DNA damage, mutations and genomic instability are established driving forces of cancer and other age-related diseases. Mutations in tumor suppressor genes and oncogenes are very frequently found in... Show moreDNA damage, mutations and genomic instability are established driving forces of cancer and other age-related diseases. Mutations in tumor suppressor genes and oncogenes are very frequently found in tumors and genomic instability is the most common enabling characteristic of cancer. Aging is also believed to be enabled, amongst others, by genomic instability. DNA repair pathways, like the nucleotide excision repair (NER) pathway and cell cycle control (e.g. p53-dependent) processes are therefore vital to organisms, since these processes counteract or prevent genomic instability, and are thought to underlie, when affected, aging and age-related diseases like cancer. To unravel the functions, mechanisms and pathways involved in the onset of aging and age-related diseases we have investigated several mouse models deficient in either DNA repair (NER) capacity (Chapter 3, 4), cell cycle control (p53) (Chapter 6) or both (Chapter 5), and compared this to a wild type situation (Chapter 2). The use of mouse models enabled us to investigate cancer and aging in a controlled environment, minimizing possible confounding factors. Additionally, the mouse models can be useful as an alternative tool to identify genotoxic and non-genotoxic carcinogens that can be harmful to the society and the environment (Chapter 5). Show less
With the ever-increasing life expectancies of people, the prevalence of aging-related diseases is also increasing. We studied a unique cohort of people; offspring of nonagenarian siblings with the... Show moreWith the ever-increasing life expectancies of people, the prevalence of aging-related diseases is also increasing. We studied a unique cohort of people; offspring of nonagenarian siblings with the propensity for longevity were also recruited and compared to their partners, representing the general population. The offspring (~60 year old) already show lower prevalence of cardiovascular disease and diabetes. In the thesis __Cellular stress in vitro and longevity on vivo__ it is reported how cells (dermal fibroblasts) derived from these offspring were compared with cells from their partners. It was shown that they react differenly in vitro under both non stressed and under conditions of oxidative stress. Future research is warranted to further elucidate the genes involved in these differences. Show less