Walker Macie B, Miller Craig T, Swartz Mary E, Eberhart Johann K, Kimmel Charles B
Institute of Neuroscience, 1254 University of Oregon, Eugene, OR 97403, USA.
Dev Biol. 2007 Apr 1;304(1):194-207. doi: 10.1016/j.ydbio.2006.12.027. Epub 2006 Dec 19.
Genetic and pharmacological studies demonstrate that Endothelin1 (Edn1) is a key signaling molecule for patterning the facial skeleton in fish, chicks, and mice. When Edn1 function is reduced early in development the ventral lower jaw and supporting structures are reduced in size and often fused to their dorsal upper jaw counterparts. We show that schmerle (she) encodes a zebrafish ortholog of Phospholipase C, beta 3 (Plcbeta3) required in cranial neural crest cells for Edn1 regulation of pharyngeal arch patterning. Sequencing and co-segregation demonstrates that two independent she (plcbeta3) alleles have missense mutations in conserved residues within the catalytic domains of Plcbeta3. Homozygous plcbeta3 mutants are phenotypically similar to edn1 mutants and exhibit a strong arch expression defect in Edn1-dependent Distalless (Dlx) genes as well as expression defects in several Edn1-dependent intermediate and ventral arch domain transcription factors. plcbeta3 also genetically interacts with edn1, supporting a model in which Edn1 signals through a G protein-coupled receptor to activate Plcbeta3. Mild skeletal defects occur in plcbeta3 heterozygotes, showing the plcbeta3 mutations are partially dominant. Through a morpholino-mediated deletion in the N-terminal PH domain of Plcbeta3, we observe a partial rescue of facial skeletal defects in homozygous plcbeta3 mutants, supporting a hypothesis that an intact PH domain is necessary for the partial dominance we observe. In addition, through mosaic analyses, we show that wild-type neural crest cells can efficiently rescue facial skeletal defects in homozygous plcbeta3 mutants, demonstrating that Plcbeta3 function is required in neural crest cells and not other cell types to pattern the facial skeleton.
遗传学和药理学研究表明,内皮素1(Edn1)是鱼类、鸡和小鼠面部骨骼模式形成的关键信号分子。在发育早期,当Edn1功能降低时,腹侧下颌和支持结构的尺寸会减小,并且常常与背侧上颌对应部分融合。我们发现,schmerle(she)编码一种斑马鱼磷脂酶Cβ3(Plcbeta3)的直系同源物,它在颅神经嵴细胞中是Edn1调节咽弓模式形成所必需的。测序和共分离表明,两个独立的she(plcbeta3)等位基因在Plcbeta3催化结构域内的保守残基处存在错义突变。纯合的plcbeta3突变体在表型上与edn1突变体相似,在Edn1依赖的远端缺失(Dlx)基因中表现出强烈的弓表达缺陷,以及在几个Edn1依赖的中间和腹侧弓结构域转录因子中存在表达缺陷。plcbeta3在遗传上也与edn1相互作用,支持了一个模型,即Edn1通过G蛋白偶联受体发出信号以激活Plcbeta3。plcbeta3杂合子中出现轻度骨骼缺陷,表明plcbeta3突变具有部分显性。通过对Plcbeta3 N端PH结构域进行吗啉代介导的缺失,我们观察到纯合plcbeta3突变体面部骨骼缺陷得到部分挽救,支持了一个假设,即完整的PH结构域对于我们观察到的部分显性是必要的。此外,通过镶嵌分析,我们表明野生型神经嵴细胞可以有效地挽救纯合plcbeta3突变体的面部骨骼缺陷,这表明在神经嵴细胞而非其他细胞类型中需要Plcbeta3功能来形成面部骨骼模式。