scholarly journals Screening and identification of differentially expressed microRNAs in diffuse large B‑cell lymphoma based on microRNA microarray

2021 ◽  
Vol 22 (5) ◽  
Author(s):  
Hai-Xia Gao ◽  
Si-Jing Li ◽  
Meng-Bo Wang ◽  
Shu-Fang Yan ◽  
Wen-Li Cui ◽  
...  
Keyword(s):  
B Cell ◽  
Cell Lymphoma ◽  
B Cell Lymphoma ◽  
Differentially Expressed ◽  
Large B Cell Lymphoma ◽  
Screening And Identification ◽  
Microrna Microarray ◽  
Large B Cell

Genes and Proteins Associated with the Tumor Microenvironment Are Differentially Expressed in Cured Versus Primary Chemotherapy-Refractory Diffuse Large B-Cell Lymphoma.

Blood ◽  
2007 ◽  
Vol 110 (11) ◽  
pp. 3171-3171
Author(s):  
Johan Linderoth ◽  
Patrik Edén ◽  
Mats Ehinger ◽  
Jeanette Valcich ◽  
Mats Jerkeman ◽  
...  
Keyword(s):  
T Cells ◽  
Tumor Microenvironment ◽  
B Cell ◽  
Mhc Class I ◽  
Cell Lymphoma ◽  
B Cell Lymphoma ◽  
Differentially Expressed ◽  
Class I ◽  
Large B Cell Lymphoma ◽  
Large B Cell

Abstract Background: The aim of this study was to identify possible differences in gene expression profiles (GEP) between two clinically very different patient populations, cured versus primary chemotherapy-refractory diffuse large B-cell lymphoma (DLBCL). Material and methods: Tumor samples from 37 patients with de novo DLBCL, stage II-IV, either in continuous primary complete remission (n=24) or with progressive disease during primary treatment (n=13) were selected from a larger study cohort and examined with respect to GEP using spotted 55K oligonucleotide arrays. Formalin fixed paraffin-embedded tissue for immunohistochemical analysis was available in 33 of 37 cases, and was used for confirmation on protein level. Results: The top 86 genes with the greatest statistical ability of discriminating the two patient groups were chosen for further analysis. Seventy-nine were over-expressed in the cured cohort, many of them coding for proteins expressed in the tumor microenvironment: CD68, several proteolytic enzymes and proteins involved in remodelling of extra cellular matrix and inflammation. Furthermore, MHC class I molecules, CD3δ, NK transcript 4, and ICAM-1 were overexpressed indicating an enhanced immunological reaction. Immunohistochemistry showed that the frequency of cells expressing CD68, defining the macrophage population, was higher in the cured cohort and that expression of lysozyme, cathepsin D, UPAR, and ICAM-1, was mainly seen within the reactive cells. Tumor infiltrating CD8+ T-cells were more frequent within the cured cohort, corresponding to the increased MHC class I expression seen within this group. Conclusions: In DLBCL, genes coding for antigens present in the tumor microenvironment are differentially expressed in patients with cured vs. chemotherapy-refractory disease. Our findings suggest that a reactive microenvironment, including tumor infiltrating T-cells and macrophages, may have impact on outcome of chemotherapy in DLBCL.

Micro-RNA Expression Profile Reveals MiR-222 As a Potential Biomarker For EBV-Positive Diffuse Large B-Cell Lymphoma

Blood ◽  
2013 ◽  
Vol 122 (21) ◽  
pp. 4269-4269 ◽  
Author(s):  
Tathiana Azevedo de Andrade ◽  
Adriane Feijo Evangelista ◽  
Natalia Morais Borges ◽  
Antonio Hugo Froes Campos ◽  
Claudia Camillo ◽  
...  
Keyword(s):  
Pilot Study ◽  
B Cell ◽  
Real Time ◽  
Real Time Pcr ◽  
Cell Lymphoma ◽  
B Cell Lymphoma ◽  
Differentially Expressed ◽  
World Health ◽  
Large B Cell Lymphoma ◽  
Large B Cell

