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Accessibility of different histone H3-binding domains of UHRF1 is allosterically regulated by phosphatidylinositol 5-phosphate.

Accessibility of different histone H3-binding domains of UHRF1 is allosterically regulated by phosphatidylinositol 5-phosphate.
Accessibility of different histone H3-binding domains of UHRF1 is allosterically regulated by phosphatidylinositol 5-phosphate.
UHRF1 is a multidomain protein crucially linking histone H3 modification states and DNA methylation. While the interaction properties of its specific domains are well characterized, little is known about the regulation of these functionalities. We show that UHRF1 exists in distinct active states, binding either unmodified H3 or the H3 lysine 9 trimethylation (H3K9me3) modification. A polybasic region (PBR) in the C terminus blocks interaction of a tandem tudor domain (TTD) with H3K9me3 by occupying an essential peptide-binding groove. In this state the plant homeodomain (PHD) mediates interaction with the extreme N terminus of the unmodified H3 tail. Binding of the phosphatidylinositol phosphate PI5P to the PBR of UHRF1 results in a conformational rearrangement of the domains, allowing the TTD to bind H3K9me3. Our results define an allosteric mechanism controlling heterochromatin association of an essential regulatory protein of epigenetic states and identify a functional role for enigmatic nuclear phosphatidylinositol phosphates.
1097-2765
905-919
Gelato, Kathy A.
428231ec-28ea-4148-be18-1de4afde4b1f
Tauber, Maria
96439926-65b0-404b-8ddf-23c69795b31b
Ong, Michelle S.
f3d1c54d-da78-4552-90a8-45457c4154be
Winter, Stefan
9735df20-413a-448f-abca-088bfba333db
Hiragami-Hamada, Kyoko
e9de4a1d-b674-4465-b925-e2e69ce55bfc
Sindlinger, Julia
0e81f859-435c-4303-b1f5-654c0061da20
Lemak, Alexander
bfe637f1-d59a-49a0-b479-529780936086
Bultsma, Yvette
21f6f52e-dd7f-4018-8741-e756d8697d2a
Houliston, Scott
39ae990b-d6cd-4480-8895-831ee8840dac
Schwarzer, Dirk
ccf8f23f-680c-45ac-abfd-5ac13e633ea2
Divecha, Nullin
5c2ad0f8-4ce7-405f-8a15-2fc4ab96d787
Arrowsmith, Cheryl H.
71012d14-b9d5-47d5-a154-5edefba067df
Fischle, Wolfgang
9bcbff33-3e0a-4e57-ab47-1a47d68897ca
Gelato, Kathy A.
428231ec-28ea-4148-be18-1de4afde4b1f
Tauber, Maria
96439926-65b0-404b-8ddf-23c69795b31b
Ong, Michelle S.
f3d1c54d-da78-4552-90a8-45457c4154be
Winter, Stefan
9735df20-413a-448f-abca-088bfba333db
Hiragami-Hamada, Kyoko
e9de4a1d-b674-4465-b925-e2e69ce55bfc
Sindlinger, Julia
0e81f859-435c-4303-b1f5-654c0061da20
Lemak, Alexander
bfe637f1-d59a-49a0-b479-529780936086
Bultsma, Yvette
21f6f52e-dd7f-4018-8741-e756d8697d2a
Houliston, Scott
39ae990b-d6cd-4480-8895-831ee8840dac
Schwarzer, Dirk
ccf8f23f-680c-45ac-abfd-5ac13e633ea2
Divecha, Nullin
5c2ad0f8-4ce7-405f-8a15-2fc4ab96d787
Arrowsmith, Cheryl H.
71012d14-b9d5-47d5-a154-5edefba067df
Fischle, Wolfgang
9bcbff33-3e0a-4e57-ab47-1a47d68897ca

Gelato, Kathy A., Tauber, Maria, Ong, Michelle S., Winter, Stefan, Hiragami-Hamada, Kyoko, Sindlinger, Julia, Lemak, Alexander, Bultsma, Yvette, Houliston, Scott, Schwarzer, Dirk, Divecha, Nullin, Arrowsmith, Cheryl H. and Fischle, Wolfgang (2014) Accessibility of different histone H3-binding domains of UHRF1 is allosterically regulated by phosphatidylinositol 5-phosphate. Molecular Cell, 54 (6), 905-919. (doi:10.1016/j.molcel.2014.04.004). (PMID:24950375)

Record type: Article

Abstract

UHRF1 is a multidomain protein crucially linking histone H3 modification states and DNA methylation. While the interaction properties of its specific domains are well characterized, little is known about the regulation of these functionalities. We show that UHRF1 exists in distinct active states, binding either unmodified H3 or the H3 lysine 9 trimethylation (H3K9me3) modification. A polybasic region (PBR) in the C terminus blocks interaction of a tandem tudor domain (TTD) with H3K9me3 by occupying an essential peptide-binding groove. In this state the plant homeodomain (PHD) mediates interaction with the extreme N terminus of the unmodified H3 tail. Binding of the phosphatidylinositol phosphate PI5P to the PBR of UHRF1 results in a conformational rearrangement of the domains, allowing the TTD to bind H3K9me3. Our results define an allosteric mechanism controlling heterochromatin association of an essential regulatory protein of epigenetic states and identify a functional role for enigmatic nuclear phosphatidylinositol phosphates.

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Accepted/In Press date: 2 April 2014
e-pub ahead of print date: 8 May 2014
Published date: 19 June 2014
Organisations: Molecular and Cellular

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Local EPrints ID: 372336
URI: http://eprints.soton.ac.uk/id/eprint/372336
ISSN: 1097-2765
PURE UUID: 518a60ed-8fd2-4d20-87f5-20f80a713739

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Date deposited: 10 Dec 2014 12:26
Last modified: 14 Mar 2024 18:35

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Contributors

Author: Kathy A. Gelato
Author: Maria Tauber
Author: Michelle S. Ong
Author: Stefan Winter
Author: Kyoko Hiragami-Hamada
Author: Julia Sindlinger
Author: Alexander Lemak
Author: Yvette Bultsma
Author: Scott Houliston
Author: Dirk Schwarzer
Author: Nullin Divecha
Author: Cheryl H. Arrowsmith
Author: Wolfgang Fischle

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