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Clinical Cancer Research, Vol 2, Issue 3 447-456, Copyright © 1996 by American Association for Cancer Research
ARTICLES |
S Seiter, D Schadendorf, K Herrmann, M Schneider, M Rosel, R Arch, W Tilgen and M Zoller
Department of Dermatology, University Hospital, Hospitalstrasse 3, 69120 Heidelberg, Germany.
In a variety of human tumors, expression of splice variants of the adhesion molecule CD44 (CD44v) has been described as correlating with tumor progression. Here, we report on the expression of CD44v in melanocytes, nevi, primary melanomas, and cutaneous and lymph node metastases. Thirteen nevi, 65 primary melanomas of varying thickness, 39 cutaneous and 15 lymph node metastases, and melanocytes and a panel of melanoma lines were tested for surface expression of the standard form of CD44 and the variant exons v5, v6, v7, v7-v8, and v10 by immunohistology or fluorescence-activated cell sorting. Melanocytes did not express any variant isoform of CD44. However, nevi, as well as primary melanoma and melanoma metastases, stained to a varying degree with anti-CD44v5, anti-CD44v7-v8, and anti-CD44v10. Exons v6 and v7 were not detected on any of these tissue specimens. Compared with nevi, expression of exon v10 was up-regulated in thick primary tumors and skin metastases. Lymph node metastases displayed elevated levels of exon v5. Expression of CD44v in melanoma lines (n = 20) differed, inasmuch as many lines did not express variant isoforms; in particular, exon v10. Interestingly, however, the few CD44v5-positive melanoma lines metastasized in the nu/nu mouse. Because benign as well as malignant growth of melanocytes was accompanied by expression of CD44 variant isoforms, a linkage between expression of CD44 variant isoforms and malignant transformation or tumor progression was excluded. Considering the function of distinct isoforms, one might speculate that expression of exon CD44v5, which was up-regulated in lymph node metastases compared with nevi and primary melanoma, provided a growth stimulus. Exon v10 is present at high density in epidermal cells. The de novo expression of this exon in nevi and the increased expression in thick melanoma and skin metastases would be in line with the assumption of an anchoring advantage in the surrounding epidermal tissue.
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