Selenoprotein H is an essential regulator of redox homeostasis that cooperates with p53 in development and tumorigenesis

Cox, A.G.; Tsomides, A.; Kim, A.J.; Saunders, D.; Hwang, K.L.; Evason, K.J.; Heidel, J.; Brown, K.K.; Yuan, M.; Lien, E.C.; Lee, B.C.; Nissim, S.; Dickinson, B.; Chhangawala, S.; Chang, C.J.; Asara, J.M.; Houvras, Y.; Gladyshev, V.N.; Goessling, W.

Статья опубликована в высокорейтинговом журнале

Информация о цитировании статьи получена из Web of Science, Scopus
Статья опубликована в журнале из списка Web of Science и/или Scopus
Дата последнего поиска статьи во внешних источниках: 19 декабря 2017 г.

Авторы: Cox Andrew G., Tsomides Allison, Kim Andrew J., Saunders Diane, Hwang Katie L., Evason Kimberley J., Heidel Jerry, Brown Kristin K., Yuan Min, Lien Evan C., Lee Byung Cheon, Nissim Sahar, Dickinson Bryan, Chhangawala Sagar, Chang Christopher J., Asara John M., Houvras Yariv, Gladyshev Vadim N., Goessling Wolfram
Журнал: Proceedings of the National Academy of Sciences of the United States of America
Том: 113
Номер: 38
Год издания: 2016
Издательство: National Academy of Sciences
Местоположение издательства: United States
Первая страница: 5562
DOI: 10.1073/pnas.1600204113
Аннотация: Selenium, an essential micronutrient known for its cancer prevention properties, is incorporated into a class of selenocysteine-containing proteins (selenoproteins). Selenoprotein H (SepH) is a recently identified nucleolar oxidoreductase whose function is not well understood. Here we report that seph is an essential gene regulating organ development in zebrafish. Metabolite profiling by targeted LC-MS/MS demonstrated that SepH deficiency impairs redox balance by reducing the levels of ascorbate and methionine, while increasing methionine sulfoxide. Transcriptome analysis revealed that SepH deficiency induces an inflammatory response and activates the p53 pathway. Consequently, loss of seph renders larvae susceptible to oxidative stress and DNA damage. Finally, we demonstrate that seph interacts with p53 deficiency in adulthood to accelerate gastrointestinal tumor development. Overall, our findings establish that seph regulates redox homeostasis and suppresses DNA damage. We hypothesize that SepH deficiency may contribute to the increased cancer risk observed in cohorts with low selenium levels.
Добавил в систему: Гладышев Вадим Николаевич

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Selenoprotein H is an essential regulator of redox homeostasis that cooperates with p53 in development and tumorigenesisстатья