Rodrigues S H, Silva N P, Delício L R, Granato C, Andrade L E
Rheumatology Division, Escola Paulista de Medicina-EPM, Universidade Federal de São Paulo--UNIFESP, Brazil.
Mol Biol Rep. 1996;23(3-4):183-9. doi: 10.1007/BF00351167.
The coiled body is a phylogenetically conserved nuclear organelle whose function is not known. Probes for detection of p80-coilin, an 80 kDa protein enriched in the coiled body, have made possible studies determining the behavior of the coiled body during the cell cycle, in proliferating cells, as well as reports suggesting some relationship of the coiled body to mRNA splicing and to the nucleolus. The objective of this study is to examine the distribution of p80-coilin and nucleolar proteins in cells infected with adenovirus in vitro. HeLa cells grown as monolayers were infected with successive dilutions of type 5 human adenovirus culture and fixed in methanol/acetone at different time points. Single and double indirect immunofluorescence was performed with human autoantibodies to p80-coilin, fibrillarin, NOR-90/hUBF, RNA polymerase I, PM-Scl, and To, as well as rabbit polyclonal serum to p80-coilin (R288) and mouse monoclonal antibody to adenovirus 72-kDa DNA-binding protein. Indirect immunofluorescence (IIF) with anti-p80-coilin antibodies showed that the usual bright dot-like coiled body staining pattern was replaced in infected cells by 1-5 clusters of tiny dots at the periphery of the nucleus. This phenomenon was first detected within 12 h of infection and affected more severely cells with increased length and load of infection. Cells subjected to heat shock presented no such alteration. Double IIF showed cells with abnormal coiled body appearance expressed the viral 72-kDa DNA-binding protein. Nucleolar proteins RNA polymerase I and NOR-90/hUBF became associated with the p80-coilin-enriched clusters and were no longer detected in the nucleolus. Other nucleolar proteins, like PM-Scl and To, remained associated to the nucleolus and were not detected in the newly formed clusters. Fibrillarin had a heterogeneous behavior, being restricted to the nucleolus in some infected cells while in some others it was associated with the p80-coilin-enriched clusters. Thus our results showed that in vitro adenovirus infection induced radical redistribution of nucleolar and coiled body constituents into newly formed structures characterized by clusters of tiny dots in the periphery of the nucleus. The fact that three major proteins involved in rRNA synthesis and processing colocalized with p80-coilin in these clusters may bring additional support to the idea that the coiled body and p80-coilin may be implicated in functions related to the nucleolus.
卷曲小体是一种在系统发育上保守的核细胞器,其功能尚不清楚。用于检测p80-卷曲螺旋蛋白(一种在卷曲小体中富集的80 kDa蛋白质)的探针,使得研究卷曲小体在细胞周期、增殖细胞中的行为成为可能,也有报道表明卷曲小体与mRNA剪接以及核仁存在某种关系。本研究的目的是检测体外感染腺病毒的细胞中p80-卷曲螺旋蛋白和核仁蛋白的分布。将单层生长的HeLa细胞用5型人腺病毒培养物的连续稀释液感染,并在不同时间点用甲醇/丙酮固定。使用针对p80-卷曲螺旋蛋白、纤维原蛋白、NOR-90/hUBF、RNA聚合酶I、PM-Scl和To的人自身抗体,以及针对p80-卷曲螺旋蛋白的兔多克隆血清(R288)和针对腺病毒72 kDa DNA结合蛋白的小鼠单克隆抗体进行单重和双重间接免疫荧光检测。用抗p80-卷曲螺旋蛋白抗体进行间接免疫荧光(IIF)检测显示,在感染细胞中,通常明亮的点状卷曲小体染色模式被细胞核周边1 - 5簇微小的点所取代。这种现象在感染后12小时内首次检测到,且感染时间延长和感染量增加的细胞受影响更严重。经热休克处理的细胞未出现这种改变。双重IIF显示,卷曲小体外观异常的细胞表达病毒72 kDa DNA结合蛋白。核仁蛋白RNA聚合酶I和NOR-90/hUBF与富含p80-卷曲螺旋蛋白的簇相关联,在核仁中不再检测到。其他核仁蛋白,如PM-Scl和To,仍与核仁相关联,在新形成的簇中未检测到。纤维原蛋白表现出异质性,在一些感染细胞中局限于核仁,而在另一些细胞中则与富含p80-卷曲螺旋蛋白的簇相关联。因此,我们的结果表明,体外腺病毒感染导致核仁和卷曲小体成分发生根本性重新分布,形成细胞核周边以微小点簇为特征的新结构。参与rRNA合成和加工的三种主要蛋白质在这些簇中与p80-卷曲螺旋蛋白共定位,这一事实可能为卷曲小体和p80-卷曲螺旋蛋白可能参与与核仁相关的功能这一观点提供额外支持。
