Abstract
To study the relationship between capacity and load in the small intestine, we simultaneously varied dietary nutrient load and intestinal capacity in mice. Intestinal transection alone caused an increase in intestinal mass, because of increased serosal mass. Because virgin mouse intestine possesses 180% reserve uptake capacity before resection and the intestine regenerates after resection, resection of up to 50% had no effect on food intake, digestive efficiency, intestinal brush-border glucose uptake rate, or mass of all organs measured except the cecum. Regeneration of intestinal mass and glucose uptake capacity was quantitatively complete, because intestinal mass 10 wk after resection was similar to that in unresected mice. Resected intestinal mass in lactating mice was four times larger than that immediately after resection in virgin mice. Cecal mass increased in 50%-resected lactating mice with high food intakes, suggesting nutrient spillage into the distal gut as a signal for regeneration. Mice failed to survive 70% resection of the intestine, possibly because intestinal reserve uptake capacity was exhausted immediately after surgery, making regeneration impossible.
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