The segregation of DNA in epithelial stem cells

Abstract

It has recently been suggested that stem cells may invariably keep, from one division to the next, the daughter DNA molecules that contain the older of the two parental strands-that is, they may retain a complete set of "immortal strands," through successive cell divisions (Cairns, 1975). We can test this hypothesis by labeling either the old immortal strands at the time the stem cells are created or the newly synthesized strands during subsequent divisions of the stem cells. In the former case, the stem cells should become permanently labeled; in the latter case, they should eliminate their label on their second division. Experiments of this sort have been conducted with the tongue papilla under steady state conditions and with the regenerating small intestinal crypts. The results clearly show that by far most of the multiplying cells in tongue and intestinal epithelium segregate their DNA "randomly" at mitosis. Nevertheless, the results, though far from conclusive, suggest that there are a small number of cells (1-5 in the stem cell region of each crypt and one at the base of each column of cells in the tongue) that selectively segregate their old and new DNA strands in the expected way. Thus in the immortal strand labeling experiments, there are a few labeled cells that retain their label for up to 4 weeks; conversely, in the new strand labeling experiments, a few cells appear to rid themselves of label after intervals equivalent to approximately two cell cycles. © 1978.