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Vol. 12, Issue 7, 1983-1993, July 2001
Laboratory of Skin Biology, National Institute of
Arthritis, Musculoskeletal and Skin Diseases, National Institutes of
Health, Bethesda, Maryland 20892-2752
The association of the cytoskeleton with the cadherin-catenin
complex is essential for strong cell-cell adhesion in epithelial cells.
In this study, we have investigated the effect of microtubule organization on cell-cell adhesion in differentiating keratinocytes. When microtubules of normal human epidermal keratinocytes (NHEKs) grown
in low calcium media (0.05 mM) were disrupted with nocodazole or
colcemid, cell-cell adhesion was induced through relocalization of the
E-cadherin-catenin-actin complex to the cell periphery. This was
accompanied by actin polymerization. Also, it was found that
microtubule disruption-induced cell-cell adhesion was significantly reduced in more advanced differentiated keratinocytes. For example, when NHEK cells cultured under high calcium (1.2 mM) for 8 d and then in low calcium for 1 d were treated with nocodazole, there was no induction of cell-cell adhesion. Also long-term treatment of a
phorbol ester for 48 h inhibited nocodazole-induced cell-cell adhesion of NHEK. Furthermore, this nocodazole-induced cell-cell adhesion could be observed in squamous cancer cell lines (A431 and
SCC-5, -9, and -25) under low calcium condition, but not in the
keratinocyte cell lines derived from normal epidermis (HaCaT, RHEK). On the other hand, HaCaT cells continuously cultivated in
low calcium media regained a less differentiated phenotype such as
decreased expression of cytokeratin 10, and increased K5; these changes
were accompanied with inducibility of cell-cell adhesion by nocodazole.
Together, our results suggest that microtubule disruption can induce
the cell-cell adhesion via activation of endogenous E-cadherin in non-
or early differentiating keratinocytes. However, this is no longer
possible in advanced terminally differentiating keratinocytes, possibly
due to irreversible changes effected by cell envelope barrier formation.
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