PANETH AND GOBLET CELL RENEWAL IN MOUSE DUODENAL CRYPTS

doi:10.1083/jcb.41.1.251

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ARTICLE

PANETH AND GOBLET CELL RENEWAL IN MOUSE DUODENAL CRYPTS

W. David Troughton ¹ and Jerry S. Trier ¹

¹ From the Departments of Medicine and Anatomy, University of New Mexico School of Medicine, Albuquerque, New Mexico 87106.

Dr. Trier's present address is Department of Medicine, Boston University School of Medicine, Boston, Massachusetts 02118

Proliferation of Paneth and goblet cells of mouse duodenalcrypts was studied by high resolution light microscope radioautography.In one group of mice, blood levels of thymidine-³H were sustainedfor up to 12 hr by repeated injections of isotope to facilitateidentification of proliferating cells. In these animals, manygoblet cell nuclei incorporated thymidine-³H whereas only 1of 6261 tabulated Paneth cells was labeled. Cells intermediatein structure between undifferentiated and goblet cells and betweenundifferentiated and Paneth cells were identified and theirlight and electron microscopic features are described. A significantnumber of these "intermediate" cells incorporated thymidine-³Hinto their nuclei. Another group of mice received a single injectionof thymidine-³H. These animals were killed 4 hr to 29 days afterisotope administration. Goblet cells and intermediate cellswith labeled nuclei were identified 4 hr after thymidine-³Hbut could not be seen after 15 days. In contrast, Paneth cellswith labeled nuclei were not observed until 24 hr after thymidine-³Hbut were still present at 29 days, long after labeled undifferentiated,goblet, and intermediate cells had disappeared. We concludethat differentiated Paneth cells in mouse duodenum do not normallyproliferate, but, instead, arise by differentiation from undifferentiatedcrypt cells or from intermediate cells. Moreover, once formed,Paneth cells persist in crypts for a prolonged period. In contrast,intermediate cells and crypt goblet cells proliferate activelyand are less stable cell populations than differentiated Panethcells. The precise function of the intermediate cells is notknown, but they may represent transition forms between undifferentiatedcells and the more matrure secretory cells. Damage of cryptepithelial cells, thought to be due to radiation effects, wasevident in both groups of mice.

Submitted on September 12, 1968
Revised on December 2, 1968

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