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Extramedullary infiltration (EMI) is a concomitant manifestation that may indicate poor outcome of acute myeloid leukemia (AML). The underlying mechanism remains poorly understood and therapeutic options are limited. Here, we employed single-cell RNA sequencing on bone marrow (BM) and EMI samples from a patient with AML presenting pervasive leukemia cutis. A complement C1Q+ macrophage-like leukemia subset, which was enriched within cutis and existed in BM before EMI manifestations, was identified and further verified in multiple patients with AML. Genomic and transcriptional profiling disclosed mutation and gene expression signatures of patients with EMI that expressed high levels of C1Q. RNA sequencing and quantitative proteomic analysis revealed expression dynamics of C1Q from primary to relapse. Univariate and multivariate analysis demonstrated adverse prognosis significance of C1Q expression. Mechanistically, C1Q expression, which was modulated by transcription factor MAF BZIP transcription factor B, endowed leukemia cells with tissue infiltration ability, which could establish prominent cutaneous or gastrointestinal EMI nodules in patient-derived xenograft and cell line–derived xenograft models. Fibroblasts attracted migration of the C1Q+ leukemia cells through C1Q–globular C1Q receptor recognition and subsequent stimulation of transforming growth factor β1. This cell-to-cell communication also contributed to survival of C1Q+ leukemia cells under chemotherapy stress. Thus, C1Q served as a marker for AML with adverse prognosis, orchestrating cancer infiltration pathways through communicating with fibroblasts and represents a compelling therapeutic target for EMI.

T cell acute lymphoblastic leukemia (T-ALL) is an aggressive hematological malignancy of T cell progenitors, known to be a heterogeneous disease in pediatric and adult patients. Here we attempted to better understand the disease at the molecular level based on the transcriptomic landscape of 707 T-ALL patients (510 pediatric, 190 adult patients, and 7 with unknown age; 599 from published cohorts and 108 newly investigated). Leveraging the information of gene expression enabled us to identify 10 subtypes (G1–G10), including the previously undescribed one characterized by GATA3 mutations, with GATA3R276Q capable of affecting lymphocyte development in zebrafish. Through associating with T cell differentiation stages, we found that high expression of LYL1/LMO2/SPI1/HOXA (G1–G6) might represent the early T cell progenitor, pro/precortical/cortical stage with a relatively high age of disease onset, and lymphoblasts with TLX3/TLX1 high expression (G7–G8) could be blocked at the cortical/postcortical stage, while those with high expression of NKX2-1/TAL1/LMO1 (G9–G10) might correspond to cortical/postcortical/mature stages of T cell development. Notably, adult patients harbored more cooperative mutations among epigenetic regulators, and genes involved in JAK-STAT and RAS signaling pathways, with 44% of patients aged 40 y or above in G1 bearing DNMT3A/IDH2 mutations usually seen in acute myeloid leukemia, suggesting the nature of mixed phenotype acute leukemia.

Chronic myeloid leukemia (CML) are initiated and sustained by self-renewing malignant CD34

