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Supplementary Figure 1 from Profiling Three-Dimensional Nuclear Telomeric Architecture of Myelodysplastic Syndromes and Acute Myeloid Leukemia Defines Patient Subgroups

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posted on 2023-03-31, 17:45 authored by Macoura Gadji, Julius Adebayo Awe, Prerana Rodrigues, Rajat Kumar, Donald S. Houston, Ludger Klewes, Tandakha Ndiaye Dièye, Eduardo Magalhães Rego, Roberto Falcão Passetto, Fábio Morato de Oliveira, Sabine Mai

PDF file, 203KB, Different subgroups according to 3D telomeric profiles and their proposed chronological evolution. Their different 3D telomere intensities are shown as: (Red bars) show the different cell populations as in figure 1C; (Red arrows) indicate the direction of telomere variations; (Black arrows) indicate the direction of progression from one subgroup to the other. All MDS patients were classified in subgroups with graphs (A to F, and I to K). However, AML patients were classified in subgroups with graphs (G, H, L to O).

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ARTICLE ABSTRACT

Purpose: Myelodysplastic syndromes (MDS) are a group of disorders characterized by cytopenias, with a propensity for evolution into acute myeloid leukemias (AML). This transformation is driven by genomic instability, but mechanisms remain unknown. Telomere dysfunction might generate genomic instability leading to cytopenias and disease progression.Experimental Design: We undertook a pilot study of 94 patients with MDS (56 patients) and AML (38 patients). The MDS cohort consisted of refractory cytopenia with multilineage dysplasia (32 cases), refractory anemia (12 cases), refractory anemia with excess of blasts (RAEB)1 (8 cases), RAEB2 (1 case), refractory anemia with ring sideroblasts (2 cases), and MDS with isolated del(5q) (1 case). The AML cohort was composed of AML-M4 (12 cases), AML-M2 (10 cases), AML-M5 (5 cases), AML-M0 (5 cases), AML-M1 (2 cases), AML-M4eo (1 case), and AML with multidysplasia-related changes (1 case). Three-dimensional quantitative FISH of telomeres was carried out on nuclei from bone marrow samples and analyzed using TeloView.Results: We defined three-dimensional nuclear telomeric profiles on the basis of telomere numbers, telomeric aggregates, telomere signal intensities, nuclear volumes, and nuclear telomere distribution. Using these parameters, we blindly subdivided the MDS patients into nine subgroups and the AML patients into six subgroups. Each of the parameters showed significant differences between MDS and AML. Combining all parameters revealed significant differences between all subgroups. Three-dimensional telomeric profiles are linked to the evolution of telomere dysfunction, defining a model of progression from MDS to AML.Conclusions: Our results show distinct three-dimensional telomeric profiles specific to patients with MDS and AML that help subgroup patients based on the severity of telomere dysfunction highlighted in the profiles. Clin Cancer Res; 18(12); 3293–304. ©2012 AACR.