RESUMO
Sézary syndrome (SS) is an aggressive variant of cutaneous t-cell lymphoma characterized by the accumulation of neoplastic CD4+ lymphocytes-the SS cells-mainly in blood, lymph nodes, and skin. The tumor spread pattern of SS makes this lymphoma a unique model of disease that allows a concurrent blood and skin sampling for analysis. This review summarizes the recent studies highlighting the transcriptional programs triggered by the crosstalk between SS cells and blood-skin microenvironments. Emerging data proved that skin-derived SS cells show consistently higher activation/proliferation rates, mainly driven by T-cell receptor signaling with respect to matched blood SS cells that instead appear quiescent. Biochemical analyses also demonstrated an hyperactivation of PI3K/AKT/mTOR, a targetable pathway by multiple inhibitors currently in clinical trials, in skin SS cells compared with a paired blood counterpart. These results indicated that active and quiescent SS cells coexist in this lymphoma, and that they could be respectively treated with different therapeutics. Finally, this review underlines the more recent discoveries into the heterogeneity of circulating SS cells, highlighting a series of novel markers that could improve the diagnosis and that represent novel therapeutic targets (GPR15, PTPN13, KLRB1, and ITGB1) as well as new genetic markers (PD-1 and CD39) able to stratify SS patients for disease aggressiveness.
RESUMO
Sézary syndrome (SS) is a rare and aggressive variant of cutaneous T-cell lymphoma. It is characterized by the copresence of CD4+ neoplastic lymphocytes, named Sezary cells, mainly in the blood, lymph nodes, and skin where they induce chronic inflammation that in turn impairs the patient's QOL and fuels neoplastic cells. SS is not readily cured, but immunotherapy is becoming an effective option for this lymphoma. In this study, we investigated, in a large cohort of patients with SS, the expression and function of the immune checkpoint molecule CD39, which degrades proinflammatory extracellular adenosine triphosphate. We showed that the SNP rs10748643 A/G within the ENTPD1 gene coding for the CD39 protein controls its expression level. Patients carrying the A/GâG/G genotype showed a significantly higher frequency of clonal CD4+CD39+ SS cells than those carrying the A/A genotype. Different from other cancers, high CD39 expression correlates with a better prognosis. Comparing primary G/G with A/A lymphoma cells, we observed that G/G SS cells have a higher ability to degrade adenosine triphosphate, increased apoptotic susceptibility, and upon activation, reduced IL-2 production. Accordingly, CD39 enzymatic inhibition enhances SS cell viability and IL-2 production on activation. These results strongly suggest a special caution for SS treatment with therapeutic inhibitors of CD39.