Abstract
Diffuse large B-cell lymphoma (DLBCL) is the most common non-hodgkin lymphoma. It is subdivided into two molecular subtypes called germinal center B cell-like (GCB) and Activated B cell-like (ABC), deriving from different stages of B-cell differentiation. Recent studies have shown that ABC DLBCLs, which are associated with inferior survival, could benefit from new therapies targeting the NFkB pathway. Unfortunately, gene expression profiling methods to distinguish these lymphomas are not available in routine diagnosis and alternative immunohistochemical algorithms are often considered poorly reproducible. To circumvent these limitations we have developed a simple assay which allows a rapid and efficient classification of these tumours. By comparing gene expression data from the literature and from our own studies, we established a 10 genes expression signature which discriminates ABC from GCB cases (ABC: IRF4, FOXP1, IGHM, TNFRSF13B, CCND2; GCB: LMO2, MYBL1, BCL6, NEK6, TNFRSF9). These genes were incorporated into a Reverse Transcriptase Multiplex Ligation-dependant Probe Amplification assay (RT-MLPA), together with cMYC and BCL2, whose co-expression was recently shown to be prognostic in these diseases, and the CCND1 and MS4A1 (encoding CD20) genes used as controls (Figure 1A-B). We next applied this assay on a training series of 50 cases previously identified as belonging to the ABC or GCB subtypes by gene expression profiling using the Wright's algorithm to construct a Bayesian predictor. Within this first series, this predictor classified 44 cases within the expected subtypes, 5 were considered unclassified and only one ABC case was misclassified. The efficiency of this predictor was next verified on an independent validation series of 50 cases, where 46 cases were classified within the expected subtype, 3 were considered unclassified and again only one ABC case was misclassified. To test the prognostic strength of this assay we next included 85 additional cases, to reach a total of 185 DLBCLs (Figure 1C). 141 of these tumours, all treated between 2001 and 2011 at the centre H. Becquerel, Rouen, France, by a combination of Rituximab and chemotherapy, were retained for this analysis. Within this series, the RT-MLPA predictor identified 49 GCB and 64 ABC DLBCLs, and 28 cases remained unclassified. As expected, ABC cases were significantly associated with a worst event free survival (EFS)(P=0.015) and showed a trend toward a lower overall survival (OS)(P=0.060). Univariate analysis confirmed that the expression of several individual genes within this signature is significantly associated with poor prognosis (LMO2 low: OS P=0.005; BCL6 low: OS P=0.012; IRF4 high: OS P=0.008; TNFRSF13B high: OS P=0.004). We could also verify that the double MYC+/BCL2+ signature is significantly associated with a worst outcome (OS P=0.012) and identified a group of patients with particularly poor prognosis within the ABC subtype (OS P=0.004). Finally, we could demonstrate the robustness of our assay by classifying correctly 12 DLBCLs (6 ABC and 6 GCB) starting from RNA extracted from paraffin embedded (FFPE) biopsies. In conclusion, our RT-MLPA assay is a rapid (it can be achieved in less than one day, and we repeatedly tested up to 40 patients in parallel), cheap (the cost of one test is less than 5 dollars), and efficient gene expression profiling method to discriminate ABC from GCB DLBCLs and to obtain important information on others prognosis markers. It does not require specific equipments (only one conventional PCR module and one capillary genetic analyser), can be achieved from FFPE samples, and could easily be transferred in many routine diagnosis laboratories.
Disclosures:
No relevant conflicts of interest to declare.
APETALA2 and APETALA3 Genes Expression Profiling on Floral Development of Teak (Tectona grandis Linn f.)