Abstract Background EBV+ diffuse large B-cell lymphoma of the elderly (EBV+DLBCLe) is considered a provisional entity in the latest World Health Organization classification. It affects individuals older than 50 years without prior documented immunodeficiency.This disorder has unfavorable clinical course even after the advent of immunotherapy associated to anthracycline-based chemotherapy. It is linked to Epstein-Barr virus and the physiopathology is related to the presence of the virus itself, senescence and immunological deterioration. Currently there is not a characteristic pattern of expression of microRNAs in EBV+DLBCLe. Aims To characterize a signature profile for this new entity and to explore microRNAs as biomarkers and potential alternative therapeutic targets for EBV+DLBCLe. Methods 124 cases of patients of DLBCL were treated at Hospital Sao Paulo UNIFESP/EPM between 2000 to 2010 and had paraffin blocks available for immunohistochemical and molecular analyses. Seventy-one of 124 patients were more than 50 years and were potential candidates to be considered EBV+DLBCLe (pilot study). In situ hybridization was used for EBV detection (EBER1, Invitrogen) in a tissue microarray slide. Total RNA was obtained from tumor slides using Recover All Total Nucleic Acid Isolation kit (Applied Biosystems). We obtained cDNAs using Megaplex Pools for microRNA Expression (Applied Biosystems). The cDNA was inserted into two platforms containing 384 human microRNA each (Taqman Low Density Arrays) on 7900 Real Time PCR Systems (Applied Biosystems). Data analyses were made in mathematical-statistical environment “R”. The normalization method 2-deltaCt was performed using the endogenous RNU48, and it was identified as the most stable among samples by software Normfinder. It was also used RNU6 recommended by the manufacturer, in a comparative way. MicroRNAs differentially expressed in EBV+ group compared to EBV negative were identified by means of nonparametric tests rank products (RankProd) and Wilcoxon rank-sum (R-Stats). We considered differentially expressed microRNAs which average fold change above or below 1.5.After, real-time quantitative PCR was performed through 7500 Real time PCR Systems (Applied Biosystems) using TaqMan Small RNA kit assays and normalized with RNU48. Results 8.5% of cases of DLBCL were considered EBV+DLBCLe after ISH for EBV. 53.1% of the pilot study were considered GCB and 43.9% non-GCB according to Hans et al. algorithm (2004); 73.7% were classified as worse prognosis (groups 3 and 4) according to Salles et. al(2011) model combining IPI and immunohistochemical markers (bcl-2 and Ki67).We selected four of EBV+ and four of EBV negative samples matched by age, gender, stage and IPI to be analyzed in the PCR platforms. We found 10 deregulated microRNAs among the two groups. However, only seven microRNAs achieved statistically significant differences and would be the start point of a microRNA signature profile proposal to be validated in a larger multicentric cohort (total of 29 EBV+DLBCLe versus 65 DLBCL). Among them let-7g, miR-126, miR-146a, miR-146b, miR-150 and miR-155 were overexpressed in EBV+DLBCLe comparing to EBV-negative DLBCL whereas miR-151 was underexpressed. After validation in 29 EBV+DLBCLe (including 23 new cases) and 65 EBV negative cases we confirmed overexpression of miR-126 in 75.8% (median 2.14 vs 0.14,p< 0.0001), miR-146a in 62% (median 1.94 vs 0.49, p = 0.0035) ,miR-146b in 51.7% (median 1.51 vs 0.11 , p< 0.0001),miR-150 in 96.5 % (median 20.54 vs 2.56,p< 0.0001) and miR-222 in 23,8% of cases (median 0.67 vs 0.08,p< 0.0001,Mann-Whitney) and also confirmed underexpression of miR-151 in 96% of EBV+DLBCL cases. Although miR-222 was overexpressed in ¼ of the cases, it showed high speficity (98%) and positive predictive value (83%), Area Under the Curve= 0.87774, when EBV+ when compared to EBV negative cases. Summary /Conclusion The merit of the present study is to propose a microRNA signature for a recently described disease and to highlight miR-222 as a possible biomarker and therapeutic target for EBV+DLBCLe. The main routes deregulated are NF-KappaB and PI3K-AKT pathway, being PTEN a target of the overexpressed miR-222. Thus, the findings suggest that antagomiRs for miR-222,that are being tested in some types of cancer, could be also used as adjuvant therapy to R-CHOP in EBV+DLBCL. (Supported by FAPESP 2010/17668-6). Disclosures: No relevant conflicts of interest to declare.

