John Totafurno scite author profile

We propose a model for the growth of individual crypts that is able to account for the observed changes in the number of cells in crypts under normal conditions, after irradiation, and after 30% resection. Parameter values for this model are estimated both for mouse and man, and detailed predictions of crypt growth rates are made. This model does not predict a steady-state crypt size; rather it suggests that crypts grow until they bifurcate. We therefore propose a crypt cycle (analogous to the cell cycle) and present evidence that most if not all crypts in the adult mouse are cycling asynchronously and independently. This evidence consists of four experiments that indicate that branching crypts are randomly distributed over the intestinal epithelium, that the plane of bifurcation of branching crypts is randomly oriented with respect to the villus base, and that the size distribution of crypts is consistent with an expanding crypt population. We also report for the first time evidence of villus production in the adult mouse intestinal epithelium. We conclude that the crypt and villus populations in the adult mouse are not in a steady state.

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A non-linear vector field model of supernumerary limb production in salamanders

Totafurno

Trainor²

1987

Journal of Theoretical Biology

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Variation in crypt size and its influence on the analysis of epithelial cell proliferation in the intestinal crypt

Totafurno

Bjerknes

Cheng

1988

Biophysical Journal

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The standard model of epithelial cell renewal in the intestine proposes a gradual transition between the region of the crypt containing actively proliferating cells and that containing solely terminally differentiating cells (Cairnie, Lamerton and Steel, 1965 a, b). The experimental justification for this conclusion was the gradual decrease towards the crypt top of the measured labeling and mitotic indices. Recently, however, we have proposed that intestinal crypts normally undergo a replicative cycle so that at any time in any region of the intestine, crypts will be found to have a wide range of sizes. We show here that if this intrinsic size variation is taken into account, then a sharp transition between the proliferative and nonproliferative compartments of individual intestinal crypts is consistent with the labeling and mitotic index distributions of mouse and rat jejunal crypts. Thus there is no need to invoke the region of gradual transition from proliferating to nonproliferating cells as is done in the standard model. The position of this sharp transition is estimated for both the mouse and rat. Experiments to further test our model are suggested and the significance of the results discussed.

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Comparison of mesenteric with antimesenteric crypt and villus populations in the mouse jejunal epithelium

1990

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Variation in the size and composition of crypts and villi along the length of the intestinal tract is well known. Here we investigate possible variation around the circumference of the intestine. This is a concern because most studies have ignored potential circumferential variation and its implications for experimental design in cell kinetic studies. We compared the crypt and villus populations of the mesenteric half with those of the antimesenteric half of proximal mouse jejunum. The branching crypt index and crypt and villus dimensions were measured. We found no evidence of differences in the branching crypt index, in the mean crypt and villus size, nor in the distribution of crypt and villus sizes between these two populations.

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Structure and function in biological hierarchies: An Ising model approach

Totafurno

Lumsden

Trainor

1980

Journal of Theoretical Biology

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John Totafurno

The crypt cycle. Crypt and villus production in the adult intestinal epithelium

A non-linear vector field model of supernumerary limb production in salamanders

Variation in crypt size and its influence on the analysis of epithelial cell proliferation in the intestinal crypt

Comparison of mesenteric with antimesenteric crypt and villus populations in the mouse jejunal epithelium

Structure and function in biological hierarchies: An Ising model approach

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