Abstract
The discovery of DNA repair defects in human syndromes, initially in xeroderma pigmentosum (XP) but later in many others, led to striking observations on the association of molecular defects and patients' clinical phenotypes. For example, patients with syndromes resulting from defective nucleotide excision repair (NER) or translesion synthesis (TLS) present high levels of skin cancer in areas exposed to sunlight. However, some defects in NER also lead to more severe symptoms, such as developmental and neurological impairment and signs of premature aging. Skin cancer in XP patients is clearly associated with increased mutagenesis and genomic instability, reflecting the defective repair of DNA lesions. By analogy, more severe symptoms observed in NER-defective patients have also been associated with defective repair, likely involving cell death after transcription blockage of damaged templates. Endogenously induced DNA lesions, particularly through oxidative stress, have been identified as responsible for these severe pathologies. However, this association is not that clear and alternative explanations have been proposed. Despite high levels of exposure to intense sunlight, patients from tropical countries receive little attention or care, which likely also reflects the lack of understanding of how DNA damage causes cancer and premature aging.
Highlights
During evolution, the stability of genetic material plays a fundamental role in the maintenance of life
The highly increased mutagenesis induced by UV irradiation in xeroderma pigmentosum (XP) cells is well correlated with the high levels of skin cancer observed in XP patients for all XP complementation groups, including nucleotide excision repair (NER)-defective, and TLSdefective (Figure 4)
The results strongly suggest a role for CPDs, the main lesion induced by UVB (280-320 nm), in skin carcinogenesis, this type of lesion is generated after UVA (320-400 nm) irradiation, and other lesions induced by this spectrum of sunlight should be considered (Douki et al, 2003; Cadet et al, 2012; Schuch et al, 2013)
Summary
The stability of genetic material plays a fundamental role in the maintenance of life. The main clinical symptoms of XP patients include the high frequency of tumors in the exposed areas of skin, indicating a clear causative relationship between unrepaired DNA lesions, genetic instability (XP cells are highly mutable) and cancer.
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