Global Profiling Of Outcome Associated Alternative Splicing Events and Gene Expression In Diffuse Large B-Cell Lymphoma

Blood ◽  
2013 ◽  
Vol 122 (21) ◽  
pp. 75-75
Author(s):  
Minna Taskinen ◽  
Ping Chen ◽  
Marja-Liisa Karjalainen-Lindsberg ◽  
Alejandra Cervera ◽  
Jan Delabie ◽  
...  
Keyword(s):  
Alternative Splicing ◽  
B Cell ◽  
Cell Lymphoma ◽  
B Cell Lymphoma ◽  
Good Prognosis ◽  
Differentially Expressed ◽  
High Dose ◽  
Large B Cell Lymphoma ◽  
Prognosis Group ◽  
Large B Cell

Abstract Background Alternative splicing (AS) increases dramatically the diversity of the proteome by allowing a single gene to generate multiple transcripts and functionally diverse protein isoforms. Although previous studies have provided evidence that AS is often deregulated in cancers, the role of AS events in diffuse large B-cell lymphoma (DLBCL) remains largely unexplored. Here, we design and apply a novel method to analyze the global prognostically significant mRNA and AS variation by comparing differentially expressed exons and splicing variants between diffuse large B-cell lymphoma (DLBCL) patients, who have relapsed (poor prognosis group) or remained in remission (good prognosis group) after chemoimmunotherapy. Design and methods We performed genome-wide exon array analysis on RNAs isolated from 38 tumor tissues from young (<65 years) DLBCL patients with high-risk (aaIPI>1) disease. The patients were treated in a Nordic phase II protocol with six courses of R-CHOEP-14 followed by systemic central nervous system prophylaxis with one course of high dose methotrexate and high dose cytarabine. At the time of the analysis, median follow up was 50 months, predicted 5-year progression free survival (PFS) 74% and overall survival (OS) 75%. To identify genes with differential expression or with differential splicing between patients with poor or good prognosis, a novel algorithm based on a splicing index was developed. Results With a criteria of p<0.05 and log2 fold change 0.6 we identified 233 differentially expressed genes (DEGs) between the poor and good prognosis subgroups. For the AS analysis we used criteria of p<0.01 and percent splicing index difference (DPSI) of 0.2, resulting in 589 exons (from 378 genes) with differential inclusion level between the groups. Kaplan-Meier analyses identified 118 DEGs and 311 AS genes as survival associated with p<0.05 on PFS time. Interestingly, AS index profile was able to separate poor and good prognosis groups better than differences at the mRNA level. Gene sets from gene and AS level analyses were further found to be enriched in different functional groups. For example, several DEGs targeted Jak-STAT signaling, antigen processing and presentation, and hematopoietic cell lineage pathways, while AS genes were enriched in ABC transporter and phosphatidylinositol signaling systems. Altogether 50% of AS-related exons were protein-coding, and domain prediction showed 33% of such exons to include a functional domain. For example, most of the AS events in ABC transporters occurred in transmembrane helix domains and were predicted to involve phosphorylation sites, which are the key players in signal transduction. PCR and 105 DLBCL samples subjected to RNA-seq from the Cancer Genome Characterization Initiative (CGCI) repository are used for validations. Conclusions AS index is a more potential discriminator than conventional gene profiling between good and bad prognosis patients in DLBCL, and may provide a new class of cancer biomarker candidates. Disclosures: No relevant conflicts of interest to declare.

scholarly journals Differentially Expressed Trfs in Relapsed & Refractory Diffuse Large B Cell Lymphoma and the Bioinformatic Analysis for Their Potential Clinical Use

