非能动纤毛细胞类型中对纤毛组基因的直接激活具有进化保守的作用。在脊椎动物中,FoxJ1 和 FoxN4 Forkhead(FKH)TF 与 RFX 一起在能动纤毛细胞类型中直接激活纤毛组基因。在任何生物体中,尚未有其他 TF 被描述与 RFX 一起在初级纤毛细胞类型中起作用。在这里,我们描述了 FKH-8,一种 FKH TF,作为 C. elegans 感觉纤毛组基因的直接调节剂。FKH-8 在所有有纤毛的神经元中表达,结合纤毛组基因的调控区,调节纤毛组基因表达、纤毛形态和感觉纤毛神经元介导的广泛行为。FKH-8 和 DAF-19(RFX)物理相互作用并协同调节纤毛组基因表达。FKH-8 功能可以被小鼠 FOXJ1 和 FOXN4 取代,但不能被其他小鼠 FKH 亚家族成员取代。总之,RFX 和 FKH TF 家族共同作为感觉纤毛细胞类型中纤毛组基因的直接调节剂起作用,这表明这种调节逻辑可能是一种古老的特征,早于功能纤毛亚特化。
