Synthesis and evaluation of the cytotoxic activity of 1,2-furanonaphthoquinones tethered to 1,2,3-1H-triazoles in myeloid and lymphoid leukemia cell lines.

Leukemia is the most common blood cancer, and its development starts at diverse points, leading to distinct subtypes that respond differently to therapy. This heterogeneity is rarely taken into account in therapies, so it is still essential to look for new specific drugs for leukemia subtypes or even for therapy-resistant cases. Naphthoquinones (NQ) are considered privileged structures in medicinal chemistry due to their plethora of biological activities, including antimicrobial and anticancer effects. Nitrogen-containing heterocycles such as 1,2,3-1H-triazoles have been identified as general scaffolds for generating glycosidase inhibitors. In the present study, the NQ and 1,2,3-1H-triazole cores have been combined to chemically synthesize 18 new 1,2-furanonaphthoquinones tethered to 1,2,3-1H-triazoles (1,2-FNQT). Their cytotoxicities were evaluated against four different leukemia cell lines, including MOLT-4 and CEM (lymphoid cell lines) and K562 and KG1 (myeloid cell lines), as well as normal human peripheral blood mononucleated cells (PBMCs). The new 1,2-FNQT series showed high cytotoxic potential against all leukemia cell lines tested, and some compounds (12o and 12p) showed even better results than the classical therapeutic compounds such as doxorubicin or cisplatin. Others compounds, such as 12b, are promising because of their high selectivity against lymphoblastic leukemia and their low activity against normal hematopoietic cells. The cells of lymphoid origin (MOLT and CEM) were generally more sensitive than the myeloid cell lines to this series of compounds, and most of the compounds that showed the highest cytotoxicity were similarly active against both cell lines.

Prognostic significance of WT1 gene expression in pediatric acute myeloid leukemia.

BACKGROUND: The Wilms Tumor gene (WT1) encodes a transcription factor involved in kidney development and malignancy. WT1 expression in a subpopulation of early CD34+ cells has suggested its involvement in hematopoiesis. WT1 is aberrantly expressed in leukemias. High expression of WT1 at diagnosis has been associated with unfavorable prognosis in adult acute myeloid leukemia (AML). The prognostic relevance of WT1 expression in pediatric AML was evaluated in only one study, including 47 patients, which showed that very low levels of WT1 at presentation were associated with an excellent outcome. To test the validity of these findings we measured levels of WT1 in 41 newly diagnosed pediatric AML of the non-M3 FAB subtype. PROCEDURE: Patients were treated according to an AML-BFM 83-based protocol in a single institution. Mononucleated cells obtained from presentation BM aspirates were cryopreserved and later thawed and used for total RNA extraction and cDNA synthesis. The quantitative assessment of WT1 transcripts was made by real-time PCR (RQ-PCR). WT1 transcripts values were normalized with respect to the number of ABL transcripts. RESULTS: WT1 levels were significantly higher in patients bearing favorable chromosome abnormalities, t(8;21) and inv(16) (P = 0.002). Higher levels of WT1 expression were unexpectedly associated with a higher probability of overall survival by Cox regression analysis (P = 0.002). Multivariate regression analysis could not discriminate between the effects of WT1 and cytogenetics on survival. CONCLUSIONS: Higher WT1 expression was associated with favorable cytogenetics subtypes and accordingly with better outcome in children with AML in this study.