R. P. C. Rijke scite author profile

Epithelial cell kinetics were studied in an ileal segment after transposition to proximal jejunum. The number of cells per villus column in the transposed ileum increased after 4‐7 days to reach values normal for jejunum after 14‐30 days. This increase was accompanied by a simultaneous increase in the number of cells per crypt column up to 130% of values in jejunum and ileum in situ. The percentage of labelled crypt cells, after labelling with 3H‐thymidine, and the relative size of the proliferative cell compartment in the crypt in the transposed ileum did not differ from values in the ileum in situ at any time interval after surgery. The total proliferative activity per crypt, which was determined by scintillation counting of isolated crypts after 3H‐thymidine labelling, increased two‐fold from 7 days after surgery. Cell migration studies showed that the increase in the number of villus cells was probably not caused by a change in the life span of the epithelial cells. It seems that the increase in the number of villus cells in ileal epithelium after transposition to proximal jejunum is brought about by an enlargement of the crypt, while the relative size of the proliferative cell compartment in the crypt remains unchanged.

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The Effect of Continuous Irradiation on Cell Proliferation and Maturation in Small Intestinal Epithelium

Rijke

Plaisier

Hoogeveen

et al. 1975

Cell Proliferation

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Autoradiographic studies and scintillation counting of crypt material after pulse labelling with 3H‐thymidine showed that during continuous irradiation with 290 rads/day a reduced proliferative activity is present in the crypts of rat small intestine after 1 day of irradiation and of normal activity during the remaining period (5 days) irradiation. After cessation of irradiation an increase in proliferative activity can be observed after 1 day of recovery. From the time (36–48 hr after starting of the irradiation) that the number of villus cells is reduced an expansion of the proliferation zone in the crypt was observed. Both effects last until 1 day of recovery after cessation of irradiation. The process of crypt cell maturation and of villus cell function has also been studied during and after continuous irradiation by micro‐chemical enzyme analyses in isolated crypts and villi. It was found that the expansion of the proliferation zone in the crypt is accompanied by a decrease in activity of only those enzymes (i.e. non‐specific esterases) which normally become active during crypt cell maturation. The activity of enzymes normally present mainly in the functional villus cells remained relatively unaffected by changes in crypt cell kinetics. A hypothesis of different regulation mechanisms of the proliferative activity in the intestinal crypt and a possible explanation of the different behaviour of various enzyme activities as a result of changes in crypt cell proliferation is discussed.

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Epithelial cell kinetics in the descending colon of the rat

Rijke

Gart

Langendoen

1979

Virchows Archiv B Cell Pathol

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Epithelial cell kinetics in the descending colon of the rat

Rijke

Gart

1979

Virchows Archiv B Cell Pathol

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R. P. C. Rijke

The Effect of Ischemic Villus Cell Damage on Crypt Cell Proliferation in the Small Intestine

The Effect of Transposition to Jejunum on Epithelial Cell Kinetics in an Ileal Segment

The Effect of Continuous Irradiation on Cell Proliferation and Maturation in Small Intestinal Epithelium

Epithelial cell kinetics in the descending colon of the rat

Epithelial cell kinetics in the descending colon of the rat

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