Altevogt P, Fogel M, Cheingsong-Popov R, Dennis J, Robinson P, Schirrmacher V
Cancer Res. 1983 Nov;43(11):5138-44.
We have analyzed cell surface-bound carbohydrates in two different model systems for metastasis composed of closely related tumor cell lines with differing metastatic potential. The first system studied was that of the DBA/2-derived T-lymphoma lines (Eb/ESb) and some recently established sublines of ESb with altered metastatic behavior (ESb-M and ESb-MR). The second system consisted of the highly metastatic MDAY-D2 cells, a wheat germ agglutinin-resistant low metastatic subline MDW40, and two metastatic revertants from the latter. The cells were stained with fluorescein isothiocyanate-conjugated lectins and analyzed by flow cytofluorography. All low-metastatic tumor lines expressed receptor sites for the lectins soybean agglutinin (SBA) and Vicia villosa (VV). The metastatic lines had the respective lectin binding sites blocked by sialic acid (SA). A good correlation was found within the cell lineages Eb leads to ESb leads to ESb-M leads to ESb-MR and MDAY-D2 leads to MDW40 leads to MDW40M1 between reactivity of SBA and VV and metastatic potential. The amount of neuraminidase-accessible SA was similar for all cell types (except MDW40) indicating differences in the positioning of SA. For high-metastatic ESb cells, the sialylation of SBA and VV receptor sites was paralleled by a relative decrease of SA associated with receptor sites for peanut agglutinin. Low-metastatic Eb cells, in contrast, had their peanut agglutinin receptor sites sialylated but expressed asialylated SBA and VV receptor sites. Eb cells were also found to have 2-fold higher activities in galactose-specific sialyltransferases. It is proposed that the differences in positioning of SA on the cell surface leading to masking or unmasking of terminal sugars could influence the metastatic potential of tumor cells.
我们在由具有不同转移潜能的密切相关肿瘤细胞系组成的两种不同转移模型系统中分析了细胞表面结合的碳水化合物。所研究的第一个系统是源自DBA/2的T淋巴瘤细胞系(Eb/ESb)以及一些最近建立的具有改变的转移行为的ESb亚系(ESb-M和ESb-MR)。第二个系统由高转移性的MDAY-D2细胞、一种抗小麦胚凝集素的低转移性亚系MDW40以及来自后者的两个转移回复株组成。细胞用异硫氰酸荧光素偶联的凝集素染色,并通过流式细胞荧光术进行分析。所有低转移性肿瘤细胞系均表达凝集素大豆凝集素(SBA)和野豌豆凝集素(VV)的受体位点。转移性细胞系具有被唾液酸(SA)阻断的相应凝集素结合位点。在细胞谱系Eb→ESb→ESb-M→ESb-MR和MDAY-D2→MDW40→MDW40M1中,发现SBA和VV的反应性与转移潜能之间具有良好的相关性。所有细胞类型(除MDW40外)中神经氨酸酶可及的SA量相似,表明SA的定位存在差异。对于高转移性的ESb细胞,SBA和VV受体位点的唾液酸化与与花生凝集素受体位点相关的SA相对减少平行。相比之下,低转移性的Eb细胞其花生凝集素受体位点被唾液酸化,但表达去唾液酸化的SBA和VV受体位点。还发现Eb细胞在半乳糖特异性唾液酸转移酶中的活性高2倍。有人提出,细胞表面SA定位的差异导致末端糖的掩盖或暴露可能影响肿瘤细胞的转移潜能。
