Regulation of phosphatidylinositol-5-phosphate signaling by Pin1 determines sensitivity to oxidative stress
Regulation of phosphatidylinositol-5-phosphate signaling by Pin1 determines sensitivity to oxidative stress
Oxidative signaling and oxidative stress contribute to aging, cancer, and diseases resulting from neurodegeneration. Pin1 is a proline isomerase that recognizes phosphorylated substrates and regulates the localization and conformation of its targets. Pin1(-/-) mice show phenotypes associated with premature aging, yet mouse embryonic fibroblasts (MEFs) from these mice are resistant to hydrogen peroxide (H(2)O(2))-induced cell death. We found that the abundance of phosphatidylinositol-5-phosphate (PtdIns5P) was increased in response to H(2)O(2), an effect that was enhanced in Pin1(-/-) MEFs. Reduction of H(2)O(2)-induced PtdIns5P compromised cell viability in response to oxidative stress, suggesting that PtdIns5P contributed to the enhanced cell viability of Pin1(-/-) MEFs exposed to oxidative stress. The increased PtdIns5P in the Pin1(-/-) MEFs stimulated the expression of genes involved in defense against oxidative stress and reduced the accumulation of reactive oxygen species. Pin1 and PtdIns5P 4-kinases (PIP4Ks), enzymes that phosphorylate and thereby reduce the amount of PtdIns5P, interacted in a manner dependent on the phosphorylation of PIP4K. Although reintroduction of Pin1 into the Pin1(-/-) MEFs reduced the amount of PtdIns5P produced in response to H(2)O(2), in vitro assays indicated that the isomerase activity of Pin1 inhibited PIP4K activity. Whether this isomerise-mediated inhibition of PIP4K occurs in cells remains an open question, but the data suggest that the regulation of PIP4K by Pin1 may be complex.
p.ra86
Keune, Willem-Jan
b72d28ff-c2fa-4a86-bfa6-8452126ba844
Jones, David R.
47582c51-3751-4fc6-9355-444ccd33dc2b
Bultsma, Yvette
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Sommer, Lilly
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Zhou, Xiao Zhen
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Lu, Kun Ping
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Divecha, Nullin
5c2ad0f8-4ce7-405f-8a15-2fc4ab96d787
27 November 2012
Keune, Willem-Jan
b72d28ff-c2fa-4a86-bfa6-8452126ba844
Jones, David R.
47582c51-3751-4fc6-9355-444ccd33dc2b
Bultsma, Yvette
21f6f52e-dd7f-4018-8741-e756d8697d2a
Sommer, Lilly
a825a289-3310-4b46-a071-f1e94659ac1f
Zhou, Xiao Zhen
2068771c-e722-4ea8-98ea-49da601576a4
Lu, Kun Ping
05a1bcb8-2849-4df8-90fe-53412e323db4
Divecha, Nullin
5c2ad0f8-4ce7-405f-8a15-2fc4ab96d787
Keune, Willem-Jan, Jones, David R., Bultsma, Yvette, Sommer, Lilly, Zhou, Xiao Zhen, Lu, Kun Ping and Divecha, Nullin
(2012)
Regulation of phosphatidylinositol-5-phosphate signaling by Pin1 determines sensitivity to oxidative stress.
Science Signaling, 5 (252), .
(doi:10.1126/scisignal.2003223).
(PMID:23193159)
Abstract
Oxidative signaling and oxidative stress contribute to aging, cancer, and diseases resulting from neurodegeneration. Pin1 is a proline isomerase that recognizes phosphorylated substrates and regulates the localization and conformation of its targets. Pin1(-/-) mice show phenotypes associated with premature aging, yet mouse embryonic fibroblasts (MEFs) from these mice are resistant to hydrogen peroxide (H(2)O(2))-induced cell death. We found that the abundance of phosphatidylinositol-5-phosphate (PtdIns5P) was increased in response to H(2)O(2), an effect that was enhanced in Pin1(-/-) MEFs. Reduction of H(2)O(2)-induced PtdIns5P compromised cell viability in response to oxidative stress, suggesting that PtdIns5P contributed to the enhanced cell viability of Pin1(-/-) MEFs exposed to oxidative stress. The increased PtdIns5P in the Pin1(-/-) MEFs stimulated the expression of genes involved in defense against oxidative stress and reduced the accumulation of reactive oxygen species. Pin1 and PtdIns5P 4-kinases (PIP4Ks), enzymes that phosphorylate and thereby reduce the amount of PtdIns5P, interacted in a manner dependent on the phosphorylation of PIP4K. Although reintroduction of Pin1 into the Pin1(-/-) MEFs reduced the amount of PtdIns5P produced in response to H(2)O(2), in vitro assays indicated that the isomerase activity of Pin1 inhibited PIP4K activity. Whether this isomerise-mediated inhibition of PIP4K occurs in cells remains an open question, but the data suggest that the regulation of PIP4K by Pin1 may be complex.
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Published date: 27 November 2012
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Molecular and Cellular
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Local EPrints ID: 372333
URI: http://eprints.soton.ac.uk/id/eprint/372333
PURE UUID: aae6744f-7201-4d9a-b2a8-06042b96407b
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Date deposited: 10 Dec 2014 13:20
Last modified: 14 Mar 2024 18:34
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Author:
Willem-Jan Keune
Author:
David R. Jones
Author:
Yvette Bultsma
Author:
Lilly Sommer
Author:
Xiao Zhen Zhou
Author:
Kun Ping Lu
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