Formation of Paul-Bunnell antibodies by cultures of lymphocytes from infectious mononucleosis. |
| |
Authors: | T Mori K Kano F Milgrom |
| |
Affiliation: | Department of Microbiology, School of Medicine, State University of New York at Buffalo, Buffalo, New York 14214 USA |
| |
Abstract: | Short-term cultures of peripheral blood lymphocytes obtained from 20 infectious mononucleosis patients 2–4 weeks after the onset of the disease were studied for formation of heterophile antibodies. In studying pooled supernatant fluids of lymphocytes from three patients cultured for 3–20 days, lytic antibodies for red blood cells of bovine (BRBC) and sheep (SRBC) origin were demonstrated. These hemolysins were shown to be of IgM nature and Paul-Bunnell specificity. Subsequently, plaque-forming cell (PFC) assays were performed with lymphocyte cultures of 15 patients. Significant numbers (60–750/2 × 107 cells) of PFC secreting antibodies against BRBC were demonstrated in lymphocyte cultures of 12 patients. The number of PFC apparently reached its peak after 5 to 10 days of culturing. No or a very few PFC were observed in the lymphocytes that were not cultured or in lymphocytes cultured for 3 weeks or longer. Lymphocyte cultures prepared in a similar fashion from normal individuals or patients suffering from sore throat and submandibular lymphadenopathy of other than infectious mononucleosis origin did not produce PFC. Production of lytic zones by antibodies to BRBC secreted by PFC was inhibited by preincubation of lymphocytes of infectious mononucleosis patients with solubilized Paul-Bunnell antigen but not with other heterophile antigens, indicating that antibodies involved in the PFC formation are of Paul-Bunnell specificity. An increased number of PFC against BRBC were obtained in two of three lymphocyte cultures after cultivation with BRBC or solubilized Paul-Bunnell antigen. |
| |
Keywords: | Please address all correspondence to Dr. F. Milgrom Department of Microbiology 203 Sherman Hall State University of New York at Buffalo Buffalo New York 14214. |
本文献已被 ScienceDirect 等数据库收录! |
|