Summary Background Anthracycline dose optimisation in the treatment of diffuse large B-cell lymphoma has rarely been tested. We aimed to find out whether R-CEOP70 was non-inferior to R-CHOP50 with less cardiotoxicity, and whether R-CEOP90 had a superior efficacy to R-CHOP50 or R-CEOP70 with acceptable toxic effects. Methods In this multicentre, phase 3, randomised, controlled study (NHL-001), patients with newly diagnosed diffuse large B-cell lymphoma or follicular lymphoma grade 3B were enrolled from 20 centres of the Multicenter Hematology–Oncology Programs Evaluation System in China. Young patients (16–60 years) were randomly assigned 1:1:1 (block size of six) to six courses of R-CHOP50, R-CEOP70, or R-CEOP90, and older patients (61–80 years) were assigned 1:1 (block size of four) to R-CHOP50 or R-CEOP70. Patients were randomly assigned using computer-assisted permuted-block randomisation. Investigators and patients were not masked to treatment assignment. In the R-CHOP50 group, patients were given rituximab 375 mg/m2 intravenously on day 0, cyclophosphamide 750 mg/m2, doxorubicin 50 mg/m2, and vincristine 1·4 mg/m2 (maximum dose 2 mg) intravenously on day 1, and prednisone 60 mg/m2 (maximum dose 100 mg) orally from day 1–5; in the R-CEOP70 group, epirubicin 70 mg/m2 replaced doxorubicin; and in the R-CEOP90 group, high dose epirubicin 90 mg/m2 replaced doxorubicin. All patients received two additional courses of rituximab 375 mg/m2 intravenously every 21 days. Consolidation radiotherapy was given to patients with bulky disease at diagnosis or residual disease at the end of treatment. The primary endpoint was 2-year progression-free survival. The non-inferiority margin for R-CEOP70 versus R-CHOP50 was defined by hazard ratio [HR] as the upper limit of its 95% CI being no greater than 1·50. Analysis of efficacy and safety were of the intention-to-treat population. This study is registered with ClinicalTrials.gov , number NCT01852435 . Findings From May 15, 2013, to March 16, 2016, a total of 648 patients were enrolled, including 404 (62%) young patients (R-CHOP50 [n=135], R-CEOP70 [n=134], or R-CEOP90 [n=135]), and 244 (38%) older patients (R-CHOP50 [n=122] or R-CEOP70 [n=122]). Four patients were excluded from the study for consent withdrawal and one patient for misdiagnosis before treatment. The 2-year progression-free survival in the R-CHOP50 group was 72·5% (95% CI 66·6–77·6) and in the R-CEOP70 group was 72·4% ([66·5–77·5]; HR 1·00 [0·73–1·38]; p=0·99). The non-inferiority was met and adverse events were similar between the two groups. Fewer patients in the R-CEOP70 group (14 [13%] of 110) presented with over 10% decrease in left ventricular ejection fraction (LVEF) than those in the R-CHOP50 group (31 [29%] of 108) at 3 years after remission. For young patients, the 2-year progression-free survival in the R-CEOP90 group was 88·8% (82·1–93·1) and was significantly improved compared with the R-CHOP50 group (75·9% [67·7–82·3]; 0·44 [0·25–0·76]; p=0·0047) and the R-CEOP70 group (77·4% [69·4–83·7%]; 0·49 [0·27–0·86]; p=0·017). Grade 3–4 neutropenia occurred more frequently in the R-CEOP90 group (97 [72%] of 134) than in the R-CHOP50 group (87 [65%] of 133) and R-CEOP70 group (84 [63%] of 133) in young patients but without further increase of clinically significant infections. Fewer patients in the R-CEOP70 group (7 [11%] of 66) and in the R-CEOP90 group (10 [13%] of 79) presented with more than 10% decrease in LVEF than those in the R-CHOP50 group (17 [26%] of 66) at 3 years after remission. Interpretation R-CEOP70 could serve as an alternative regimen to R-CHOP50 with mild long-term cardiotoxicity. Young patients with diffuse large B-cell lymphoma might benefit from high-dose epirubicin. Epirubicin is an alternative drug to doxorubicin in regular R-CHOP with mild long-term cardiotoxicity. Funding National Natural Science Foundation of China, National Key Research and Development Program, Shanghai Commission of Science and Technology, Shanghai Municipal Education Commission Gaofeng Clinical Medicine Grant Support, Multicenter Clinical Research Project by Shanghai Jiao Tong University School of Medicine, Clinical Research Plan of Shanghai Hospital Development Center, and Chang Jiang Scholars Program.

