Murano S, Thweatt R, Shmookler Reis R J, Jones R A, Moerman E J, Goldstein S
Departments of Medicine, University of Arkansas for Medical Sciences, Little Rock.
Mol Cell Biol. 1991 Aug;11(8):3905-14. doi: 10.1128/mcb.11.8.3905-3914.1991.
Genes that play a role in the senescent arrest of cellular replication are likely to be overexpressed in human diploid fibroblasts (HDF) derived from subjects with Werner syndrome (WS) because these cells have a severely curtailed replicative life span. To identify some of these genes, a cDNA library was constructed from WS HDF after they had been serum depleted and repleted (5 days in medium containing 1% serum followed by 24 h in medium containing 20% serum). Differential screening of 7,500 colonies revealed 102 clones that hybridized preferentially with [32P]cDNA derived from RNA of WS cells compared with [32P]cDNA derived from normal HDF. Cross-hybridization and partial DNA sequence determination identified 18 independent gene sequences, 9 of them known and 9 unknown. The known genes included alpha 1(I) procollagen, alpha 2(I) procollagen, fibronectin, ferritin heavy chain, insulinlike growth factor-binding protein-3 (IGFBP-3), osteonectin, human tissue plasminogen activator inhibitor type I, thrombospondin, and alpha B-crystallin. The nine unknown clones included two novel gene sequences and seven additional sequences that contained both novel segments and the Alu class of repetitive short interspersed nuclear elements; five of these seven Alu+ clones also contained the long interpersed nuclear element I (KpnI) family of repetitive elements. Northern (RNA) analysis, using the 18 sequences as probes, showed higher levels of these mRNAs in WS HDF than in normal HDF. Five selected mRNAs studied in greater detail [alpha 1(I) procollagen, fibronectin, insulinlike growth factor-binding protein-3, WS3-10, and WS9-14] showed higher mRNA levels in both WS and late-passage normal HDF than in early-passage normal HDF at various intervals following serum depletion/repletion and after subculture and growth from sparse to high-density confluent arrest. These results indicate that senescence of both WS and normal HDF is accompanied by overexpression of similar sets of diverse genes which may play a role in the senescent arrest of cellular replication and in the genesis of WS, normal biological aging, and attendant diseases.
在细胞复制的衰老停滞中发挥作用的基因,在源自沃纳综合征(WS)患者的人二倍体成纤维细胞(HDF)中可能会过度表达,因为这些细胞的复制寿命严重缩短。为了鉴定其中一些基因,在WS HDF细胞经历血清饥饿和再补充(在含1%血清的培养基中培养5天,然后在含20%血清的培养基中培养24小时)后构建了一个cDNA文库。对7500个菌落进行差异筛选,发现有102个克隆与源自WS细胞RNA的[32P]cDNA优先杂交,而与源自正常HDF的[32P]cDNA相比。通过交叉杂交和部分DNA序列测定,鉴定出18个独立的基因序列,其中9个是已知的,9个是未知的。已知基因包括α1(I)前胶原、α2(I)前胶原、纤连蛋白、铁蛋白重链、胰岛素样生长因子结合蛋白-3(IGFBP-3)、骨连接蛋白、人组织纤溶酶原激活物抑制剂I型、血小板反应蛋白和αB-晶状体蛋白。9个未知克隆包括两个新的基因序列和另外7个序列,这些序列既包含新的片段,又包含Alu类的重复性短散在核元件;这7个Alu+克隆中有5个还包含长散在核元件I(KpnI)家族的重复元件。使用这18个序列作为探针进行Northern(RNA)分析表明,这些mRNA在WS HDF中的水平高于正常HDF。对5个经过更详细研究的mRNA[α1(I)前胶原、纤连蛋白、胰岛素样生长因子结合蛋白-3、WS3-10和WS9-14]进行分析,发现在血清饥饿/再补充后的不同时间段以及传代培养并从稀疏生长至高密度汇合停滞之后,它们在WS和晚期传代的正常HDF中的mRNA水平均高于早期传代的正常HDF。这些结果表明,WS和正常HDF的衰老都伴随着相似的多种基因的过度表达,这些基因可能在细胞复制的衰老停滞以及WS、正常生物衰老和相关疾病的发生中发挥作用。
