Mosialos G, Gilmore T D
Department of Chemistry, Boston University, Massachusetts 02215.
Oncogene. 1993 Mar;8(3):721-30.
The avian retroviral oncoprotein v-Rel and its cellular homolog c-Rel are members of a family of related site-specific DNA-binding proteins. Towards the carboxy-terminal end of the highly conserved Rel homology (RH) domain in the majority of Rel proteins, there is a consensus recognition sequence for protein kinase A (PK-A). We have investigated the importance of this sequence (Arg-Arg-Pro-Ser) for several functional properties of v-Rel and c-Rel. Disruption of the PK-A sequence by a two amino acid insertion between the arginine and the proline residues completely abolished the ability of v-Rel and c-Rel to bind a kappa B site in vitro. When the phosphorylatable serine in this sequence (Ser-275 in v-Rel, Ser-266 in c-Rel) was replaced by an alanine, DNA binding by v-Rel was not affected, whereas the ability of c-Rel to bind DNA was reduced approximately fourfold by this mutation. Similarly, a serine to tryptophan change greatly reduced the DNA-binding ability of c-Rel, whereas v-Rel was not appreciably affected by this change. When this serine was replaced by an acidic amino acid, DNA binding by v-Rel was reduced approximately twofold and the DNA-binding activity of c-Rel was nearly abolished. Glutaraldehyde cross-linking experiments indicated that mutations at the PK-A recognition site that reduced DNA binding also negatively affected protein oligomerization, which is likely to be responsible for the reduced ability of mutant v-Rel and c-Rel proteins to bind DNA. Domain-swapping experiments showed that structural differences between v-Rel and c-Rel in the central region of the proteins are primarily responsible for the higher sensitivity of c-Rel to a serine to alanine mutation in the PK-A site. One difference between v-Rel and c-Rel, a glutamine to alanine change in v-Rel located three amino acids carboxy-terminal to the PK-A phosphorylatable serine (Ala-278 in v-Rel; Glu-269 in c-Rel), is mainly responsible for the lack of an effect on DNA binding by v-Rel when Ser-275 is replaced by alanine. That is, a v-Rel double mutant (v-275A/278E) showed reduced DNA-binding and transforming abilities as compared with v-Rel and v-275A. Similarly, the mutations in c-Rel that affected DNA binding showed a corresponding effect on the ability of c-Rel proteins to activate transcription in yeast from a reporter gene containing upstream Rel binding sites.(ABSTRACT TRUNCATED AT 400 WORDS)
禽逆转录病毒癌蛋白v-Rel及其细胞同源物c-Rel是相关的位点特异性DNA结合蛋白家族的成员。在大多数Rel蛋白高度保守的Rel同源(RH)结构域的羧基末端,存在蛋白激酶A(PK-A)的共有识别序列。我们研究了该序列(精氨酸-精氨酸-脯氨酸-丝氨酸)对v-Rel和c-Rel几种功能特性的重要性。在精氨酸和脯氨酸残基之间插入两个氨基酸破坏PK-A序列,完全消除了v-Rel和c-Rel在体外结合κB位点的能力。当该序列中可磷酸化的丝氨酸(v-Rel中的Ser-275,c-Rel中的Ser-266)被丙氨酸取代时,v-Rel的DNA结合不受影响,而c-Rel结合DNA的能力因该突变降低了约四倍。同样,丝氨酸到色氨酸的变化大大降低了c-Rel的DNA结合能力,而v-Rel受此变化的影响不明显。当该丝氨酸被酸性氨基酸取代时,v-Rel的DNA结合降低了约两倍,c-Rel的DNA结合活性几乎被消除。戊二醛交联实验表明,PK-A识别位点处降低DNA结合的突变也对蛋白质寡聚化产生负面影响,这可能是突变的v-Rel和c-Rel蛋白结合DNA能力降低的原因。结构域交换实验表明,v-Rel和c-Rel在蛋白质中心区域的结构差异主要是c-Rel对PK-A位点丝氨酸到丙氨酸突变更敏感的原因。v-Rel和c-Rel之间的一个差异,即v-Rel中位于PK-A可磷酸化丝氨酸羧基末端三个氨基酸处的谷氨酰胺到丙氨酸的变化(v-Rel中的Ala-278;c-Rel中的Glu-269),主要是Ser-275被丙氨酸取代时对v-Rel的DNA结合没有影响的原因。也就是说,与v-Rel和v-275A相比,v-Rel双突变体(v-275A/278E)的DNA结合和转化能力降低。同样,c-Rel中影响DNA结合的突变对c-Rel蛋白从含有上游Rel结合位点的报告基因在酵母中激活转录的能力有相应影响。(摘要截断于400字)
