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1. Erythroid cells in immunoregulation: characterization of a novel suppressor factor.

Author

Seledtsova GV, Seledtsov VI, Samarin DM, Senyukov VV, Ivanova IP, Akimenko ZA, Tsyrlova IG, Wolpe SS, and Kozlov VA

Subjects

Allergens immunology, Allergens pharmacology, Animals, Animals, Newborn, Bone Marrow Cells metabolism, Cell Proliferation drug effects, Coculture Techniques, Culture Media, Conditioned pharmacology, Cytotoxicity, Immunologic drug effects, Cytotoxicity, Immunologic immunology, Erythroblasts immunology, Erythroblasts metabolism, Erythroid Cells metabolism, Erythropoietin pharmacology, Humans, Immune Tolerance physiology, Immunosuppressive Agents metabolism, Immunosuppressive Agents pharmacology, Leukocytes, Mononuclear drug effects, Leukocytes, Mononuclear immunology, Lipopolysaccharides pharmacology, Liver cytology, Liver immunology, Lymphocyte Activation drug effects, Lymphocyte Activation immunology, Lymphocyte Culture Test, Mixed, Mice, Mice, Inbred C57BL, Mice, Inbred CBA, Mice, Inbred DBA, Neuraminidase metabolism, Peptide Hydrolases metabolism, Phenylhydrazines pharmacology, Phospholipases metabolism, Spleen cytology, Spleen drug effects, Spleen immunology, Erythroid Cells immunology, Immune Tolerance immunology, Immunosuppressive Agents immunology

Abstract

Nucleated erythroid cells (EC) have been previously reported to possess a potent natural suppressor (NS) activity for B-cell responses. In this study, we demonstrate that murine EC are able to reduce not only lipopolysaccharide (LPS)-driven B-cell proliferation, but also proliferative and cytotoxic T-cell responses generated in a primary allogeneic mixed lymphocyte culture (MLC); and that a soluble low molecular weight factor may be involved in such EC-derived immunoregulation. In addition, the erythroid cell-derived suppressor factor (ESF) was found to be capable of effectively reducing the allergen-driven proliferation of peripheral blood mononuclear cells (PBMC) isolated from allergic patients. From the data presented herein, it appears that ESF is heat-stable (80 degrees C for 20 min) and has molecular weight (MW) lower or close to 0.5 kDa. ESF activity is resistant to both enzyme (trypsin plus chymotrypsin) proteolysis and action of the enzymes such as lipase and phospholipase C. On the other hand, ESF is effectively inactivated by neuraminidase treatment, suggesting the presence in its structure of sialic residue(s). The neuraminidase-sensitive, ESF-like activity is readily detected in the medium conditioned with normal mouse bone marrow (BM) cells. On fractionation of low MW erythroid products on a reversed-phase C16 column in a linear acetonitrile gradient (5-95%), ESF activity is detected in the first peak alone with the shortest time of its retention by the column. The results suggest that (1) by producing ESF, EC may regulate both B- and T-cell-mediated immune processes and (2) based on its physicochemical and biological characteristics, ESF can be distinguished from each of earlier characterised suppressor mediators of bone marrow origin.

Published

2004