Paracrine regulation of melanocyte genomic stability: a focus on nucleotide excision repair

Stuart Gordon Jarrett; Katharine Marie Carter; John August D'Orazio

doi:10.1111/pcmr.12582

Paracrine regulation of melanocyte genomic stability: a focus on nucleotide excision repair

Stuart Gordon Jarrett
, Katharine Marie Carter
, John August D'Orazio

Producción científica: Review article › revisión exhaustiva

8 Citas (Scopus)

Resumen

UV radiation is a major environmental risk factor for the development of melanoma by causing DNA damage and mutations. Resistance to UV damage is largely determined by the capacity of melanocytes to respond to UV injury by repairing mutagenic photolesions. The nucleotide excision repair (NER) pathway is the major mechanism by which cells correct UV photodamage. This multistep process involves the basic steps of damage recognition, isolation, localized strand unwinding, assembly of a repair complex, excision of the damage-containing strand 3′ and 5′ to the photolesion, synthesis of a sequence-appropriate replacement strand, and finally ligation to restore continuity of genomic DNA. In melanocytes, the efficiency of NER is regulated by several hormonal pathways including the melanocortin and endothelin signaling pathways. Elucidating molecular mechanisms by which melanocyte DNA repair is regulated offers the possibility of developing novel melanoma-preventive strategies to reduce UV mutagenesis, especially in UV-sensitive melanoma-prone individuals.

Idioma original	English
Páginas (desde-hasta)	284-293
Número de páginas	10
Publicación	Pigment Cell and Melanoma Research
Volumen	30
N.º	3
DOI	https://doi.org/10.1111/pcmr.12582
Estado	Published - may 2017

Nota bibliográfica

Publisher Copyright:
© 2017 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd

Financiación

We are grateful for support from the National Cancer Institute (R01 CA131075), the Melanoma Research Alliance (MRA), and the Regina Drury Endowment for Pediatric Research. We also acknowledge the technical support of the Markey Research Communications Office and NCI Cancer Center Support Grant (P30 CA177558) of the Markey Cancer Center at the University of Kentucky.

Financiadores	Número del financiador
Markey Research Communications Office
Regina Drury Endowment for Pediatric Research
National Childhood Cancer Registry – National Cancer Institute	P30 CA177558, R01CA131075
Melanoma Research Alliance Foundation
University of Kentucky
University of Kentucky Markey Comprehensive Cancer Center

ASJC Scopus subject areas

Oncology
General Biochemistry, Genetics and Molecular Biology
Dermatology

Acceder al documento

10.1111/pcmr.12582

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abstract = "UV radiation is a major environmental risk factor for the development of melanoma by causing DNA damage and mutations. Resistance to UV damage is largely determined by the capacity of melanocytes to respond to UV injury by repairing mutagenic photolesions. The nucleotide excision repair (NER) pathway is the major mechanism by which cells correct UV photodamage. This multistep process involves the basic steps of damage recognition, isolation, localized strand unwinding, assembly of a repair complex, excision of the damage-containing strand 3′ and 5′ to the photolesion, synthesis of a sequence-appropriate replacement strand, and finally ligation to restore continuity of genomic DNA. In melanocytes, the efficiency of NER is regulated by several hormonal pathways including the melanocortin and endothelin signaling pathways. Elucidating molecular mechanisms by which melanocyte DNA repair is regulated offers the possibility of developing novel melanoma-preventive strategies to reduce UV mutagenesis, especially in UV-sensitive melanoma-prone individuals.",

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N2 - UV radiation is a major environmental risk factor for the development of melanoma by causing DNA damage and mutations. Resistance to UV damage is largely determined by the capacity of melanocytes to respond to UV injury by repairing mutagenic photolesions. The nucleotide excision repair (NER) pathway is the major mechanism by which cells correct UV photodamage. This multistep process involves the basic steps of damage recognition, isolation, localized strand unwinding, assembly of a repair complex, excision of the damage-containing strand 3′ and 5′ to the photolesion, synthesis of a sequence-appropriate replacement strand, and finally ligation to restore continuity of genomic DNA. In melanocytes, the efficiency of NER is regulated by several hormonal pathways including the melanocortin and endothelin signaling pathways. Elucidating molecular mechanisms by which melanocyte DNA repair is regulated offers the possibility of developing novel melanoma-preventive strategies to reduce UV mutagenesis, especially in UV-sensitive melanoma-prone individuals.

AB - UV radiation is a major environmental risk factor for the development of melanoma by causing DNA damage and mutations. Resistance to UV damage is largely determined by the capacity of melanocytes to respond to UV injury by repairing mutagenic photolesions. The nucleotide excision repair (NER) pathway is the major mechanism by which cells correct UV photodamage. This multistep process involves the basic steps of damage recognition, isolation, localized strand unwinding, assembly of a repair complex, excision of the damage-containing strand 3′ and 5′ to the photolesion, synthesis of a sequence-appropriate replacement strand, and finally ligation to restore continuity of genomic DNA. In melanocytes, the efficiency of NER is regulated by several hormonal pathways including the melanocortin and endothelin signaling pathways. Elucidating molecular mechanisms by which melanocyte DNA repair is regulated offers the possibility of developing novel melanoma-preventive strategies to reduce UV mutagenesis, especially in UV-sensitive melanoma-prone individuals.

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