Abstract
Background: Primary immune thrombocytopenia (ITP) is an autoimmune heterogeneous disorder that Treg cells were numerically or functionally deficient1-3. It was shown that human FoxP3+CD4+ T cells were composed of three phenotypically and functionally distinct subpopulations: CD45RA+FoxP3lo resting Treg cells (rTreg cells, group I) and CD45RA-FoxP3hi activated Treg cells (aTreg cells, group II), and CD45RA-FoxP3lo non-suppressive Treg cells (group III) 4. Our current study was aimed to determine whether the subtypes alterated in ITP patients or not.
Methods: Ten healthy volunteers (normal contral, NC) and 15 newly diagnosed ITP patients (platelet below 30×109/L) donated 2mL peripheral blood to test the percentages of peripheral Treg cells subtypes by Flow Cytometry (FCM) before and after first-line glucocorticoid treatment. Among them, 10 NCs and 9 ITP patients donated additional 20mL peripheral before treatment for Treg cells subtypes functional study. CD4+CD25-Teffs and CD4+CD25+Tregs were purified. CD4+CD25-Teffs, labeled with CFSE, were cultured with Tregs for 5 days. Treg cells subtypes and their IL-10 fluorescence intensity were determined by FCM.
Results: After treatment, 9 patients got complete or partial remission (ITP R), while the other 6 patiests were evaluated as non-remission (ITP NR). Before treatment, group I rTreg cells in ITP R pre ((11.77±4.71)%, p=0.0048)or ITP NR pre ((10.30±4.29)%, ,p=0.0071) patients were both lower than NC (21.71±7.61)%. As to group II aTreg cells, the percentage in ITP R pre (4.04±2.09)% was higher than NC ((1.40±0.69)%, p=0.0008) or ITP NR pre ((2.17±0.78)%, p=0.0339), and there was no statistic difference between NC and ITP NR pre (p=0.0652). The non-suppressive group III Treg cells was higher in ITP R pre ((84.07±4.93)%, p=0.0185) and ITP NR pre ((84.25±7.92)%, p=0.0090), when compared to NC (75.82±7.83)%.
After treatment, the subtypes in ITP R (ITP R post) were group I (14.69±5.74)%, group II (4.18±2.67)%, and group III (81.01±5.66)%, none of them had statistic difference when compared with ITP R pre. In the term of ITP NR patients, the treatment also didn't change the subtypes alteration (group I (10.41±6.16)%, group II (2.69±2.09)%, and group III (86.71±5.25)% in ITP NR post).
In the co-culture study, ITP patients' Treg cells subtypes altered in the same pattern. That is decreased group I (NC (21.67±10.71)%, ITP (8.94±8.38), p=0.0222), increased group II (NC (7.94±3.49)%, ITP (13.89±7.13)%, p=0.0327), and increased group III (NC (59.9±14.37)%, ITP (77.17±9.31)%, p=0.0330). When we looked into the IL-10 producing capacity (represented by the mean fluorescence intensity, MFI) of each subtypes, the group II Tregs cells produced the most IL-10 in NC (group I (636.5±378.8), group II (3012.0±3165.3), and group III (834.3±1365.4), p=0.0463) as well as ITP (group I (385.5±416.9), group II (3934.6±3633.3), and group III (556.0±416.6), p=0.0007). However, there were no statistic difference between NC and ITP in terms of IL-10 MFI.
Conclusions: Tregs cells subtypes percentage altered when ITP occurred. The increased group II aTreg cells may forecast the better glucocorticoid treatment efficacy.
No relevant conflicts of interest to declare.
Author notes
Asterisk with author names denotes non-ASH members.