B cell subsets in thymus from infants with Down syndrome

Abstract

B lymphocytes are still poorly characterized in the human thymus, and due to the immunological peculiarities of Down syndrome, a detailed investigation of thymic B lymphocytes and their subsets was performed in <2-year-old infants. This is a period of intense thymic activity, and here we compared thymuses from infants with Down syndrome (DG) and age-matched control group (CG) with heart disease as the only described malformation, no clinical signs of immunodeficiency and normal blood lymphocyte numbers. MethodsThis study, approved by the institutional ethics committee, included 10 thymic samples from DG infants, and 20 from CG infants. Depending on thymus size and the type of surgical approach, babies were submitted to total thymectomy or only the removal of a small thymic fragment (mainly in the DG), always during cardiac surgery in order to correct congenital defects. Flow cytometry was used for immunophenotyping of cell suspension obtained from thymic tissue; and the B lymphocyte topographic localization was investigated by immunohistochemistry, and a quantitative evaluation of B-cells in each region was carried out using methods of digitized images analysis. ResultsFlow cytometry revealed that CD20+ cells represent around 1% of total lymphocytes in both groups, with higher naive and lower unswitched memory B lymphocyte frequencies in DG when compared to the CG, while B1 cells were present in much higher frequency in DG than in CG. All the other B-cell subpopulations (transitional, switched memory, plasmablasts and plasmocytes) were statistically equivalent between groups. Immunohistochemistry showed higher frequencies of CD20+ cells in medullary region compared to cortex, without differences between the groups (DG = 16.8% and CG = 17.1% of total cell number), while the cortex region had few B cells in both groups, with significantly lower frequency in DG group, reaching 0.25%, compared with the CG, which showed 0.6%. Conclusion: Flow cytometry revealed a different distribution of B-cell subtypes in DG thymus compared to CG and, thus, data obtained from such rare material could be relevant in the characterization and further analysis and understanding of the immunological mechanisms that involve the participation of B lymphocyte subpopulations in the thymus. FAPESP (grant 2014/50489-9).