ObjectiveTo establish whether the prevalence of positive reverse transcriptase-polymerase chain reaction (RT-PCR) results decreased during the first 3 months after colorectal cancer excision, and to assess whether persistence of RT-PCR positivity after primary colorectal cancer excision was related to tumor stage or locally advanced and metastatic disease. MethodsSystemic venous blood was collected from patients with colorectal cancer before and at intervals up to 12 weeks after surgery. RNA was extracted from the mononuclear cell fraction of the blood samples and subjected to RT-PCR using specific primers for carcinoembryonic antigen mRNA and cytokeratin-20 mRNA. Healthy individuals with no history of cancer were used as controls. ResultsThe results of RT-PCR were positive in 81 of 116 patients with colorectal cancer before surgery, with no significant differences in preoperative prevalence by Dukes stage or presence of locally advanced or metastatic disease. There was a significant decrease in the prevalence of RT-PCR positivity at 24 hours after surgery compared with before surgery. On subgroup analysis by Dukes stage, only the decrease in Dukes A and B patients reached significance. Seven of the 143 controls were RT-PCR positive.
Galectin-3 is a Mr 30,000 protein with carbohydrate-binding specificity for type I and II ABH blood group epitopes and polylactosamine glycans expressed on cell surface and extracellular matrix glycoproteins such as laminin. Cell lines propagated from human normal mammary epithelia and from benign or infiltrating components of primary breast tumours express low levels of galectin-3 in the cytoplasm. However, galectin-3 when added exogenously in solution or when bound within a three-dimensional matrix markedly enhanced the migration of the primary tumour cell lines through a Matrigel barrier. Galectin-3 expression in the cytoplasm and intercellularly on surface membranes was greatly increased in cell lines propagated from malignant ascites and pleural effusions of late stage breast cancer. These cell lines were non-invasive in the Matrigel assay and exogenous galectin-3 had no enhancing effect on invasiveness. These results suggest that galectin-3 could play multiple roles in cell metastasis at an early invasive stage by acting in a paracrine manner to stimulate cell migration through an extracellular matrix, and in later stage cancers in synergy with other mediators of cell-cell aggregation. However, endogenous galectin-3 expression in human breast cancers is not correlated directly with their invasive potential in vitro.
Alteration in cell surface carbohydrates, and in particular cell surface sialylation, have been known to occur during oncogenic transformation. To examine the basis for such changes, we have transformed the rat fibroblast cell line FR3T3 with the oncogenes c-Ha-ras EJ, v-mycOK10, v-src, polyoma virus middle T or the transforming bovine papilloma virus 1 (BPV1), and measured the sialytransferase activities of cellular lysates. We found that, in contrast to all other oncogenes examined, c-Ha-ras induced a striking increase in beta-galactoside alpha-2,6-sialytransferase (Gal alpha-2,6-ST) activity in FR3T3 cells. This increase in Gal alpha-2,6-ST activity resulted in the increased expression of cell surface alpha-2,6-linked sialic acid on cell surface glycoconjugates, as determined by cell staining with fluorescein-labelled Sambucus nigra agglutinin. Immunoprecipitation and immunofluorescence experiments revealed that the increase in Gal alpha-2,6-ST activity was due to an elevation of expression of the enzyme. Moreover, Northern analysis suggested that the increased expression of this enzyme was the result of an increase in the steady-state mRNA level of the Gal alpha-2,6-ST gene. These results support the notion that alterations seen in cell surface glycoconjugates during oncogenic transformation can be the result of altered expression of glycosyltransferases.
Through cloning experiments with the FRras EJ4 cell line, previously described to exhibit a Sambucus nigra agglutinin (SNA)+ phenotype, three clones with a SNA- phenotype were isolated. All the selected SNA+ and SNA- clones expressed the ras oncoprotein and cloned in soft agar with the same efficiency. We were interested in studying the adhesion and invasion properties of the FRras cells presenting a SNA + or - phenotype. They were first compared in their biochemical properties and we found that FRras SNA- were characterized by a low alpha-2,6-sialylation of their cell surface glycoproteins and a low beta-galactoside alpha-2,6 sialytransferase activity. Using in vitro invasion assays, FRras cells exhibiting a low alpha-2,6-sialylation on their surface were found to have a low invasive potential compared to their counterpart SNA+. FRras SNA-clones exhibit a different morphology from that of FRras SNA+ clones. Moreover, homotypic aggregation assays indicated that FRras SNA- were more cohesive with each other and adhesion assays showed that they were more adhesive to fibronectin.
