ISSN:
0275-3723
Keywords:
β-galactoside lectin
;
galaptin
;
erythropoiesis
;
murine erythroleukemia cells (MELC)
;
Chemistry
;
Molecular Cell Biology
Source:
Wiley InterScience Backfile Collection 1832-2000
Topics:
Biology
,
Chemistry and Pharmacology
,
Medicine
Notes:
Recently, the generic term “galaptins” was proposed for the group of low molecular weight, acidic, β-galactoside-specific protein lectins that have been isolated from a wide variety of animal tissues and are thought to have a role in cell-cell recognition and adhesion. A molecule of this type, called erythroid developmental agglutinin (EDA), has been isolated from rabbit bone marow where it seems to mediate the intererythroblast adhesion seen in erythroblastic islands during erythropoiesis in vivo. Here, we show that after purification, EDA shows 95%-100% Coomassie blue staining as a single component on electrophoresis in native, urea, and SDS polyacrylamide gels and electrofocuses as a single band at pH 5.6. EDA has a subunit molecular weight of 13,000 in SDS gels and, unlike the majority of other galaptins, which arc dimeric, native EDA is monomeric in solution. Another monomeric galaptin, chicken lactose lectin II, has been described recently, and it therefore seems that there may be two classes of galaptin distinguishable by their aggregation state in solution.We have previously reported that EDA agglutinates rabbit erythroblasts in vitro and that this reaction is inhibited by β-galactoside-containing sugars and by anti-EDA Fab fragments suggesting that EDA bridges directly between cell surface glycoproteins. The insensitivity of this reaction to cooling, or to the disruption of cellular metabolism or the cytoskeleton demonstrated here further supports this hypothesis. EDA-mediated erythroblast agglutination was also shown to be independent of divalent cations.Since galaptins are thought to be important in cohesion between normal cells, the possibility that EDA is not active in leukemic erythroid tissue was examined. The murine erythroleukemia cell line (MELC) provided an excellent system for this study since MELC are thought to be derived from an erythroid committed cell transformed at an early stage of development and can be induced by a number of chemical agents to differentiate terminally along the erythroid developmental pathway in culture. EDA of rabbit origin was found to agglutinate mouse erythroblasts in vitro and was used to investigate the response of MELC to EDA. It was found that the transformed cells were not readily agglutinated by EDA but on induction, and the concomitant loss of many of their transformed characteristics, MELC gained aggregation competence for EDA. The possible causes of these differences are discussed.
Additional Material:
3 Ill.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1002/jsscb.380170304
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