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Long-term Culture of EBV-induced Human Lymphoblastoid Cell Lines Reveals Chromosomal Instability

Marianne Volleth, Martin Zenker, Ivana Joksić, Thomas Liehr

2020Journal of Histochemistry & Cytochemistry23 citationsDOIOpen Access PDF

Abstract

To preserve material for future genetic studies, human B-lymphocytes from whole blood samples are routinely transformed into lymphoblastoid cell lines (LCLs) by in vitro infection with Epstein-Barr virus. To determine the rate and frequency of chromosomal changes during long-term culture, we established 10 LCLs (from eight individuals). Before transformation, these cases showed a normal karyotype (three cases), a small supernumerary marker chromosome (three cases), or an aberrant karyotype (four cases). Chromosome analyses were performed at 8-week intervals over a period of at least 1 year, up to 3 years. Surprisingly, we demonstrate that chromosomal instability is the rule, rather than the exception, during long-term culture of LCLs. The most commonly observed acquired clonal aberration was trisomy 12, which emerged in all cell lines within 21 to 49 weeks after infection. Telomeric fusions indicating telomere shortening were found after ~21 weeks. After 1 year of cultivation, the proportion of cells with the original karyotype decreased to ≤10% in 7 of the 10 cell lines. To preserve cells with aberrant genomes, we conclude the cultivation time of LCLs must be restricted to the absolute minimum time required.

Topics & Concepts

KaryotypeBiologyChromosome instabilityGenome instabilityCell cultureTelomereChromosomeTrisomySupernumeraryMarker chromosomeGeneticsAneuploidyChromosomal rearrangementMolecular biologyVirologyDNAGeneDNA damageAnatomyViral-associated cancers and disordersCytomegalovirus and herpesvirus researchPolyomavirus and related diseases
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