首页 | 本学科首页   官方微博 | 高级检索  
     


The turnover of basal lamina glycosaminoglycan correlates with epithelial morphogenesis
Authors:Merton Bernfield  Shib D. Banerjee
Abstract:The mouse embryonic submandibular epithelium begins as a single bud from the floor of the mouth which, under the influence of its surrounding mesenchyme, grows and forms lobules that subsequently branch repetitively. The lobular morphology of the 13-day epithelium is maintained by its basal lamina which is a continuous layer on the interlobular clefts but is interrupted on the distal aspects of the lobules. The structural integrity of this lamina is dependent upon its glycosaminoglycan (GAG) which, by histochemistry, is more abundant on the interlobular clefts than on the distal lobules. We have investigated the basis for these regional differences in the lamina by examining the synthesis and degradation of total GAG as well as the accumulation and loss of laminar GAG during the morphogenesis of the 13-day gland. Autoradiography and histochemistry show that laminar GAG is rapidly turning over. Although it is relatively stable in the interlobular clefts, GAG is rapidly degraded on the distal lobules. This difference can account for the regional variation in basal laminar GAG accumulation. The results of incorporation kinetics and precursor pool specific activities of total epithelial GAG show that the rate of GAG synthesis is greater than its rate of degradation in the base of the lobules, which includes the interlobular clefts. In contrast, during morphogenesis, the rate of GAG degradation becomes greater than its rate of replacement in the distal lobules. The epithelial stalk appears to be in the steady state regarding GAG metabolism. We propose (a) that the rapid laminar GAG degradation on the distal lobules produces the interruptions in the lamina, allowing epithelial growth and expansion, and (b) that the metabolic stability of laminar GAG on the interlobular clefts maintains the integrity of this lamina which serves as a cellular constraint. The results are consistent with a model for epithelial morphogenesis in which the mesenchyme remodels the lamina, which in turn, dictates epithelial morphology. Regulation of basal lamina turnover may be a general mechanism for controlling the behavior of epithelial cell populations.
Keywords:
本文献已被 ScienceDirect 等数据库收录!
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号