Abstract
It is now well accepted that parental whole body irradiation causes transgenerational genome and epigenome instability in the offspring. The majority of human exposures to radiation, such as therapeutic and diagnostic irradiation, are localized and focused. The potential of localized body-part exposures to affect the germline and thus induce deleterious changes in the progeny has not been studied. To investigate whether or not the paternal cranial irradiation can exert deleterious changes in the protected germline, we studied the accumulation of DNA damage in the shielded testes tissue. Here we report that the localized paternal cranial irradiation results in a significant accumulation of unrepaired DNA lesions in sperm cells and leads to a profound epigenetic dysregulation in the unexposed progeny conceived a week after paternal exposure.
Publication types
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Research Support, Non-U.S. Gov't
MeSH terms
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Abnormalities, Radiation-Induced / genetics
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Abnormalities, Radiation-Induced / metabolism*
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Abnormalities, Radiation-Induced / physiopathology
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Animals
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Bone Marrow / pathology
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Bone Marrow / physiopathology
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Bone Marrow / radiation effects
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Bystander Effect / genetics
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Bystander Effect / radiation effects*
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Cell Proliferation / radiation effects
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Cranial Irradiation / adverse effects*
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DNA Damage / genetics
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DNA Damage / radiation effects*
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Epigenesis, Genetic / genetics
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Epigenesis, Genetic / radiation effects*
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Genomic Instability / genetics
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Genomic Instability / radiation effects
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Germ Cells / pathology
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Germ Cells / radiation effects*
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Male
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Mutation / genetics
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Rats
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Rats, Long-Evans
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Sex Factors
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Spermatocytes / pathology
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Spermatocytes / radiation effects
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Testis / pathology
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Testis / physiopathology
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Testis / radiation effects
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Thymus Gland / pathology
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Thymus Gland / physiopathology
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Thymus Gland / radiation effects