Culturing explanted colon crypts highly improves viability of primary non-transformed human colon epithelial cells

► Different-coated cell culture dishes did not enhance attachment of colon cells. ► Intestinal stem cells could be detected in the primary colon cell culture. ► Colon crypts prolong the lifespan of human intestinal epithelial cells up to 24h. Chemoprotective effects of nutritional compounds are usually studied in cell lines. Studies using primary human colon cells have been limited due to the lack of established methods regarding their culture. We therefore optimized isolation and culture of non-transformed human epithelial cells from individual donors to enrich viable cells and sufficient amounts of intact RNA. Isolated epithelial cells were seeded in different coated cell culture dishes combined with several media (2–24h). To avoid cells from anoikis, also intact colon crypts were isolated to maintain cell interactions. These crypts were incubated with gut fermentation products (24h) derived from indigestible carbohydrates. In none of the coated (fibronectin, laminin) cell culture dishes isolated epithelial cells did attach. The number of these cells remaining in suspension, decreased already after 2h to 20%. Intact colon crypts cultured as pellets showed a stable viability up to 24h (91±4%) and were suitable to gain a sufficient quantity of RNA. The use of colon crypts with an appropriate cell culture medium could double the lifespan of intestinal epithelial cells from 12 up to 24h and represents a promising approach to study early events in carcinogenesis and chemoprevention as well as other diseases of the colon.