Health impacts of low-dose ionizing radiation are significant in important fields such as
X-ray imaging, radiation therapy, nuclear power, and others. However, all existing and
potential applications are currently challenged by public concerns and regulatory
restrictions. We aimed to assess the validity of the linear no-threshold (LNT) model of
radiation damage, which is the basis of current regulation, and to assess the
justification for this regulation. We have conducted an extensive search in PubMed.
Special attention has been given to papers cited in comprehensive reviews of the United
States (2006) and French (2005) Academies of Sciences and in the United Nations Scientific
Committee on Atomic Radiation 2016 report. Epidemiological data provide essentially no
evidence for detrimental health effects below 100 mSv, and several studies suggest
beneficial (hormetic) effects. Equally significant, many studies with in vitro and in
animal models demonstrate that several mechanisms initiated by low-dose radiation have
beneficial effects. Overall, although probably not yet proven to be untrue, LNT has
certainly not been proven to be true. At this point, taking into account the high price
tag (in both economic and human terms) borne by the LNT-inspired regulation, there is
little doubt that the present regulatory burden should be reduced.
Reciprocal cross effects (i.e., differences between reciprocal hybrids that are developed by reversing the strains from which the dam and the sire are taken) are commonly used as a measure of sex-linkage or maternal effects. However, the papers reporting parental effects on life span of experimental animals are scarce. In order to investigate the potential of parent-of-origin effects for the longevity of hybrids, we determined the life spans of the inbred lines of Drosophila melanogaster [Oregon-R (OR), Canton-S (CS) and Uman (Um)] that differ significantly in longevity, as well as the life span of the progeny from the reciprocal crosses among them. The hybridization caused the increase in both flies' mean and maximum life span mainly shifting the survival curves upward proportionally at all ages. This resulted in the reduction in the Gompertz intercept (frailty) whereas the Gompertz slope (the rate of aging) was predominantly unchanged. Better-parent heterosis was observed in hybrids between OR and Um inbred lines and the extent of heterosis was more pronounced in hybrids between CS and Um inbred lines if long-lived parent was used as the female parent, and short-lived parent was used as the male parent in the crossing scheme. Such discrepancy in life span between reciprocal crosses may indicate that non-chromosomal factors are significantly contributing to a heterotic response. Our data are in line with the previous reports suggesting the involvement of non-genomic factors, particularly epigenetic events attributed to hybridization, in the manifestation of heterosis.
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