Summary
The intestinal absorptive epithelium of starved and fed fish has been studied electron microscopically. After feeding, cells of the proximal segment of the intestine show morphological characteristics of lipid absorption. Absorptive cells in the middle segment contain many pinocytotic vesicles in both fasted and fed specimens. Absorption of protein macromolecules is supposed to be one of the main functions of this part of the gut. In the most caudal part of the intestine, absorptive cells carry relatively few and short microvilli. The proximal and distal segments show structural indications of a function in osmoregulation.
The renewal of the epithelium has been studied with light microscopic autoradiography, using tritiated thymidine. The intestinal mucosal fold epithelium represents a cell renewal system. The cells proliferate at the base of the fold and migrate towards the apex in 10–15 days at 20° C. The functional absorptive cells proved to be generally present in the intestinal epithelium, including the proliferative area. Undifferentiated cells have not been identified.
The results will be compared with data on absorption of lipid and protein macromolecules in teleostean and mammalian intestines and with descriptions of the cell renewal system in the mammalian intestine.
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The authors wish to thank Prof. Dr. J.W.M. Osse and Dr. Lucy P.M. Timmermans for their stimulating interest, Mr. H.G. Eleri (T.F.D.L.) for his technical assistance in electron microscopy, and Mr. W.J.A. Valen for making the drawings and light microscopic photographs
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Stroband, H.W.J., Debets, F.M.H. The ultrastructure and renewal of the intestinal epithelium of the juvenile grasscarp, Ctenopharyngodon idella (Val.). Cell Tissue Res. 187, 181–200 (1978). https://doi.org/10.1007/BF00224364
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DOI: https://doi.org/10.1007/BF00224364