Age-related increases in DNA repair and antioxidant protection: A comparison of the Boyd Orr Cohort of elderly subjects with a younger population sample

doi:10.1093/ageing/afm107

Age and Ageing 2007 36(5):521-526; doi:10.1093/ageing/afm107

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Age-related increases in DNA repair and antioxidant protection: A comparison of the Boyd Orr Cohort of elderly subjects with a younger population sample

Vikki Humphreys¹^,2, Richard M. Martin³, Brian Ratcliffe¹, Susan Duthie², Sharon Wood², David Gunnell³ and Andrew R. Collins¹^,4^,

¹ The Robert Gordon University, St Andrew Street, Aberdeen AB25 1HG, UK
² Rowett Research Institute, Bucksburn, Aberdeen AB21 9SB, UK
³ Department of Social Medicine, University of Bristol, Canynge Hall, Whiteladies Road, Bristol BS8 2PR, UK
⁴ Department of Nutrition, Faculty of Medicine, University of Oslo, PB 1046 Blindern, 0316 Oslo, Norway

Address correspondence to: Andrew R. Collins. Email: a.r.collins{at}medisin.uio.no

Background One commonly held theory of ageing is that it iscaused by oxidative damage to critical molecules in the body,including proteins, lipids and nucleic acids. Accumulation ofoxidative DNA damage with age will occur if there is an increasein reactive oxygen species in the body, or a decline in antioxidantdefences, or a reduced efficiency of DNA repair.

Subjects and Methods Using the comet assay, we have measuredDNA breaks and oxidised purines in lymphocytes from subjectsof different age groups: 20–35 (n = 40), 63–70(n = 35), and 75–82 (n = 22). We alsomeasured the resistance of lymphocyte DNA to H₂O₂-induced oxidativedamage, and the repair activity of cell-free lymphocyte extractson a substrate containing 8-oxoguanine.

Results We found an increase in oxidative base damage in oldage, but this apparently does not result from deteriorationof either antioxidant defence or DNA repair. In fact, both ofthese tend to increase with age. There were few age-relateddifferences in plasma levels of dietary antioxidants: tocopherolsand retinol were higher in the older subjects, while lycopenewas highest in the youngest age group.

Conclusions It is possible, that in old age, antioxidant defencesand DNA repair are induced, in response to a higher level ofoxidative damage, as mitochondria become more leaky and releasemore reactive oxygen. It is equally possible that older people,as survivors, had relatively high levels of antioxidant defencesand DNA repair earlier in their lives, compared with those whodid not survive to such an age.

Keywords: DNA damage, DNA repair, antioxidants, Boyd Orr cohort, comet assay, elderly

Received 31 August 2006; accepted in revised form 16 May 2007.

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