As all-trans retinoic acid (ATRA) and arsenic trioxide (ATO) are widely accepted in treating acute promyelocytic leukemia (APL), deescalating toxicity becomes a research hotspot. Here, we evaluated whether chemotherapy could be replaced or reduced by ATO in APL patients at different risks. After achieving complete remission with ATRA-ATO–based induction therapy, patients were randomized (1:1) into ATO and non-ATO groups for consolidation: ATRA-ATO versus ATRA–anthracycline for low-/intermediate-risk patients, or ATRA-ATO–anthracycline versus ATRA–anthracycline–cytarabine for high-risk patients. The primary end point was to assess disease-free survival (DFS) at 3 y by a noninferiority margin of –5%; 855 patients were enrolled with a median follow-up of 54.9 mo, and 658 of 755 patients could be evaluated at 3 y. In the ATO group, 96.1% (319/332) achieved 3-y DFS, compared to 92.6% (302/326) in the non-ATO group. The difference was 3.45% (95% CI –0.07 to 6.97), confirming noninferiority (P < 0.001). Using the Kaplan–Meier method, the estimated 7-y DFS was 95.7% (95% CI 93.6 to 97.9) in ATO and 92.6% (95% CI 89.8 to 95.4) in non-ATO groups (P = 0.066). Concerning secondary end points, the 7-y cumulative incidence of relapse (CIR) was significantly lower in ATO (2.2% [95% CI 1.1 to 4.2]) than in non-ATO group (6.1% [95% CI 3.9 to 9.5], P = 0.011). In addition, grade 3 to 4 hematological toxicities were significantly reduced in the ATO group during consolidation. Hence, ATRA-ATO in both chemotherapy-replacing and -reducing settings in consolidation is not inferior to ATRA–chemotherapy (https://www.clinicaltrials.gov/, NCT01987297).

RUNX1-ETO, the t(8;21)-derived fusion protein, is a recurrent somatic lesion detected in approximately 12% of de novo acute myeloid leukemia (AML) and up to 40% of M2 subtype AML at diagnosis. RUNX...

Genomic landscapes of 92 adult and 111 pediatric patients with B-cell acute lymphoblastic leukemia (B-ALL) were investigated using next-generation sequencing and copy number alteration analysis. Recurrent gene mutations and fusions were tested in an additional 87 adult and 93 pediatric patients. Among the 29 newly identified in-frame gene fusions, those involving MEF2D and ZNF384 were clinically relevant and were demonstrated to perturb B-cell differentiation, with EP300-ZNF384 inducing leukemia in mice. Eight gene expression subgroups associated with characteristic genetic abnormalities were identified, including leukemia with MEF2D and ZNF384 fusions in two distinct clusters. In subgroup G4 which was characterized by ERG deletion, DUX4-IGH fusion was detected in most cases. This comprehensive dataset allowed us to compare the features of molecular pathogenesis between adult and pediatric B-ALL and to identify signatures possibly related to the inferior outcome of adults to that of children. We found that, besides the known discrepancies in frequencies of prognostic markers, adult patients had more cooperative mutations and greater enrichment for alterations of epigenetic modifiers and genes linked to B-cell development, suggesting difference in the target cells of transformation between adult and pediatric patients and may explain in part the disparity in their responses to treatment., Highlights • The genomic landscapes of adult and pediatric B-ALL were defined by next-generation sequencing of patient samples. • MEF2D and ZNF384 fusions could perturb B-cell differentiation or induce leukemia in mice and exhibited clinical relevance. • Adult patients showed greater enrichment for alterations of genes linked to epigenetic modification and B-cell development. This study comprehensively addressed the genomic signatures of adult versus pediatric B-ALL. The identification of distinct MEF2D and ZNF384 fusions expands the existing knowledge about molecular subtypes of B-ALL in both age groups. RNA-seq data allowed most of the B-ALL cases to be clustered into 8 subgroups related to genetic abnormalities. Notably, adult patients have more cooperative sequence variation mutations than pediatric patients, especially in genes involved in epigenetic regulation and B-cell development. These findings may improve our understanding of leukemogenesis in B-ALL, leading to a more precise genetic classification and the further development of targeted therapy in this disease.

