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

“…This is particularly relevant as gene activation, function, and nuclear space are functionally linked (Solovei et al 2009). Nuclear remodeling occurs during early malignancy and sets the stage for neoplastic transformation Garini 2005, 2006;Gadji et al 2011Gadji et al , 2012.…”

Section: Myc and Nuclear Organizationmentioning

confidence: 99%

c-MYC-Induced Genomic Instability

Kuzyk

Mai

2014

Cold Spring Harbor Perspectives in Medicine

101

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MYC dysregulation initiates a dynamic process of genomic instability that is linked to tumor initiation. Early studies using MYC-carrying retroviruses showed that these viruses were potent transforming agents. Cell culture models followed that addressed the role of MYC in transformation. With the advent of MYC transgenic mice, it became obvious that MYC deregulation alone was sufficient to initiate B-cell neoplasia in mice. More than 70% of all tumors have some form of c-MYC gene dysregulation, which affects gene regulation, microRNA expression profiles, large genomic amplifications, and the overall organization of the nucleus. These changes set the stage for the dynamic genomic rearrangements that are associated with cellular transformation.

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“…We previously showed significant differences in telomeric profiles (i.e., in telomere signal intensity and number, the presence/absence of telomeric aggregates, and in the number of telomeres per nuclear volumes) in therapy-sensitive and therapy-resistant Hodgkin's lymphoma patients (24). These results demonstrated the prognostic value of three-dimensional (3D) telomere diagnostic imaging for glioblastoma patients (25), and suggested a 3D telomere dysfunction-based progression model leading to the progression of myelodysplastic syndromes to acute myeloid leukemias (26).…”

Section: Trb1mentioning

confidence: 78%

Three-Dimensional Telomere Dynamics in Follicular Thyroid Cancer

Wark

Danescu

Natarajan

et al. 2014

Thyroid

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Background: Over the last decade, annual incidence rates for thyroid cancer have been among the highest of all cancers in the Western world. However, the genomic mechanisms impacting thyroid carcinogenesis remain elusive. Methods: We employed an established mouse model of follicular thyroid cancer (FTC) with a homozygous proline to valine mutation (Thrb PV/PV ) in the thyroid receptor b1 (TRb1) and applied quantitative threedimensional (3D) telomere analysis to determine 3D telomeric profiles in Thrb PV/PV , Thrb PV/ + , and Thrbmouse thyrocytes before and after histological presentation of FTC.Results: Using quantitative fluorescent in situ hybridization (Q-FISH) and TeloViewÔ image analysis, we found altered telomeric signatures specifically in mutant mouse thyrocytes. As early as 1 month of age, Thrb PV/PV mouse thyrocytes showed more telomeres than normal and heterozygous age-matched counterparts. Importantly, at the very early age of 1 month, 3D telomeric profiles of Thrb PV/PV thyrocyte nuclei reveal genetic heterogeneity with several nuclei populations exhibiting different telomere numbers, suggestive of various degrees of aneuploidy within the same animal. This was detected exclusively in Thrb PV/PV mice well before the presentation of histological signs of thyroid carcinoma. Conclusions: We identified quantitative 3D telomere analysis as a novel tool for early detection and monitoring of thyrocyte chromosomal (in)stability. This technique has the potential to identify human patients at risk for developing thyroid carcinoma.

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

Cited by 43 publications

References 37 publications

Resolution of telomere associations by TRF1 cleavage in mouse embryonic stem cells

Resolution of telomere associations by TRF1 cleavage in mouse embryonic stem cells

c-MYC-Induced Genomic Instability

Three-Dimensional Telomere Dynamics in Follicular Thyroid Cancer

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