Blood ◽  
2018 ◽  
Vol 132 (Supplement 1) ◽  
pp. 5121-5121
Author(s):  
Qingyuan Qu ◽  
Yujie Jiang ◽  
Ying Li ◽  
Yiqing Cai ◽  
Ya Zhang ◽  
...  
Keyword(s):  
Cell Proliferation ◽  
B Cell ◽  
Target Genes ◽  
Cell Lymphoma ◽  
B Cell Lymphoma ◽  
Differentially Expressed ◽  
Biological Processes ◽  
Potential Target ◽  
Large B Cell Lymphoma ◽  
Large B Cell

Abstract Introduction Diffuse large B-cell lymphoma (DLBCL) is an aggressive but potentially curable malignancy in some low-risk patients. However, patients with high-risk factors or diagnosed as some special subtypes often have a poor prognosis although they received intensive combine chemotherapy or bio-target treatment. The exact mechanism of the anti-chemotherapy is unknown and it may be related to multiple oncogene mutations and signal pathways. tRFs is reported stability in almost all types of cells and organisms ranging from humans to bacteria. They are highly conserved, tissue-specific and time-specific tRNA fragments and can be detected in body fluid. Their precise sequence structure located at the end of tRNA or nearby. The length of them has a close relationship with the nucleotide composition at cleavage junctions, indicating that the tRFs are derived from tRNA cleavage in a specific manner. tRFs is a group of abundant non-coding RNAs secondly only to miRNAs. It has been proved that tRFs participate in many biological processes including cell proliferation, viral reverse transcriptases activation, gene expression, RNA procession regulation, DNA damage response modulation and tumor suppression. In this study, we aimed to investigate the potential function of associated tRFs in patients with relapsed & refractory (R/R) DLBCL. Materials and Methods Peripheral blood mononuclear cells (PBMCs) were separated from patients with R/R DLBCL and control groups, respectively. Next-generation sequencing and quantitative real-time reverse transcription-PCR were used to determine the expression profiles of tRFs in the two groups. Two databases of tRFs, tRFs2Cancer and tRFdb were utilized to analyse the similarity and dissimilarity of homologous tRNA fragment. Results Among the sequences with significant difference value, ten tRFs were picked, four (sequence 1- sequence 4) were up-regulated and six (sequence 5- sequence 10) were down-regulated (Figure1). To investigate the content of the differentially expressed tRF in patients group, we performed quantitative PCR to verify three tRFs. The PCR result was consistent with the sequencing analysis. Combined with the results of qRT-PCR and database searching (Figure2,3), we finally chose three sequences (sequence 2, sequence 4 and sequence 10) for further study. With the help of TargetScan, miRanda and other target gene predicting tools, we identified the associated target genes for the three tRFs (sequence 2:497, sequence 10: 9114, sequence 4: 730). The regulatory relationship of sequence 4 is shown in figure 4, the color of each line corresponds to the chromosome which the tRNA comes from. Because sequence 10 has a large number of potential regulatory target genes and it is difficult to obtain satisfying results, we made a functional enrichment analysis for the other tRFs to get their potential regulatory genes. The results showed that the potential target genes of sequence 4 tend to be enriched in multiple ways, including plasma membrane-bounded cell projection morphogenesis, nervous system development, and sensory organ development, etc. The potential target genes of sequence 2 tend to be enriched in FCGR-dependent phagocytosis, Ras signaling pathway, and cellular component regulation(Figure 5). The results of protein interactions analysis showed that the potential regulatory target genes of sequence 4 and sequence 2 can be constructed to gene-protein interaction networks. In this network, several biological processes such as alternative splicing, endosomal transport, and endocytosis might play important roles in tumorigenesis(Figure 6). Conclusion In this study, we analyzed the differently expressed tRFs profiles in patients with R/R DLBCL and the results are consistent with the database data analysis. We also predicted the possible mechanism of the up- or down-regulated tRFs which might be used in clinical although they are unexploited yet. Up or down-regulated tRFs is common in many types of tumors. It is well known that knockdown of the overexpressed tRF may inhibit tumor cell proliferation and the recovery of the downregulated tRFs may reverse the sensitivity to chemotherapy. We hyperthesis that the associated tRFs can be used as fluid-based biomarkers for diagnosis and prognosis assessment. Future investigation on them may help to develop new methods to repair the disordered biological signaling pathways associated with the DLBCL. Disclosures No relevant conflicts of interest to declare.

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