Cell cycle stress in normal human cells: A route to "first cells" (with/without fitness gain) and cancer-like cell-shape changes

Abstract

We have presented an in vitro trackable model system, atavistic induced from conservation in our genome, which strongly is applicable to tumorigenesis start and evolution. The inducing factor was death signals to proliferating normal human cells (primary cell strains), which respon-ded by a special type of tetraploidization, chromosomes with 4-chromatids (diplochromosomes, earlier described in cancer cells). The response included cell cycle stress, which prolonged S-period with result of mitotic slippage process, forming the special 4n cells by re-replication of diploid cells, which showed cell division capability to unexpected, genome reduced diploid cells which remarkably, showed fitness gain. This unique response through cell cycle stress and mitotic slippage process was further discovered to be linked to a rather special characteristic of the, 4n nucleus. The nucleus turned, self-inflicted, 90° perpendicular to the cell's cytoskeleton axis, importantly, before the special 4n-division system produced genome reduce diploid cells, we call "first cells", because of fitness gain. These 2n cells also showed the nuclear dependent 90° turn, which in both cases was associated with cells gaining cell shape changes, herein illustrated from normal fibroblastic cells changing to roundness cells, indistinguishable from todays' diagnostic cancer cell morphology. This 3-D ball-like cell shape, in metastasis, sque-ezing in and out between (?) endothelial cells in the lining of blood veins during disbursement, would be advantageous.

Keywords: 90(o) cytoskeleton turn; Amitosis; EMT&MET; Spindle apparatus; Tetraploid diplochromosomes.