Wilms Tumor 1 Expression at Diagnosis Correlates With Genetic Abnormalities and Polymorphism But Is Not Independently Prognostic in Acute Myelogenous Leukemia : A Hokkaido Leukemia Net Study

The association between Wilms tumor 1 (WT1) expression, genetic abnormalities and homozygous single polymorphism (SNP) in WT1 gene was evaluated in 252 acute myelogenous leukemia (AML) patients. WT1 expression correlated with prognostic genetic abnormalities. Homozygous WT1 SNP rs16754 was associated with lower expression of WT1. WT1 expression had no prognostic impact in any cytogenetic group or SNP status. Background: The prognostic impact of WT1 expression at diagnosis of acute myelogenous leukemia (AML) has been controversial. The aim of this study was to determine the correlations of WT1 expression at diagnosis of AML with established prognostic alterations. Patients and Methods: We analyzed diagnostic bone marrow samples from 252 patients. WT1 expression, SNP in WT1 gene (rs16754), and Flt3-ITD mutation were analyzed for all patients. NPM1 mutation and CEBPA double mutation were analyzed for cytogenetically normal (CN)-AML. KIT mutation was analyzed for core-binding factor (CBF)-AML. Results: Within the cytogenetically favorable prognosis group, WT1 expression in AML with inv(16) or t(15;17) was significantly higher than that in AML with t(8;21). In cases with CN-AML, Flt3-ITD and NPM1 mutations were both correlated with higher expression of WT1, whereas CEBPA double mutation was related to lower WT1 expression. The existence of both Flt3- ITD and NPM1 mutations showed synergistically higher expression of WT1 in CN-AML. SNP in WT1 gene (rs16754) was significantly associated with lower expression of WT1. WT1 levels were not prognostic factors in the total cohort, in any cytogenetic group nor SNP status. Conclusion: Since WT1 expression correlated to known prognostic factors, the prognostic impact of WT1 levels might be misunderstood depending on the distribution of collaborative mutations in each cohort. We conclude that the prognostic significance of WT1 at diagnosis of AML is weak compared to other established prognostic factors

High CRP-albumin ratio predicts poor prognosis in transplant ineligible elderly patients with newly diagnosed acute myeloid leukemia

Acute myeloid leukemia (AML) patients older than 65 years have a poor prognosis. Recently, CAR (C-reactive-protein/albumin ratio) has been actively reported as a prognostic index reflecting the nutritional and inflammatory status of elderly patients with solid tumors, but the usefulness of this index as a prognostic indicator in transplant-ineligible elderly AML patients has not been investigated. We studied genetic alterations and CARs in 188 newly diagnosed AML patients aged 65 years or older who were treated in a multicenter setting and had treated without HSCT. Both NCCN 2017 risk group, reflecting the genetic component of the tumor, and CAR, reflecting the inflammatory and nutritional status of the patient, successfully stratified the overall survival (OS) of the patients (2-year OS; CAR low vs high, 42.3% vs 17.8%, P < 0.001). Furthermore, in multivariate analysis, NCCN 2017 poor group and high CAR were extracted as independent poor prognostic factors predicting 2-year OS in the current study. We found, for the first time, that CAR at diagnosis predicted the prognosis of elderly patients with newly diagnosed AML treated without HSCT

FUS regulates RAN translation through modulating the G-quadruplex structure of GGGGCC repeat RNA in C9orf72-linked ALS/FTD

Abnormal expansions of GGGGCC repeat sequence in the noncoding region of the C9orf72 gene is the most common cause of familial amyotrophic lateral sclerosis and frontotemporal dementia (C9-ALS/FTD). The expanded repeat sequence is translated into dipeptide repeat proteins (DPRs) by noncanonical repeat-associated non-AUG (RAN) translation. Since DPRs play central roles in the pathogenesis of C9-ALS/FTD, we here investigate the regulatory mechanisms of RAN translation, focusing on the effects of RNA-binding proteins (RBPs) targeting GGGGCC repeat RNAs. Using C9-ALS/FTD model flies, we demonstrated that the ALS/FTD-linked RBP FUS suppresses RAN translation and neurodegeneration in an RNA-binding activity-dependent manner. Moreover, we found that FUS directly binds to and modulates the G-quadruplex structure of GGGGCC repeat RNA as an RNA chaperone, resulting in the suppression of RAN translation in vitro. These results reveal a previously unrecognized regulatory mechanism of RAN translation by G-quadruplex-targeting RBPs, providing therapeutic insights for C9-ALS/FTD and other repeat expansion diseases