One-Step Duplex Droplet Digital PCR for WT1 Overexpression.

With the improvement of treatment methods in acute hematology malignancies, the development of sensitive tools for minimal residual disease assessment has become a priority. The monitoring of WT1 expression level by real-time quantitative PCR has been a standard for minimal residual disease evaluation in acute myeloid leukemia and, since 2009, has been optimized through a European LeukemiaNet effort in an established protocol with well-defined clinical end points. Building on the work of the European LeukemiaNet, this article reports the development of a novel, one-step duplex WT1/ABL1 droplet digital assay for WT1 overexpression detection. This assay provides accurate data with high precision and linearity, even at low-template concentration, while retaining strong correlation with the standardized method and therefore maintaining the framework to analyze the results in the context of acute myeloid leukemia patients.

Reduction of Blood Amyloid-ß Oligomers in Alzheimer's Disease Transgenic Mice by c-Abl Kinase Inhibition.

One of the pathological hallmarks of Alzheimer's disease (AD) is the presence of amyloid plaques, which are deposits of misfolded and aggregated amyloid-beta peptide (Aß). The role of the c-Abl tyrosine kinase in Aß-mediated neurodegeneration has been previously reported. Here, we investigated the therapeutic potential of inhibiting c-Abl using imatinib. We developed a novel method, based on a technique used to detect prions (PMCA), to measure minute amounts of misfolded-Aß in the blood of AD transgenic mice. We found that imatinib reduces Aß-oligomers in plasma, which correlates with a reduction of AD brain features such as plaques and oligomers accumulation, neuroinflammation, and cognitive deficits. Cells exposed to imatinib and c-Abl KO mice display decreased levels of ß-CTF fragments, suggesting that an altered processing of the amyloid-beta protein precursor is the most probable mechanism behind imatinib effects. Our findings support the role of c-Abl in Aß accumulation and AD, and propose AD-PMCA as a new tool to evaluate AD progression and screening for drug candidates.

Real-time assessment of relapse risk based on the WT1 marker in acute leukemia and myelodysplastic syndrome patients after hematopoietic cell transplantation.

Relapse is the major cause of treatment failure after allogeneic hematopoietic cell transplantation (alloHCT) for acute leukemia and myelodysplastic syndrome (MDS). Wilms' tumor Ag (WT1) is overexpressed in the majority of acute leukemia and MDS patients and has been proposed as a universal diagnostic marker for detection of impending relapse. Comprehensive studies have shown that WT1 transcript levels have predictive value in acute leukemia patients in CR after chemotherapy. However, the focus of this study is the period after alloHCT for predicting relapse onset. We analyzed the accumulation of WT1 mRNA transcripts in PB of 82 leukemia and MDS patients and defined specific molecular ratios for relapse prediction. The extensively validated WT1/c-ABL ratio was used to normalize increases in WT1 transcript levels. The observed lead time of crossing or exceeding set WT1 levels is presented along with linear interpolation to estimate the calculated day the WT1 thresholds were crossed. The WT1/c-ABL transcript ratio of 50 or above yielded 100% specificity and 75% sensitivity reliably predicting future relapse with an observed average of 29.4 days (s.d.=19.8) and a calculated average of 63 days (s.d.=29.3) lead time before morphologic confirmation. A lower ratio of 20 or above gave lower specificity, but higher sensitivity (84.8% and 87.5%, respectively) identified more patients who relapsed, at earlier times, providing an earlier warning with actual average lead time of 49.1 days (s.d.=30.8) and calculated average of 78 days (s.d.=28.8). WT1 transcript levels serve as a diagnostic relapse test with greater sensitivity than the morphologic approach used in the clinic as a readout.

Fast-mode duplex qPCR for BCR-ABL1 molecular monitoring: innovation, automation, and harmonization.

Reverse transcription quantitative polymerase chain reaction (RTqPCR)is currently the most sensitive tool available for the routine monitoring of disease level in patients undergoing treatment for BCRABL1 associated malignancies. Considerable effort has been invested at both the local and international levels to standardise the methodology and reporting criteria used to assess this critical metric. In an effort to accommodate the demands of increasing sample throughput and greater standardization, we adapted the current best-practice guidelines to encompass automation platforms and improved multiplex RT-qPCR technology.

Plasma tyrosine kinase activity as a potential biomarker in BCR-ABL1-targeted therapy.

In targeted therapy using tyrosine kinase inhibitors (TKIs), measurement of TK activities could be beneficial for diagnosis, identification of potential responders, and monitoring treatment efficacy. Here we evaluated the utility of measuring circulating TK (cTK) activity directly from plasma in leukemia patients positive for the BCR-ABL1. Plasma cTK activity was measured from 46 patients with newly diagnosed chronic myelogenous leukemia (CML), 24 with multidrug-resistant CML, 24 with BCR-ABL1-positive acute lymphocytic leukemia (ALL), and 38 healthy donors. Circulating TK activity was significantly higher in CML (median 801.93 U/mL, range 18.10-3932.30 U/mL) and BCR-ABL1-positive ALL patients (median 659.55 U/mL, range 0-1626.90 U/mL) than in healthy donors (median 82.85 U/mL, range 0.63-852.80 U/mL) (P < 0.001). Plasma cTK activity was closely correlated with cellular BCR-ABL1 kinase activation as indicated by phosphorylation of the downstream signaling proteins CRKL (P < 0.001) and STAT-5 (P= 0.003). However, cTK activity was not associated with BCR-ABL1 transcript level and was independent of BCR-ABL1 mutation type. Ex vivo inhibition of imatinib and dasatinib on plasma cTK activity was severely diminished in patients harboring T315I mutation. Ex vivo testing measuring the effect of TKIs on plasma cTK activity thus hold promise as drug sensitivity tests for predicting and monitoring response to specific TKIs.

[Tumor markers of childhood cancer].

Tumor markers are the substances which are produced from malignant cells and are detectable from peripheral blood or body fluid. These markers are used for the evaluation of treatment effectiveness or the detection of relapse. In most cases of pediatric cancer, specific molecular abnormalities of tumor cells have been able to be identified. Evaluation of these molecular markers is critical for the diagnosis and the choice of treatment. Recently, these molecular markers have also come to be used for the detection of minimal residual disease. Such a system can be regarded as a kind of tumor marker.