-
- Philippa Claude
- From the Department of Neurobiology and the Department of Anatomy, Harvard Medical School, Boston, Massachusetts 02115
-
- Daniel A. Goodenough
- From the Department of Neurobiology and the Department of Anatomy, Harvard Medical School, Boston, Massachusetts 02115
抄録
<jats:p>Epithelia vary with respect to transepithelial permeability. In those that are considered "leaky", a large fraction of the passive transepithelial flux appears to follow the paracellular route, passing across the zonulae occludentes and moving down the intercellular clefts. In "tight" epithelia, the resistance of the paracellular pathway to passive flux is greatly increased. To see whether differences in the morphology of the zonula occludens could contribute to this variability in leakiness among epithelia, replicas of zonulae occludentes in freeze-fractured material from a variety of tight and leaky epithelia were examined. The junctions appear as a branching and anastomosing network of strands or grooves on the A and B membrane fracture faces, respectively. It was found that the zonula occludens from a "very leaky" epithelium, the proximal convoluted tubule of the mouse kidney, is extremely shallow in the apical-basal direction, consisting in most places of only one junctional strand. In contrast, the "very tight" frog urinary bladder exhibits a zonula occludens that is relatively deep (>0.5 µm) in the apical-basal direction, and consists of five or more interconnected junctional strands interposed between luminal and lateral membrane surfaces. Epithelia of intermediate permeabilities exhibited junctions with intermediate or variable morphology. Toad urinary bladder, mouse stomach, jejunum, and distal tubule, rabbit gallbladder, and Necturus kidney and gallbladder were also examined, and the morphological data from these epithelia were compared to physiological data from the literature.</jats:p>
収録刊行物
-
- The Journal of Cell Biology
-
The Journal of Cell Biology 58 (2), 390-400, 1973-08-01
Rockefeller University Press
- Tweet
キーワード
詳細情報 詳細情報について
-
- CRID
- 1361699994702328960
-
- NII論文ID
- 30017401935
-
- ISSN
- 15408140
- 00219525
- http://id.crossref.org/issn/00219525
-
- データソース種別
-
- Crossref
- CiNii Articles