Altered affinity maturation in primary response to (4-hydroxy-3-nitrophenyl) acetyl (NP) after autologous reconstitution of irradiated C57BL/6 mice.

Immune responses developing in irradiated environment are profoundly altered. The memory anti-arsonate response of A/J mice is dominated by a major clonotype encoded by a single gene segment combination called CRIA. In irradiated and autoreconstituted A/J mice, the level of anti-ARS antibodies upon secondary immunization is normal but devoid of CRIA antibodies. The affinity maturation process and the somatic mutation frequency are reduced. Isotype switching and development of germinal centers (GC) are delayed. The primary antibody response of C57BL/6 mice to the hapten (4-hydroxy-3-nitrophenyl) acetyl (NP)-Keyhole Limpet Hemocyanin (KLH) is dominated by antibodies encoded by a family of closely related VH genes associated with the expression of the lambda1 light chain.We investigated the anti-NP primary response in irradiated and autoreconstituted C57BL/6 mice. We observed some splenic alterations as previously described in the irradiated A/J model. Germinal center reaction is delayed although the extrafollicular foci appearance is unchanged. Irradiated C57BL/6 mice are able to mount a primary anti-NP response dominated by lambda1 positive antibodies but fail to produce high affinity NP-binding IgG1 antibodies. Following a second antigenic challenge, irradiated mice develop enlarged GC and foci. Furthermore, higher affinity NP-binding IgG1 antibodies are detected.

Quantification of apoptosis in lymphocyte subsets and effect of apoptosis on apparent expression of membrane antigens.

Annexin V binding to phosphatidylserine was evaluated by flow cytometry to examine apoptosis in different lymphocyte subsets of peripheral blood mononuclear cells after a 24 h in vitro culture period. We also applied a 2 Gy dose gamma-irradiation prior to incubation to evaluate the additional apoptogenic effect of radiation on the lymphocyte subsets. Overall, B lymphocytes showed the highest number of apoptotic cells, followed by T lymphocytes. Within the T lymphocytes, CD4-positive and CD45RA-negative cells were more prone to apoptosis than the CD8-positive and CD45RA-positive cells. Natural killer cells turned out to be most apoptosis-resistant. In the irradiated samples about twice as many apoptotic cells were found and the differences between lymphocyte subpopulations remained. Backgating of the annexin V-positive cells showed that these cells had a clearly decreased forward scatter signal. The antibody binding capacity (ABC) of lymphocyte membrane antigens was determined with CD3-fluorescein isothiocyanate (FITC), CD45RA-FITC, CD4-phycoerythrin (PE), CD8-PE, CD56-PE, and CD20-PE in viable and apoptotic cells. In the apoptotic cells a decrease of ABC was found for all antigens, except for CD20. There was no significant cell loss in the cultures. We conclude that the change in scatter and in ABC must be considered in immunophenotyping experiments on cells kept in culture for 24 h. If these changes are taken into account, percentages of subpopulations or the numbers of cells that stain positive for the studied markers do not significantly change.

Effect of in vitro ultraviolet radiation on the binding capacity of anti-DNA and DNA in systemic lupus erythematosus.

The in vitro effects of various doses of ultra violet A (UVA) or UVB irradiation on DNA or anti-DNA as measured by their subsequent binding to anti-DNA or DNA were examined. Sera from 12 patients with active lupus were studied. UVA irradiation at 20-240 J/m2 or UVB irradiation at 2-24 J/m2 did not affect DNA or anti-DNA binding to anti-DNA or DNA, respectively. Modulation of the UV effect on DNA and anti-DNA by adding methylprednisolone, hydroxychloroquine and indomethacin at 10(-6) M did not alter the UV effect. UV light does not exert its effect directly on the binding of anti-DNA to DNA.