The 2-hydroxyglutarate (2-HG) has been reported to result from mutations of isocitrate dehydrogenase 1 and 2 (IDH1 and IDH2) genes and to function as an “oncometabolite.” To evaluate the clinical significance of serum 2-HG levels in hematologic malignancies, acute myeloid leukemia (AML) in particular, we analyzed this metabolite in distinct types of human leukemia and lymphoma and established the range of serum 2-HG in appropriate normal control individuals by using gas chromatograph–time-of-flight mass spectrometry. Aberrant serum 2-HG pattern was detected in the multicenter group of AML, with 62 of 367 (17%) patients having 2-HG levels above the cutoff value (2.01, log2-transformed from 4.03 μg/mL). IDH1/2 mutations occurred in 27 of 31 (87%) AML cases with very high 2-HG, but were observed only in 9 of 31 (29%) patients with moderately high 2-HG, suggesting other genetic or biochemical events may exist in causing 2-HG elevation. Indeed, glutamine-related metabolites exhibited a pattern in favor of 2-HG synthesis in the high 2-HG group. In AML patients with cytogenetically normal AML (n = 234), high 2-HG represented a negative prognostic factor in both overall survival and event-free survival. Univariate and multivariate analyses confirmed high serum 2-HG as a strong prognostic predictor independent of other clinical and molecular features. We also demonstrated distinct gene-expression/DNA methylation profiles in AML blasts with high 2-HG compared with those with normal ones, supporting a role that 2-HG plays in leukemogenesis.

To explore effect of all-trans retinoic acid(ATRA) on annexin Ⅱ expression in NB4 cells and to analyze the luciferase activity of annexinⅡ promoter in condition of ATRA-induced treatment.NB4 cells were cultured in vitro, the transcriptional or translational expression levels of Annexin Ⅱ in NB4 cells treated with 1 µmol/L ATRA at different time points were detected by RT-PCR or Western blot respectively. Annexin Ⅱ-promoter was constructed, the recombinant plasmids pGL4.15 -Annexin Ⅱ -promoter were transfected into NB4 cells with electroporation, and after being treated with 1 µmol/L ATRA for 24 hours the luciferase acttivity of Annexin Ⅱ promoter was determined by luciferase activity assay.The transcriptional expression of Annexin Ⅱ was down-regulated after 48 h. The translation expression of Annexin Ⅱ was slowly weakened after 24 h, and it was seriously reduced after 48 h. Further, Luciferase activity of AnnexinⅡ promoter in NB4 cells treated with 1 µmol/L ATRA was down-regulated, and showed a decreased tendency at indicated time points.All-trans retinoic acid can induce the down-regulation of AnnexinⅡ expression on the membrane of NB4 cells, and the activity of Annexin Ⅱpromoter is down-regulated too. This study provide a basis for further study of molecular mechanism.

The pyruvate kinase (PK) is a rate-limiting glycolytic enzyme catalyzing the dephosphorylation of phosphoenolpyruvate to pyruvate. M2 form of PK (PKM2) is expressed during embryogenesis and is the predominant form in tumors of different types. In contrast to the essential role of PKM2 in solid tumors, much less is known about the effects of PKM2 in hematopoietic cells and the development of leukemia. Here we found that PKM2 is modified by small ubiquitin-like modifier 1(SUMO1), which can be reduced by a SUMO1-specific protease SENP1 in hematopoietic cells. SUMOylation induced nuclear localization and conformation change from tetramer to dimer of PKM2. Importantly, SUMOylation of PKM2 is prevalent in a variety of leukemic cell lines as well as primary samples from patients with hematologic malignancies. In consistency, predominant nuclear localization and dimeric forms of PKM2 in leukemic cells were observed. Using in vitro SUMOylation reaction-coupled liquid chromatography-mass spectrometry/mass spectrometry (LC-MS/MS), we identified K270 lysine residue of PKM2 as the SUMOylation target. Replacement of endogenous PKM2 with mutant PKM2K270 showed a significant shift of PKM2 from tetramer to dimer. To investigate the potential leukemogenic effect of PKM2 SUMOylation, murine hematopoietic progenitor 32D clone 3 (32Dcl3) transfectants expressing wild type(WT) or mutant PKM2K270 were generated and G-CSF-induced differentiation was evaluated by morphology appearance and expression of myeloid associated surface markers CD11b and Gr-1. The results showed that expression of WT PKM2 but not mutant PKM2K270 significantly blocked myeloid differentiation. Further investigations revealed that SUMO1 modification of PKM2 at K270 is essential in mediating the interaction between PKM2 and Runt-related transcription factor 1(RUNX1), a master transcriptional factor implicated in the differentiation of hematopoietic cells. This interaction led to a downregulation of RUNX1 during G-CSF-induced myeloid differentiation of 32D cells, which could be abrogated by expression of mutant PKM2K270. Collectively, these data indicated that SUMOylated PKM2 blocks myeloid differentiation through suppressing RUNX1. These findings reveal a novel nonmetabolic function of PKM2 in modulating myeloid differentiation and highlight the critical role of SUMOylation in leukemogenesis. Disclosures No relevant conflicts of interest to declare.

