In this study we focused on determining the transcriptome differences between Waldenström's Macroglobulinemia (WM) and IgM Monoclonal Gammopathy of Undetermined Significance (IgM-MGUS) by gene expression profiling (GEP) considering all the different transcript isoforms of genes that map the human transcriptome (coding transcripts, non-coding transcripts). We performed the analysis on BM B cell clones (CD45+,CD38+,CD19+,LAIR-1-,CD27dim,IgM+,CD22dim,CD25+) from WM (n=21) and IgM-MGUS (n=13) patients. These populations were identified with an 8-colors panel by flow cytometry and successively isolated by cell sorting. GEP of WM vs. IgM-MGUS BM B cell clones was performed using Affymetrix Gene Chip HTA 2.0. Data was first pre-processed using Affymetrix Expression Console and then normalized using ComBat (Johnson et. al. Biostatistics2007) and quantile normalization. We investigated both differential expression using SAM test (Tusher et. al. Proc Natl Acad Sci USA2001) and differential variability using F-test to compare means and variances between groups, respectively. In particular, testing the variability is useful to investigate a heterogeneous disease like Waldenström's Macroglobulinemia as well as IgM-MGUS, since B clonal cells proliferation and growth are driven by different mutations acting as perturbations in different molecular pathways, and these perturbations vary from individual to individual. False Discovery Rate (FDR) p-values adjusted for multiple testing below 5% were considered significant (Storey J R Stat Soc 2002). "Genomic Regions Enrichment of Annotations Tool" (GREAT) (McLean t. al. Nat Biotechnol 2010) was used to annotate the selected probe sets and perform biological pathway enrichment analysis. We considered 67,529 probe sets for the analyses. There were no differentially expressed probe sets in means after the correction for multiple comparisons, whereas 446 probe sets showed differential variability between IgM-MGUS and WM samples. Figure 1 shows how the selected probe sets map on the human genome according to GREAT. Enrichment analysis performed on these 446 probe sets showed after correction for multiple testing (FDR threshold set at 5%), significant enrichment for apoptosis, B cell receptor signaling pathway, chemokine-signaling pathway, ERBB signaling pathway, PI3K-AKT signaling pathway and WNT signaling pathway. Of note, BCL2, RAF1, MAPK1, GRB2, GSK3B, NRG1, SOS1, WNT5A, NLK, PTK2B genes belonging to these pathways, demonstrated significant different expression variability. We found that IgM-MGUS showed significantly increased variability of expression of all the selected genes (a part from SOS1 and NLK) across patients. We could speculate that IgM-MGUS B cell clones showed increased expression variability in the identified genes in their developmental stage, indicating the likely presence of cells at different step of differentiation whereas the expression of the same genes was more stable in WM patients. In summary, we found that IgM-MGUS was characterized by higher variability in gene expression across patients, which could be related to higher intra-patient variability suggesting the possible link between expression variability and genetic heterogeneity. Important functions showing increased variability in IgM-MGUS compared to WM were related to apoptosis, B cell receptor signaling pathway, chemokine-signaling pathway, ERBB signaling pathway, PI3K-AKT signaling pathway and WNT signaling pathway. Larger datasets and clinical evolution of IgM-MGUS individuals would provide a deeper insight into the functional context of the pathways and the differential variable genes highlighted by the comparison between IgM-MGUS and WM.

Transcriptome Analysis Identified Significant Differences in Gene Expression Variability Between WM and IgM-MGUS BM B Cell Clones

Sanavia T;
2016-01-01

Abstract

In this study we focused on determining the transcriptome differences between Waldenström's Macroglobulinemia (WM) and IgM Monoclonal Gammopathy of Undetermined Significance (IgM-MGUS) by gene expression profiling (GEP) considering all the different transcript isoforms of genes that map the human transcriptome (coding transcripts, non-coding transcripts). We performed the analysis on BM B cell clones (CD45+,CD38+,CD19+,LAIR-1-,CD27dim,IgM+,CD22dim,CD25+) from WM (n=21) and IgM-MGUS (n=13) patients. These populations were identified with an 8-colors panel by flow cytometry and successively isolated by cell sorting. GEP of WM vs. IgM-MGUS BM B cell clones was performed using Affymetrix Gene Chip HTA 2.0. Data was first pre-processed using Affymetrix Expression Console and then normalized using ComBat (Johnson et. al. Biostatistics2007) and quantile normalization. We investigated both differential expression using SAM test (Tusher et. al. Proc Natl Acad Sci USA2001) and differential variability using F-test to compare means and variances between groups, respectively. In particular, testing the variability is useful to investigate a heterogeneous disease like Waldenström's Macroglobulinemia as well as IgM-MGUS, since B clonal cells proliferation and growth are driven by different mutations acting as perturbations in different molecular pathways, and these perturbations vary from individual to individual. False Discovery Rate (FDR) p-values adjusted for multiple testing below 5% were considered significant (Storey J R Stat Soc 2002). "Genomic Regions Enrichment of Annotations Tool" (GREAT) (McLean t. al. Nat Biotechnol 2010) was used to annotate the selected probe sets and perform biological pathway enrichment analysis. We considered 67,529 probe sets for the analyses. There were no differentially expressed probe sets in means after the correction for multiple comparisons, whereas 446 probe sets showed differential variability between IgM-MGUS and WM samples. Figure 1 shows how the selected probe sets map on the human genome according to GREAT. Enrichment analysis performed on these 446 probe sets showed after correction for multiple testing (FDR threshold set at 5%), significant enrichment for apoptosis, B cell receptor signaling pathway, chemokine-signaling pathway, ERBB signaling pathway, PI3K-AKT signaling pathway and WNT signaling pathway. Of note, BCL2, RAF1, MAPK1, GRB2, GSK3B, NRG1, SOS1, WNT5A, NLK, PTK2B genes belonging to these pathways, demonstrated significant different expression variability. We found that IgM-MGUS showed significantly increased variability of expression of all the selected genes (a part from SOS1 and NLK) across patients. We could speculate that IgM-MGUS B cell clones showed increased expression variability in the identified genes in their developmental stage, indicating the likely presence of cells at different step of differentiation whereas the expression of the same genes was more stable in WM patients. In summary, we found that IgM-MGUS was characterized by higher variability in gene expression across patients, which could be related to higher intra-patient variability suggesting the possible link between expression variability and genetic heterogeneity. Important functions showing increased variability in IgM-MGUS compared to WM were related to apoptosis, B cell receptor signaling pathway, chemokine-signaling pathway, ERBB signaling pathway, PI3K-AKT signaling pathway and WNT signaling pathway. Larger datasets and clinical evolution of IgM-MGUS individuals would provide a deeper insight into the functional context of the pathways and the differential variable genes highlighted by the comparison between IgM-MGUS and WM.
2016
58th Annual Meeting and Exposition of the American Society of Hematology
San Diego CA, USA
3-6 Dicembre 2016
128
22
5089
5089
Trojani A; Lodola M; Tedeschi A; Greco A; Di Camillo B; Sanavia T; Frustaci AM; Mazzucchelli M; Villa C; Boselli D; Morra E; Caroli R
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/1805991
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