Evidence of two types of balance between stem cell mitosis and enterocyte nucleus growth in the Drosophila midgut.

Systemic and stem cell niche-emanating cytokines and growth factors can promote regeneration, through mitosis. High mitosis, however, predisposes for all types of cancer and, thus, a trade-off exists between regeneration capacity and tissue homeostasis. Here, we study the role of tissue-intrinsic regenerative signaling in stem cell mitosis of adult Drosophila midgut of different genetic backgrounds. We provide evidence of two naturally occurring types of balance between mitosis and enterocyte nucleus growth: one based mostly on stem cell mitosis producing new cells and the other based mostly on the degree of young enterocyte nucleus size increase. Mitosis promotes intestinal host defense to infection, but predisposes for dysplasia in the form of stem cell-like clusters. Enterocyte nucleus growth also promotes host defense, without the drawback of promoting dysplasia. Through quantitative genetics, we identified eiger as an autocrine and paracrine inducer of stem cell mitosis. eiger expression in immature epithelial cells tilts the balance towards mitosis and dysplasia via a positive-feedback loop of highly mitotic stem cells sustaining more small nucleus enterocytes, which in turn supply more Eiger.