Natural-killer/T cell lymphoma (NKTCL) is a malignant proliferation of CD56+/cytoCD3+ lymphocytes and constitutes a heterogeneous group of aggressive lymphoma prevalent in Asian and South American populations. NKTCL represents a distinct clinicopathologic entity of non-Hodgkin’s lymphoma, characterized by male predominance, strong association with Epstein-Barr virus (EBV) infection, prominent tissue necrosis and aggressive clinical course. However, molecular pathogenesis of NKTCL remains largely elusive. Here we identified somatic mutations by whole-exome sequencing in 25 NKTCL patients and extended validation through targeted sequencing in an additional 80 cases. Functional experiments including RNA unwinding test, colony forming assay, cell proliferation assay and gene expression profiling were also performed. Overall, 50.5% of NKTCL patients displayed somatic mutations of RNA helicase family, tumor suppressors (TP53 and MGA), and/or epigenetic modifiers (MLL2, ARID1A, EP300 and ASXL3). Recurrent mutations were most frequently discovered in RNA helicase gene DDX3X (21/105 cases, 20.0%). Mutations of DDX3X were seldom overlapped with those of TP53. Functionally, DDX3X mutants exhibited reduced RNA unwinding activity and enhanced cell proliferation. Similar stimulatory effect on cell proliferation was observed in cells transfected with specific siRNA targeting DDX3X. Gene expression profiling revealed an association of DDX3X mutations with activation of NF-kB and MAPK pathways. The clinical follow-up data showed that DDX3X-mutated patients presented a poor prognosis. Our work suggests the heterogeneity of gene mutational spectrum of NKTCL and provides a potential therapeutic target for relevant cases. Disclosures No relevant conflicts of interest to declare.

Acute myeloid leukemia (AML) is a group of hematological malignancies with high heterogeneity. There is an increasing need to improve the risk stratification of AML patients, including those with normal cytogenetics, using molecular biomarkers. Here, we report a metabolomics study that identified a distinct glucose metabolism signature with 400 AML patients and 446 healthy controls. The glucose metabolism signature comprises a panel of 6 serum metabolite markers, which demonstrated prognostic value in cytogenetically normal AML patients. We generated a prognosis risk score (PRS) with 6 metabolite markers for each patient using principal component analysis. A low PRS was able to predict patients with poor survival independently of well-established markers. We further compared the gene expression patterns of AML blast cells between low and high PRS groups, which correlated well to the metabolic pathways involving the 6 metabolite markers, with enhanced glycolysis and tricarboxylic [corrected] acid cycle at gene expression level in low PRS group. In vitro results demonstrated enhanced glycolysis contributed to decreased sensitivity to antileukemic agent arabinofuranosyl cytidine (Ara-C), whereas inhibition of glycolysis suppressed AML cell proliferation and potentiated cytotoxicity of Ara-C. Our study provides strong evidence for the use of serum metabolites and metabolic pathways as novel prognostic markers and potential therapeutic targets for AML.

