Fig. 2.
Reserve intestinal stem cell (rISC) model vs. plasticity mechanism. Exposure to irradiation or chemotherapeutic agents eliminates actively proliferating cells, including crypt base columnar cells (CBCs) and transit-amplifying (TA) cells. In response to DNA damage, rISCs (Lgr5lo) enter the cell cycle to replenish active ISCs (Lgr5hi) and epithelial cells. In addition, some reports demonstrate that Lgr5lo cells above the crypt, potentially derived from the Lgr5hi CBCs, can resist DNA damage-induced cell death and contribute to regeneration. Furthermore, in genetic-induced ISCs, depletion settings in which ISCs, including both Lgr5hi and Lgr5lo subsets, are eliminated with diphtheria toxin (*), progenitors of either enterocyte or secretory lineages, and even transit-amplifying cells can reprogram to ISCs and support regeneration. This is termed the plasticity model. Lgr5, leucine-rich repeat-containing G protein-coupled receptor 5; LRC, label-retaining cell; Alpi-CreER, alkaline phosphatase, intestinal-Cre recombinase; Atoh1, protein atonal homolog 1; Dil1, dynein intermediate light chain 1.