Human cells in suspension 2

Summary When PHA stimulated human lymphoid cells are allowed to proliferate in vitro and chromosomal slides are prepared from the culture after 48,72, 96,120, and 144h of growth, gradual changes in chromosome morphology can be observed after traditional Giemsa staining of the slides. Keeping culture conditions, colcemid exposure, and fixation procedure constant for all samples, it is found that average chromosome length decreases with increasing culture time. A shift from high frequencies of subbanded chromosomes (sample 48 h and sample 72 h) to high frequencies of unbanded and G banded chromosomes (sample 120 h and sample 144 h) takes place simultaneously with the general compaction of the chromosomes. Examination of trypsin-induced G bands as well as examination of untreated G banded chromosomes from all samples clearly indicate that the basic G band pattern is not altered during proliferation and differentiation, although the progressive compaction of the chromosome observed with increasing culture time results in a phenomenon similar to that observed during mitosis, where the compact late metaphase chromosome after trypsin treatment exhibits fewer but more prominent bands than the prophase/prometaphase chromosomes. Thus the progressive compaction of metaphase chromosomes observed during in vitro aging seems to resemble the condensation processes during the G₂ phase and mitosis.It has been suggested that the chromomeres serve as centers for chromosome condensation during mitosis, probably mediated by a sulphydryl-disulphide transition in chromosomal proteins. The data presented here further suggest that the chromomeres may also serve as centers for chromosomal differentiation, presumable by a mechanism similar to that acting during chromosome condensation in mitosis.