EXAMINATION OF THE GERM CELL CHIMERA FORMING POTENTIAL OF MOUSE EMBRYONIC STEM CELLS

• Main Authors: CÂRSTEA V. B, DOBÓ KRISZTINA, LICHNER ZSUZSANNA, STANCA CLAUDIA, ILIE DANIELA, GÓCZA ELEN
• Format: Article
• Language: English
• Published: Agroprint Timisoara 2007-01-01
• Series: Scientific Papers Animal Science and Biotechnologies
• Subjects: Es cells; chimera; FISH; karyotype
• Online Access: http://usab-tm.ro/fileadmin/fzb/volum%202007/volumul%201/biotehnologii/Carstea_bogdan_lucrare_TM.pdf

The aim of this study was to examine the factors, which influence the chimeraforming potential of mouse embryonic stem cells (ES cells). In our work, we examinethe chimera producing ability of R1 and R1/E mouse ES cell lines. We found that thepassage number affects chimera-forming capability of the ES cells. With theincreasing of the passage number, it could be getting less chimera animal, and onlythe R1/E ES cell line derived cells could contribute to the germ cells. At first, wecompared the marker of pluripotency using immunostaining and RT PCR, but wecould not find any difference between the R1 and R1/E cell in this way. Atchromosome analysis, we found, that the number of aneuploid cells, in R1 ES cellline, dramatically increased after 10 passages. We thought that the reason is thatduring the cell division Y chromosome could not arrange correctly between the twonewly derived progeny cells. To prove our conception, we made X and YchromosomeFISH analyses. We found, that the aneuploid R1 and R1/E ES cellscontain only one X and one Y chromosome, so not the loss of Y chromosome causethe problem at the germ cell formation. At last, we made the karyotypeanalysis of R1 and R1/E ES cells at different passages. The karyotype analysisdemonstrated that in the case of R1 ES cell line, the 41 and 42-chromosomecontaining cells hold trisomy. With the increasing of the passages number, thenumber of trisomy containing aneuploid cells increased. The aneuploid ES cells cancontribute to the different tissuses of chimera animals, but cannot form viable germcells.