Collier Lara S, Suyama Kaye, Anderson Joseph H, Scott Matthew P
Program in Cancer Biology, Department of Developmental Biology, Howard Hughes Medical Institute, Stanford University School of Medicine, California 94305-5439, USA.
Genetics. 2004 Jun;167(2):783-96. doi: 10.1534/genetics.103.024992.
Hedgehog (Hh) signaling is crucial for the development of many tissues, and altered Hh signal transduction can result in cancer. The Drosophila Costal1 (Cos1) and costal2 (cos2) genes have been implicated in Hh signaling. cos2 encodes a kinesin-related molecule, one component of a cytoplasmic complex of Hh signal transducers. Mutations in Cos1 enhance loss-of-function cos2 mutations, but the molecular nature of Cos1 has been unknown. We found that previously identified alleles of Cos1 actually map to two separate loci. Four alleles of Cos1 appear to be dominant-negative mutations of a catalytic subunit of protein kinase A (pka-C1) and the fifth allele, Cos1(A1), is a gain-of-function allele of the PKA regulatory subunit pka-RII. PKA-RII protein levels are higher in Cos1(A1) mutants than in wild type. Overexpression of wild-type pka-RII phenocopies Cos1 mutants. PKA activity is aberrant in Cos1(A1) mutants. PKA-RII is uniformly overproduced in the wing imaginal disc in Cos1(A1) mutants, but only certain cells respond by activating the transcription factor Ci and Hh target gene transcription. This work shows that overexpression of a wild-type regulatory subunit of PKA is sufficient to activate Hh target gene transcription.
刺猬信号通路(Hh)对于许多组织的发育至关重要,而Hh信号转导的改变会导致癌症。果蝇中的肋骨基因1(Cos1)和肋骨基因2(cos2)与Hh信号通路有关。cos2编码一种与驱动蛋白相关的分子,它是Hh信号转导细胞质复合物的一个组成部分。Cos1的突变会增强功能缺失型cos2突变的效果,但Cos1的分子本质一直未知。我们发现,先前鉴定出的Cos1等位基因实际上定位于两个不同的基因座。四个Cos1等位基因似乎是蛋白激酶A催化亚基(pka-C1)的显性负性突变,而第五个等位基因Cos1(A1)是PKA调节亚基pka-RII的功能获得性等位基因。在Cos1(A1)突变体中,PKA-RII蛋白水平高于野生型。野生型pka-RII的过表达模拟了Cos1突变体的表型。在Cos1(A1)突变体中,PKA活性异常。在Cos1(A1)突变体的翅成虫盘中,PKA-RII均匀过量产生,但只有某些细胞通过激活转录因子Ci和Hh靶基因转录做出反应。这项工作表明,PKA野生型调节亚基的过表达足以激活Hh靶基因转录。