To investigate the underlying mechanism and clinical significance of PU.1 down-expression in chronic myeloid leukemia (CML) patients.Different methylation status of PU.1 promoter region containing 20 CpG islands in normal individuals, CML chronic phase and blast crisis patients, complete cytogenetic remission patients after imatinib treatment, and blast crisis bone marrow K562 CML cells was detected by bisulfite sequencing. Semi-quantitative PCR was used to detect the PU.1 mRNA expression in normal controls, CML chronic phase and blast crisis patients, and blast crisis bone marrow K562 CML cells. Indirect immune fluorescence and Western blot were used to analyze the exprtession of PU.1 protein in normal individuals, CML chronic phase and blast crisis patients, and blast crisis bone marrow K562 CML cells.Aberrant methylation in the promoter region of transcription factor PU.1 was found in both CML chronic phase and blast crisis phase bone marrow cells, as well as in CML blast K562 cells. Down-expression of PU.1 mRNA and protein levels was found in above cells. No methylation in the promoter region of PU.1 was observed in normal individuals, and the PU.1 mRNA and protein expressions were not reduced at all. Furthermore, high methylation status of bone marrow cells was even observed in the CML patients who acquired complete cytogenetic remission.The results of our study indicate that the epigenetic modification of PU.1 in CML patients and K562 cell line might be responsible for the down-expression of PU.1. The data suggest that aberrant methylation of PU.1 plays a role in CML pathogenesis, therefore, it might serve as a useful biomarker and potential target in therapy for chronic myeloid leukemia.

This study was aimed to establish a stable subline of K562 cells (K562-HMGB1) overexpressing HMGB1 protein and K562-HMGB1 sublines served as control, so as to provide a basis for exploring the role of hmgb1 gene in occurrence and development of leukemia and their mechanism. Protein-coding gene of hmgb1 was amplified by PCR with cDNA as template, which was synthesized by reverse transcription from total RNA extracted from U937 cells. The PCR-amplified hmgb1 gene was ligated into PMD18-T vector (PMD18-T-HMGB1 vector), and then transformed into E. coli strain DH5α. DH5α containing PMD18-T-HMGB1 vector were grown on LB agar plate supplemented with 100 µg/ml ampicillin overnight. The single ampicillin-selected DH5α clone was picked for culturing overnight and then harvested for plasmid extraction. The extracted plasmid was characterized to contain hmgb1 gene digested with the desired restriction enzymes of KpnI/XhoI. The correctness of hmgb1 sequence was confirmed with DNA sequencing. The insert of hmgb1 gene contained in PMD18-T-HMGB1 vector was cut out with restriction enzymes of KpnI/XhoI and then ligated into eukaryotic expression vector pcDNA3.1 to form pcDNA3.1-HMGB1 vector. 10µg of pcDNA3.1-HMGB1 or pcDNA3.1 plasmid was separately electroporated into K562 cells. At 48 hours after electroporation the cells were cultured with G418 at a final concentration of 800 µg/ml for over 2 weeks. Finally stably transfected sublines of K562 cells containing hmgb1 gene (K562-HMGB1), and of K562 containing pcDNA3.1 vector (K562-pcDNA3.1) served as a control, were obtained. The transcriptional or translational expression of hmgb1 gene was detected with RT-PCR or Western blot, respectively, to testify transfected efficiency and validity of stable subline of K562-HMGB1. The results indicated that the eukaryotic expression vector pcDNA3.1-HMGB1 plasmid was successfully constructed and was electroporated into K562 cells. The transcriptional or translational expression of hmgb1 gene in the stable subline of K562 cells containing hmgb1 gene was overexpressed. It indicated that stable subline of K562-HMGB1 cells was successfully established. It is concluded that the stable sublines of K562-HMGB1 cells or K562-pcDNA3.1 cells are successfully established, which provides a basis for exploring the roles and mechanisms of hmgb1 gene in leukemogenesis and development of leukemia.

