Loss of A-type lamins and genomic instability

González-Suárez, Ignacio; Redwood, Abena B.; Gonzalo, Susana

doi:10.4161/cc.8.23.10092

Cited by 62 publications

(47 citation statements)

References 74 publications

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“…Lmna -/-mouse embryonic fibroblasts (MEFs) exhibited increased basal levels of γH2AX, aneuploidy, increased frequency of chromosome and chromatid breaks, and defects in telomere structure, length and function. 15,16 Interestingly, Lmna -/-MEFs were also characterized by defects in NHEJ of dysfunctional telomeres, an example of long-range DSBs processing. The role of A-type lamins in NHEJ of deprotected telomeres and the increased frequency of chromosomal breaks in Lmna -/-MEFs suggest that lamins deficiency might also hinder the ability of cells to repair DNA DSBs that arise during normal metabolic processes-replication fork stalling and generation of reactive oxygen species-or due to exogenous genotoxic insult to the cells.…”

Section: Resultsmentioning

confidence: 99%

“…In contrast to short-range DNA DSBs repair, the essential role of 53BP1 in long-range NHEJ has been clearly demonstrated. [35][36][37][38] Thus, we hypothesized that the previously reported defects in the processing of dysfunctional telomeres upon loss of A-type lamins 15,16 could be caused by the decrease in 53BP1 levels. To test this hypothesis, U2OS cells were retrovirally transduced with 53BP1 or an empty vector (EV) control followed by lentiviral transduction with a shRNA specific for depletion of A-type lamins (shLmna) or a shRNA control (shCtrl) (Fig.…”

Section: ©2 0 1 1 L a N D E S B I O S C I E N C E D O N O T D I S Tmentioning

confidence: 98%

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A dual role for A-type lamins in DNA double-strand break repair

Redwood¹,

Perkins²,

Vanderwaal³

et al. 2011

Cell Cycle

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Section: Resultsmentioning

confidence: 99%

Section: ©2 0 1 1 L a N D E S B I O S C I E N C E D O N O T D I S Tmentioning

confidence: 98%

A dual role for A-type lamins in DNA double-strand break repair

Redwood¹,

Perkins²,

Vanderwaal³

et al. 2011

Cell Cycle

Self Cite

114

150

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“…Having established that PC degeneration changes chromatin structure, we then wished to analyze whether this chromatin reorganization occurs at the nuclear periphery, a domain of the genome enriched in repressive marks (2,37). Double immunolabeling for lamin A/C, as a marker of nuclear lamina, and ␥H2AX revealed the typical organization of the nuclear envelope in control PCs in the absence of DNA damage (Fig.…”

Section: Resultsmentioning

confidence: 99%

Purkinje Cell Degeneration in pcd Mice Reveals Large Scale Chromatin Reorganization and Gene Silencing Linked to Defective DNA Repair

Baltanás

Casafont

Lafarga

et al. 2011

Journal of Biological Chemistry

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DNA repair protects neurons against spontaneous or diseaseassociated DNA damage. Dysfunctions of this mechanism underlie a growing list of neurodegenerative disorders. The Purkinje cell (PC) degeneration mutation causes the loss of nna1 expression and is associated with the postnatal degeneration of PCs. This PC degeneration dramatically affects nuclear architecture and provides an excellent model to elucidate the nuclear mechanisms involved in a whole array of neurodegenerative disorders. We used immunocytochemistry for histone variants and components of the DNA damage response, an in situ transcription assay, and in situ hybridization for telomeres to analyze changes in chromatin architecture and function. We demonstrate that the phosphorylation of H2AX, a DNA damage signal, and the trimethylation of the histone H4K20, a repressive mark, in extensive domains of genome are epigenetic hallmarks of chromatin in degenerating PCs. These histone modifications are associated with a large scale reorganization of chromatin, telomere clustering, and heterochromatin-induced gene silencing, all of them key factors in PC degeneration. Furthermore, ataxia telangiectasia mutated and 53BP1, two components of the DNA repair pathway, fail to be concentrated in the damaged chromatin compartments, even though the expression levels of their coding genes were slightly up-regulated. Although the mechanism by which Nna1 loss of function leads to PC neurodegeneration is undefined, the progressive accumulation of DNA damage in chromosome territories irreversibly compromises global gene transcription and seems to trigger PC degeneration and death.

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“…DNA repair proteins such as breast cancer type 1 susceptibility protein (BRCA1) and RAD51 are transcriptionally downregulated by pRband E2F4-mediated pathways Manju et al, 2006;Musich and Zou, 2009;Redwood et al, 2011). Detailed reviews of lamins and DNA repair have been published (Gonzalez-Suarez et al, 2009a;Warren and Shanahan, 2011).…”

Section: Dna Replication and Repairmentioning

confidence: 99%

“…Disruption of the nuclear lamina causes mislocalization of elongation factors, such as proliferating cell nuclear antigen (PCNA) and the replication factor complex (RFC) (Spann et al, 1997). In addition to affecting chromosomal organization and expression, lamin mutations can result in genomic instability by compromising DNA repair through long-range non-homologous endjoining (NHEJ) and homologous recombination (HR), and by affecting telomere structure and function (di Masi et al, 2008;Gonzalez-Suarez et al, 2009a;Gonzalez-Suarez et al, 2009b;Redwood et al, 2011). For example, lamin depletion prevents accumulation of p53-binding protein 1 (53BP1) at double-stranded DNA breaks (Redwood et al, 2011).…”

Section: Dna Replication and Repairmentioning

confidence: 99%