Diverse gene sequences are overexpressed in werner syndrome fibroblasts undergoing premature replicative senescence.

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Mol Cell Biol. 1991 August; 11(8): 3905-3914

Diverse gene sequences are overexpressed in werner syndrome fibroblasts undergoing premature replicative senescence.

S Murano, R Thweatt, R J Shmookler Reis, R A Jones, E J Moerman and S Goldstein

Departments of Medicine, University of Arkansas for Medical Sciences, Little Rock.

ABSTRACT

Genes that play a role in the senescent arrest of cellular replicationare likely to be overexpressed in human diploid fibroblasts(HDF) derived from subjects with Werner syndrome (WS) becausethese cells have a severely curtailed replicative life span.To identify some of these genes, a cDNA library was constructedfrom WS HDF after they had been serum depleted and repleted(5 days in medium containing 1% serum followed by 24 h in mediumcontaining 20% serum). Differential screening of 7,500 coloniesrevealed 102 clones that hybridized preferentially with [32P]cDNAderived from RNA of WS cells compared with [32P]cDNA derivedfrom normal HDF. Cross-hybridization and partial DNA sequencedetermination identified 18 independent gene sequences, 9 ofthem known and 9 unknown. The known genes included alpha 1(I)procollagen, alpha 2(I) procollagen, fibronectin, ferritin heavychain, insulinlike growth factor-binding protein-3 (IGFBP-3),osteonectin, human tissue plasminogen activator inhibitor typeI, thrombospondin, and alpha B-crystallin. The nine unknownclones included two novel gene sequences and seven additionalsequences that contained both novel segments and the Alu classof repetitive short interspersed nuclear elements; five of theseseven Alu+ clones also contained the long interpersed nuclearelement I (KpnI) family of repetitive elements. Northern (RNA)analysis, using the 18 sequences as probes, showed higher levelsof these mRNAs in WS HDF than in normal HDF. Five selected mRNAsstudied 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 normalHDF than in early-passage normal HDF at various intervals followingserum depletion/repletion and after subculture and growth fromsparse to high-density confluent arrest. These results indicatethat senescence of both WS and normal HDF is accompanied byoverexpression of similar sets of diverse genes which may playa role in the senescent arrest of cellular replication and inthe genesis of WS, normal biological aging, and attendant diseases.

Mol Cell Biol. 1991 August; 11(8): 3905-3914

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