The adhesive interactions of hemopoietic cells within the bone marrow regulate their distribution, growth, and development. Fucosylated structures, of which sialyl Lewis x has been most extensively studied, are important ligands for selectins, but little is known about their function or regulation during normal hemopoietic development. We have studied alpha 1,3-fucosyltransferase activity in CD34 positive progenitors and myeloid cells at different stages of maturation isolated form normal human bone marrow, together with mRNA levels of Fuc-TIV and Fuc-TVII. Enzyme activity measured with H type 2 acceptor was present at all stages but was markedly elevated in fractions of early myeloid cells enriched for promyelocytes, correlating with the appearance of Lewis x on these cells, and thereafter fell progressively as cells matured. Activity measured with 3'sialyllactosamine was present in CD34+ cells and at all stages of maturation. Levels were low in promyelocyte/myelocyte transitional cells and increased, relative to those measured with H type 2, during the later stages of maturation; these changes correlate directly with a maturation-related increase in sialyl Lewis x expression. Using competitive quantitative RT-PCR, mRNA levels of Fuc-TIV and Fuc-TVII were similar in CD34+ cells, early myeloid and late myeloid cells. The significance of these findings in relation to fucosyltransferase activity, the synthesis of selectin ligands and differences between normal cells and leukemic cell lines is discussed.
Galectin-3 is an endogenous mammalian carbohydrate-binding protein with affinity for ABH group carbohydrate epitopes and polylactosamine glycans present on cell surface and extracellular matrix glycoproteins. It has been shown to play a role in cell differentiation, morphogenesis, adhesion and cell proliferation regulation. Progenitor cell proliferation in bone marrow depends on stem cell factors including those modulating their adhesion to the bone marrow stroma. The present study shows that the 32 kD galectin-3 is developmentally expressed in human myeloid cells and is strongly upregulated on the cell surface of late mature myeloid cells. Despite the fact that the expression of the galectin-3 is very low in CD34+ early myeloid cell, a 70 kD protein is found by Western blotting using antibodies specific to galectin-3, exclusively in those cells. Finally, exogenous human recombinant galectin-3 binds strongly to CD34+ early myeloid cells and emphasizes granulocyte-colony stimulating factor (G-CSF) driven proliferation in vitro.
The mechanisms by which mature myeloid cells are released from the bone marrow into the peripheral blood are not clearly understood. Glycosylation is likely to play an important role, as has been shown in the homing of lymphocytes to lymph nodes and of neutrophils to inflamed endothelia. Cell surface sialylation is an important component of many cellular adhesive interactions, both as ligand-promoting interactions, as occurs in selectin and sialoadhesin-mediated adhesion, and for reducing cell adhesion as in some cancer cells. We have studied the expression of cell surface alpha2,6-linked sialic acid in the maturation of normal bone marrow myeloid cells, the expression of alpha2,6-sialyltransferase mRNA, and the role of sialylation in the adherence of myeloid cells to bone marrow stroma. Our data show that there is a dramatic increase in cell surface alpha2,6-sialylation during the late stage of maturation. This up-regulation is restricted to specific glycoproteins including CD11b and CD18. It is associated with a relative increase in the level of alpha2,6-sialyltransferase mRNA compared with alpha2,3-sialyltransferase mRNA. The changes in mature bone marrow myeloid cells are associated with reduced cell binding to fibronectin and cultured bone marrow stroma. Our data strongly suggest that alpha2,6-sialylation may be important in the interaction between maturing myeloid cells and bone marrow stroma and may govern the release of cells from the bone marrow into the peripheral blood.
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