Transmission of chromosomal instability after plutonium α-particle irradiation

Kadhim, Munira; Macdonald, Denise A.; Goodhead, Dudley T.; Lorimore, Sally A.; Marsden, S. J.; Wright, Esmond

doi:10.1038/355738a0

Cited by 559 publications

(252 citation statements)

References 9 publications

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“…The reason(s) for the discrepancy between the two studies is unclear. Kadhim et al (23) looked only at chromosomal aberrations. Such rearrangements are generally transient and result in cell death.…”

Section: Methodsmentioning

confidence: 99%

“…Some examples are delayed reproductive cell death in cells surviving X irradiation (6-9, 32, 40), delayed mutation in cells exposed to the alkylating agent ethyl methanesulfonate (44) or to X irradiation (7,32,40), and delayed chromosomal instability in cells surviving exposure to ionizing radiation (20,23,26,39). In all cases the cells initially survived exposure to the DNA damage and were capable of reproductive cell proliferation.…”

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confidence: 99%

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Delayed chromosomal instability induced by DNA damage.

Marder¹,

Morgan²

1993

Mol. Cell. Biol.

221

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DNA damage induced by ionizing radiation can result in gene mutation, gene amplification, chromosome rearrangements, cellular transformation, and cell death. Although many of these changes may be induced directly by the radiation, there is accumulating evidence for delayed genomic instability following X-ray exposure. We have investigated this phenomenon by studying delayed chromosomal instability in a hamsterhuman hybrid cell line by means of fluorescence in situ hybridization. We examined populations of metaphase cells several generations after expanding single-cell colonies that had survived 5 or 10 Gy of X rays. Delayed chromosomal instability, manifested as multiple rearrangements of human chromosome 4 in a background of hamster chromosomes, was observed in 29%o of colonies surviving 5 Gy and in 62% of colonies surviving 10 Gy. A correlation of delayed chromosomal instability with delayed reproductive cell death, manifested as reduced plating efficiency in surviving clones, suggests a role for chromosome rearrangements in cytotoxicity. There were small differences in chromosome destabilization and plating efficiencies between cells irradiated with 5 or

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Section: Methodsmentioning

confidence: 99%

mentioning

confidence: 99%

Delayed chromosomal instability induced by DNA damage.

Marder¹,

Morgan²

1993

Mol. Cell. Biol.

221

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“…For HZE nuclei such a fundamental question is complicated by what are the consequences of the early events that are already known to be different from X-rays (see Figure 3) and do they lead to an alien architecture on the voyage to malignancy? Tissue effects independent of DNA damage that have been associated with cancer initiation or progression include genomic instabilityP [64][65][66][67][68] P, extracellular matrix remodeling [69][70] , persistent inflammation [71][72] , and oxidative damage [73][74] . HZE nuclei will likely modify these responses, along with DNA changes, in ways distinct from other radiation types or carcinogens complicating our ability to estimate and mitigate risks.…”

Section: Cat and Mouse Game Or Little Green Men?mentioning

confidence: 99%

Heavy ion carcinogenesis and human space exploration

Durante¹,

Cucinotta²

2008

Nat Rev Cancer

522

324

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Prior to the human exploration of Mars or long duration stays on the Earth's moon, the risk of cancer and other diseases from space radiation must be accurately estimated and mitigated. Space radiation, comprised of energetic protons and heavy nuclei, has been show to produce distinct biological damage compared to radiation on Earth, leading to large uncertainties in the projection of cancer and other health risks, while obscuring evaluation of the effectiveness of possible countermeasures. Here, we describe how research in cancer radiobiology can support human missions to Mars and other planets. Introduction:

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“…Genomic instability refers to the appearance of delayed chromosome abnormalities, mutation or lethality in the progeny of irradiated cells seen with both highand low-LET radiation [70,71]. A recent study using low-energy alpha-particle beams indicates that genomic instability in vitro, as measured by the appearance of delayed chromosome aberrations, is as prevalent in neighbouring cells as in cells that received direct traversals of alpha-particles [72].…”

Section: Tissue Damage From Hze Ionsmentioning

confidence: 99%

Applications of amorphous track models in radiation biology

Cucinotta

Nikjoo

Goodhead

1999

Radiation and Environmental Biophysics

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The average or amorphous track model uses the response of a system to gamma-rays and the radial distribution of dose about an ion's path to describe survival and other cellular endpoints from proton, heavy ion, and neutron irradiation. This model has been used for over 30 years to successfully fit many radiobiology data sets. We review several extensions of this approach that address objections to the original model, and consider applications of interest in radiobiology and space radiation risk assessment. In the light of present views of important cellular targets, the role of target size as manifested through the relative contributions from ion-kill (intra-track) and gamma-kill (inter-track) remains a critical question in understanding the success of the amorphous track model. Several variations of the amorphous model are discussed, including ones that consider the radial distribution of event-sizes rather than average electron dose, damage clusters rather than multiple targets, and a role for repair or damage processing.

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Transmission of chromosomal instability after plutonium α-particle irradiation

Cited by 559 publications

References 9 publications

Delayed chromosomal instability induced by DNA damage.

Delayed chromosomal instability induced by DNA damage.

Heavy ion carcinogenesis and human space exploration

Applications of amorphous track models in radiation biology

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