Differential expression of the B cell-restricted molecule CD22 on neonatal B lymphocytes depending upon antigen stimulation

Newborns respond poorly to certain antigens and produce mainly IgM antibodies. By flow cytometry we analyzed on neonatal and adult B cells the expression of CD22, a B cell receptor (BCR)-associated membrane molecule, known as negative modulator of BCR signaling. After T cell-independent (TI-)stimula...

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Veröffentlicht in:	European journal of immunology 2000-02, Vol.30 (2), p.550-559
Hauptverfasser:	Viemann, D, Schlenke, P, Hammers, H-J, Kirchner, H, Kruse, A
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Sprache:	eng
Schlagworte:	AB-cell receptor CD22 antigen
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creator	Viemann, D Schlenke, P Hammers, H-J Kirchner, H Kruse, A
description	Newborns respond poorly to certain antigens and produce mainly IgM antibodies. By flow cytometry we analyzed on neonatal and adult B cells the expression of CD22, a B cell receptor (BCR)-associated membrane molecule, known as negative modulator of BCR signaling. After T cell-independent (TI-)stimulation with anti- mu F(ab') sub(2) fragments we found a dramatic decrease in the percentage of neonatal CD22 super(+) B cells and CD22 mean fluorescence intensity (MFI) shift, whereas adult B cells remained unaffected. Survival and proliferation rates of neonatal B cells were higher compared to adult B cells whereas the degrees of apoptosis and necrosis were comparable. Surprisingly, after stimulation with lower doses of anti- mu apoptosis as well as proliferation increased significantly in contrast to adult B cells. T cell-dependent (TD)-stimulation with anti-CD40 monoclonal antibody and IL-4 resulted in a dramatic increase in the percentage of CD22 super(+) neonatal B cells in contrast to unaffected adult B cells. CD22 MFI shifts showed no significant changes, respectively. The survival rate was higher for adult B cells, whereas apoptosis and cell death were comparable. These results suggest that TI antigens lower the neonatal BCR signaling threshold via down-regulation of CD22, resulting in hyperresponsive B cells apt to premature apoptosis. On the other hand, up-regulation of CD22 after TD stimulation may allow increased inhibiting influence of CD22 on neonatal BCR signaling, impairing B cell activation and differentiation.
doi_str_mv	10.1002/1521-4141(200002)30:2<550::AID-IMMU550>3.3.CO;2-O
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By flow cytometry we analyzed on neonatal and adult B cells the expression of CD22, a B cell receptor (BCR)-associated membrane molecule, known as negative modulator of BCR signaling. After T cell-independent (TI-)stimulation with anti- mu F(ab') sub(2) fragments we found a dramatic decrease in the percentage of neonatal CD22 super(+) B cells and CD22 mean fluorescence intensity (MFI) shift, whereas adult B cells remained unaffected. Survival and proliferation rates of neonatal B cells were higher compared to adult B cells whereas the degrees of apoptosis and necrosis were comparable. Surprisingly, after stimulation with lower doses of anti- mu apoptosis as well as proliferation increased significantly in contrast to adult B cells. T cell-dependent (TD)-stimulation with anti-CD40 monoclonal antibody and IL-4 resulted in a dramatic increase in the percentage of CD22 super(+) neonatal B cells in contrast to unaffected adult B cells. CD22 MFI shifts showed no significant changes, respectively. The survival rate was higher for adult B cells, whereas apoptosis and cell death were comparable. These results suggest that TI antigens lower the neonatal BCR signaling threshold via down-regulation of CD22, resulting in hyperresponsive B cells apt to premature apoptosis. 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By flow cytometry we analyzed on neonatal and adult B cells the expression of CD22, a B cell receptor (BCR)-associated membrane molecule, known as negative modulator of BCR signaling. After T cell-independent (TI-)stimulation with anti- mu F(ab') sub(2) fragments we found a dramatic decrease in the percentage of neonatal CD22 super(+) B cells and CD22 mean fluorescence intensity (MFI) shift, whereas adult B cells remained unaffected. Survival and proliferation rates of neonatal B cells were higher compared to adult B cells whereas the degrees of apoptosis and necrosis were comparable. Surprisingly, after stimulation with lower doses of anti- mu apoptosis as well as proliferation increased significantly in contrast to adult B cells. T cell-dependent (TD)-stimulation with anti-CD40 monoclonal antibody and IL-4 resulted in a dramatic increase in the percentage of CD22 super(+) neonatal B cells in contrast to unaffected adult B cells. CD22 MFI shifts showed no significant changes, respectively. The survival rate was higher for adult B cells, whereas apoptosis and cell death were comparable. These results suggest that TI antigens lower the neonatal BCR signaling threshold via down-regulation of CD22, resulting in hyperresponsive B cells apt to premature apoptosis. 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By flow cytometry we analyzed on neonatal and adult B cells the expression of CD22, a B cell receptor (BCR)-associated membrane molecule, known as negative modulator of BCR signaling. After T cell-independent (TI-)stimulation with anti- mu F(ab') sub(2) fragments we found a dramatic decrease in the percentage of neonatal CD22 super(+) B cells and CD22 mean fluorescence intensity (MFI) shift, whereas adult B cells remained unaffected. Survival and proliferation rates of neonatal B cells were higher compared to adult B cells whereas the degrees of apoptosis and necrosis were comparable. Surprisingly, after stimulation with lower doses of anti- mu apoptosis as well as proliferation increased significantly in contrast to adult B cells. T cell-dependent (TD)-stimulation with anti-CD40 monoclonal antibody and IL-4 resulted in a dramatic increase in the percentage of CD22 super(+) neonatal B cells in contrast to unaffected adult B cells. CD22 MFI shifts showed no significant changes, respectively. The survival rate was higher for adult B cells, whereas apoptosis and cell death were comparable. These results suggest that TI antigens lower the neonatal BCR signaling threshold via down-regulation of CD22, resulting in hyperresponsive B cells apt to premature apoptosis. On the other hand, up-regulation of CD22 after TD stimulation may allow increased inhibiting influence of CD22 on neonatal BCR signaling, impairing B cell activation and differentiation.</abstract><doi>10.1002/1521-4141(200002)30:2<550::AID-IMMU550>3.3.CO;2-O</doi><tpages>10</tpages><oa>free_for_read</oa></addata></record>
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source	Wiley Online Library Journals Frontfile Complete; Wiley Free Content; EZB-FREE-00999 freely available EZB journals
subjects	AB-cell receptor CD22 antigen
title	Differential expression of the B cell-restricted molecule CD22 on neonatal B lymphocytes depending upon antigen stimulation
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