Recently, the incidence of non-Hodgkin's lymphoma (NHL) is increasing, in which most are aggressive. It is limited for promoting the efficacy of conventional chemotherapy on NHL. In this study, mouse models of B-cell NHL were established for determining the efficacy and mechanisms of novel therapies.Diffuse large B-cell lymphoma SU-DHL-4 cells and Burkitt's lymphoma Daudi cells were injected into SCID (severe combined immunodeficiency) mice through the tail veins to observe the presentations and requirements for establishing mouse models. The Daudi-cell lymphoma mice were divided into control group and rituximab group, and the latter received treatment of rituximab. The tumor onset and survival time of mice were investigated.The median onset time of SU-DHL-4-cell lymphoma in SCID mice was 39.5 days, which presented cachexia, weight loss, erect hair, tardiness and enlarged tumors in the abdomen, rump or pelvic limb, but without tumor cell infiltration in the liver, spleen or bone marrow. The median onset time of Daudi-cell lymphoma in SCID mice was 30.5 days, which were characterized by paralyzed lower limbs and died about 9.5 days after paralysation. Most organs such as the liver, kidney, spleen and bone marrow were infiltrated by a number of Daudi cells. After treatment of rituximab, Daudi cells presented typical characteristics of apoptosis. The median paralysis time and survival time of mice with Daudi-cell lymphoma were significantly longer in rituximab group than in control group (52.5 days vs. 30.5 days, 76.5 days vs. 40 days, p0.05).SCID mouse models of B-cell lymphoma can be successfully established with either SU-DHL-4 cells or Daudi cells.

To investigate the association of the polymorphism in manganese superoxide dismutase (Mn-SOD) gene in Chinese type 2 diabetic patients with diabetic retinopathy.The Ala(-9)Val polymorphism of the Mn-SOD gene was determined by polymerase chain reaction and direct sequencing in 198 normal control subjects and 264 patients with type 2 diabetes mellitus, among them there were 139 non-diabetic retinopathy (NDR) subjects and 125 subjects with diabetic retinopathy (DR).There was no statistic difference in the frequencies of VV genotype and V allele between the type 2 diabetic group and the control group. However, the frequencies of VV genotype and V allele were significantly higher in the DR group than that in the NDR group (chi-square (2)=5.015, P=0.025; chi(2)=10.253, P=0.001),but there was no statistic difference in the NDR group compared with the control group (P0.05). The presence of V allele was shown to be associated with diabetic retinopathy (OR=1.96, 95%CI: 1.29-2.97). Furthermore, the subjects carrying the VV genotype had lower serum Mn-SOD level (P=0.025) and had a tendency of higher total serum SOD activity, but this tendency had no statistic significance.The Ala(-9)Val polymorphism in the Mn-SOD gene may not be related to the etiology of type 2 diabetes, but it seems to contribute to the development of diabetic retinopathy in Chinese type 2 diabetic patients.

Abstract 1433 BACKGROUND High levels of 2-HG in serum were found among AML cases with IDH1/IDH2 mutations. However, the impact of 2-HG levels on biological characteristics and clinical outcomes has not been systematically evaluated in a large cohort of AML patients. METHODS Serum 2-HG levels in 699 patients with hematologic malignancies, including 405 AML patients, were measured by GC-TOFMS. Clinical prognostic power of 2-HG and genetic risk factors associated with 2-HG were also evaluated in AML patients. RESULTS Among all patients with hematopoietic malignancies investigated, high serum 2-HG levels were observed only in AML group. 64 out of 405 (15.8%) AML patients displayed aberrantly higher levels (7.14±2.11μg/ml) of 2-HG. Compared to cases with normal 2-HG (3.65±1.02μg/ml), these patients showed a higher prevalence in AML-M0/M1 subtypes, a closer correlation with mutated IDH1/2 genes, a distinct gene expression profile and an aberrant DNA methylation status in bone marrow blasts. Additionally, the patients with high 2-HG were associated with higher serum levels of α-ketoglutarate (α-KG) and glutamate, suggesting presence of impaired metabolic pathway involved in the biosynthesis of 2-HG. Univariate and multivariate analyses indicate that high level of 2-HG is among the most significant negative indicators for complete remission (CR) rate, overall survival (OS) and event-free survival (EFS) either in all AML cases or in cases with cytogenetically normal AML (CN-AML). CONCLUSIONS Serum 2-HG is an independent prognostic marker in AML. Patients with high 2-HG had significantly higher frequency of IDH1/IDH2 gene mutations and unfavorable prognosis compared to those with normal 2-HG. Disclosures: No relevant conflicts of interest to declare.