RESUMO
Studies have demonstrated that abnormalities in interferon regulatory factor-1 (IRF-1) expression might develop myelodysplastic syndromes (MDS). IRF-1 was described as modulator of T regulatory (Treg) cells by suppressing Foxp3 on mice. We aimed to determine the role of Treg and IRF-1 in MDS. Thirty-eight MDS patients fulfilling WHO criteria and classified according to risk scores were evaluated at time 0 (T0) and after 12 months (T12) for: Treg suppression activity in coculture with T effector (Teff) cells; IRF-1 and Foxp3 genetic expression by qRT-PCR; IL-2, -4, -6, -10, -17, TNFα and IFNγ production by Cytometric Bead Array. No differences in Foxp3 expression (T0=0.06±0.06 vs T12=0.06±0.12, p=0.5), Treg number (T0=5.62±2.84×105 vs T12=4.87±2.62×105; p=0.3) and Teff percentage (T0=16.8±9.56% vs T12=13.1±6.3%; p=0.06) were observed on T12. Low risk MDS patients showed a higher number of Treg (5.2±2.6×105) versus high risk group (2.6±1.2×105, p=0.03). Treg suppression activity was impaired on T0 and T12.Cytokine production and IRF-1 expression were increased on T12. The correlation between IRF-1 and FoxP3 was negative (r2=0.317, p=0.045) on T0. These results suggest a hyper activity of the immune system, probably secondary to Treg suppression activity impairment. This state may induce the loss of tolerance culminating in the proliferation of MDS clones.