Tregs are usually divided into few subtypes including naturally occurring
CD4+CD25+ Tregs (nTregs), Tr1 cells [interleukin (IL)-10 producing], Th3 cells (transforming growth factor (TGF)-β producing), CD8+ Tregs and others. The basic mechanisms used by Tregs to achieve suppression are probably mediated by inhibitory cytokines, cytolysis, metabolic disruption and influence on dendritic cells (discussed in [11]). Much attention has been paid to the phenotypic characterization of T regulatory cells. Among important molecules expressed by Tregs, transcription factor FoxP3, IL-7 receptor (CD127), CD28/CTLA-4, GITR, ICOS, OX40/4-1BB, TGF-β and IL-10 are most intensively BMS-777607 molecular weight investigated (reviewed in [12]). Little
is known about production of cytokines by Tregs and cytotoxic capabilities of these cells [11]. Very recently, it was postulated that a newly discovered AZD1208 cytokine IL-35 (an IL-12 family member) is involved in suppression caused by Tregs [13]. It is possible that the disturbances in T regulatory cell number and/or function result in the commencement of obesity-related inflammation. To our knowledge, there is no report concerning T regulatory cells in MS. Only one was performed in obese children on very small number of subjects with no respect to the other components of MS [14]. In the previous experiments, CD4+CD25+ were regarded as Tregs. The kit for separating CD4+CD25+CD127dim/− Liothyronine Sodium cells has been available for 1 year. The studies conducted in the past included the assessment of only few cytokines/molecules because of low amounts of separated cells. The aim of our present study was to determine whether there is any disturbance in T regulatory cells’ number and/or function in patients with MS. We assessed the percentages of T regulatory cells in the peripheral blood of children fulfilling the IDF criteria of the disease. We also separated Treg cells for further analysis of multiple
gene expression with the use of real-time RT-PCR. Patients. The study group consisted of 47 children with MS. Thirty-nine non-obese, healthy individuals (control group) were enrolled in the study. Children from the control group had no signs of autoimmune, chronic, inflammatory and neoplasmatic disease (no differences in sex and age, compared to the study group, P > 0.05). Their weight, height, waist and hip circumferences were measured, and body mass index (BMI)/waist/hip ratio (WHR) was calculated. The MS was diagnosed according to the IDF criteria [3]. The values obtained from clinical examination were compared with reference data (including percentile curves) recently updated for Polish children. Children from both study and control groups did not receive any treatment. The blood samples from the patients and controls were obtained under the protocols approved by the Medical University of Bialystok Institutional Review Board.