2020
DOI: 10.3390/genes11101162
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Origins and Consequences of Chromosomal Instability: From Cellular Adaptation to Genome Chaos-Mediated System Survival

Abstract: When discussing chromosomal instability, most of the literature focuses on the characterization of individual molecular mechanisms. These studies search for genomic and environmental causes and consequences of chromosomal instability in cancer, aiming to identify key triggering factors useful to control chromosomal instability and apply this knowledge in the clinic. Since cancer is a phenomenon of new system emergence from normal tissue driven by somatic evolution, such studies should be done in the context of… Show more

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Cited by 33 publications
(32 citation statements)
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References 82 publications
(136 reference statements)
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“…The two-phase cancer evolutionary model mentioned at the beginning, which combines the phase of a genome mediated, punctuated cellular macro-evolution and a subsequent phase of a gene mediated stepwise micro-evolution, can of course also serve to describe and explain the relationship between “seed and soil”. First, the punctuated macro-evolution phase leads (by chromosomal chaos—chromosomal re-organisation [ 4 ]) to the generation of new genomes and thus “new” cell species of great heterogeneity [ 6 ] with different metastatic properties (seed). Subsequently, the stepwise micro-evolution phase allows the growth of suitable tumour cell populations to metastases only in interaction with suitable host organ/tissue (soil).…”
Section: Seed and Soil Mechanismmentioning
confidence: 99%
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“…The two-phase cancer evolutionary model mentioned at the beginning, which combines the phase of a genome mediated, punctuated cellular macro-evolution and a subsequent phase of a gene mediated stepwise micro-evolution, can of course also serve to describe and explain the relationship between “seed and soil”. First, the punctuated macro-evolution phase leads (by chromosomal chaos—chromosomal re-organisation [ 4 ]) to the generation of new genomes and thus “new” cell species of great heterogeneity [ 6 ] with different metastatic properties (seed). Subsequently, the stepwise micro-evolution phase allows the growth of suitable tumour cell populations to metastases only in interaction with suitable host organ/tissue (soil).…”
Section: Seed and Soil Mechanismmentioning
confidence: 99%
“…Genetics thus provides for larger or smaller variations in living beings and the environment for the selection of the best adapted organisms. Malignant tumours—i.e., newly emerged cell clones that are genetically in some aspects different from the organism of origin and independent of its control mechanisms—can also be regarded as “new organisms” within an organism in a somewhat exaggerated way [ 1 , 2 , 3 , 4 , 5 , 6 ]. It is therefore not surprising that both mechanisms also play an important role in the metastasis behaviour of carcinomas.…”
Section: Introductionmentioning
confidence: 99%
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“…When comparing the findings between models for stable aneuploidy and ongoing CIN (the latter extensively discussed elsewhere [28,29]), it appears that similar pathways are deregulated. However, mapping the consequences for ongoing CIN is complicated by the intrinsically heterogenous nature of the models.…”
Section: Models For Ongoing Chromosomal Instabilitymentioning
confidence: 99%
“…In fact, as shown in Figure 4 , in FA cells, CIN constantly generates cells with different karyotypes due to non-clonal chromosomal alterations. These gross changes in the karyotype are important, since each cell has a specific genome reorganization that generates a new genome system [ 117 ].…”
Section: Clinical Consequences Of Fa/brca Pathway Failurementioning
confidence: 99%