SPRTN protease-cleaved MRE11 decreases DNA repair and radiosensitises cancer cells

The human MRE11/RAD50/NBS1 (MRN) complex plays a crucial role in sensing and repairing DNA DSB. MRE11 possesses dual 3′−5′ exonuclease and endonuclease activity and forms the core of the multifunctional MRN complex. We previously identified a C-terminally truncated form of MRE11 (TR-MRE11) associate...

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Veröffentlicht in:	Cell death & disease Jg. 12; H. 2; S. 165 - 17
Hauptverfasser:	Na, Juri, Newman, Joseph A., Then, Chee Kin, Syed, Junetha, Vendrell, Iolanda, Torrecilla, Ignacio, Ellermann, Sophie, Ramadan, Kristijan, Fischer, Roman, Kiltie, Anne E.
Format:	Journal Article
Sprache:	Englisch
Veröffentlicht:	London Nature Publishing Group UK 08.02.2021 Springer Nature B.V Nature Publishing Group
Schlagworte:	13/106 13/2 13/31 13/44 13/89 14/34 631/337/1427 692/699/2768 82/58 82/80 Acid Anhydride Hydrolases - genetics Acid Anhydride Hydrolases - metabolism Antibodies Biochemistry Biomedical and Life Sciences Bladder cancer Cell Biology Cell Culture Cell Cycle Proteins - genetics Cell Cycle Proteins - metabolism Cell Line, Tumor Cell Proliferation - radiation effects Deoxyribonucleic acid DNA DNA Damage DNA Repair DNA-Binding Proteins - genetics DNA-Binding Proteins - metabolism Double-strand break repair Endonuclease Exonuclease G2 Phase Cell Cycle Checkpoints - radiation effects HEK293 Cells Humans Immunohistochemistry Immunology Life Sciences Mass spectroscopy MRE11 Homologue Protein - genetics MRE11 Homologue Protein - metabolism MRE11 protein Nuclear Proteins - genetics Nuclear Proteins - metabolism Nuclease Post-translation Proteinase Proteolysis Radiation therapy Radiation Tolerance Radiosensitivity Site-directed mutagenesis Substrate Specificity Urinary Bladder Neoplasms - enzymology Urinary Bladder Neoplasms - genetics Urinary Bladder Neoplasms - pathology Urinary Bladder Neoplasms - radiotherapy
ISSN:	2041-4889, 2041-4889
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Abstract	The human MRE11/RAD50/NBS1 (MRN) complex plays a crucial role in sensing and repairing DNA DSB. MRE11 possesses dual 3′−5′ exonuclease and endonuclease activity and forms the core of the multifunctional MRN complex. We previously identified a C-terminally truncated form of MRE11 (TR-MRE11) associated with post-translational MRE11 degradation. Here we identified SPRTN as the essential protease for the formation of TR-MRE11 and characterised the role of this MRE11 form in its DNA damage response (DDR). Using tandem mass spectrometry and site-directed mutagenesis, the SPRTN-dependent cleavage site for MRE11 was identified between 559 and 580 amino acids. Despite the intact interaction of TR-MRE11 with its constitutive core complex proteins RAD50 and NBS1, both nuclease activities of truncated MRE11 were dramatically reduced due to its deficient binding to DNA. Furthermore, lack of the MRE11 C-terminal decreased HR repair efficiency, very likely due to abolished recruitment of TR-MRE11 to the sites of DNA damage, which consequently led to increased cellular radiosensitivity. The presence of this DNA repair-defective TR-MRE11 could explain our previous finding that the high MRE11 protein expression by immunohistochemistry correlates with improved survival following radical radiotherapy in bladder cancer patients.
AbstractList	The human MRE11/RAD50/NBS1 (MRN) complex plays a crucial role in sensing and repairing DNA DSB. MRE11 possesses dual 3'-5' exonuclease and endonuclease activity and forms the core of the multifunctional MRN complex. We previously identified a C-terminally truncated form of MRE11 (TR-MRE11) associated with post-translational MRE11 degradation. Here we identified SPRTN as the essential protease for the formation of TR-MRE11 and characterised the role of this MRE11 form in its DNA damage response (DDR). Using tandem mass spectrometry and site-directed mutagenesis, the SPRTN-dependent cleavage site for MRE11 was identified between 559 and 580 amino acids. Despite the intact interaction of TR-MRE11 with its constitutive core complex proteins RAD50 and NBS1, both nuclease activities of truncated MRE11 were dramatically reduced due to its deficient binding to DNA. Furthermore, lack of the MRE11 C-terminal decreased HR repair efficiency, very likely due to abolished recruitment of TR-MRE11 to the sites of DNA damage, which consequently led to increased cellular radiosensitivity. The presence of this DNA repair-defective TR-MRE11 could explain our previous finding that the high MRE11 protein expression by immunohistochemistry correlates with improved survival following radical radiotherapy in bladder cancer patients.The human MRE11/RAD50/NBS1 (MRN) complex plays a crucial role in sensing and repairing DNA DSB. MRE11 possesses dual 3'-5' exonuclease and endonuclease activity and forms the core of the multifunctional MRN complex. We previously identified a C-terminally truncated form of MRE11 (TR-MRE11) associated with post-translational MRE11 degradation. Here we identified SPRTN as the essential protease for the formation of TR-MRE11 and characterised the role of this MRE11 form in its DNA damage response (DDR). Using tandem mass spectrometry and site-directed mutagenesis, the SPRTN-dependent cleavage site for MRE11 was identified between 559 and 580 amino acids. Despite the intact interaction of TR-MRE11 with its constitutive core complex proteins RAD50 and NBS1, both nuclease activities of truncated MRE11 were dramatically reduced due to its deficient binding to DNA. Furthermore, lack of the MRE11 C-terminal decreased HR repair efficiency, very likely due to abolished recruitment of TR-MRE11 to the sites of DNA damage, which consequently led to increased cellular radiosensitivity. The presence of this DNA repair-defective TR-MRE11 could explain our previous finding that the high MRE11 protein expression by immunohistochemistry correlates with improved survival following radical radiotherapy in bladder cancer patients. Abstract The human MRE11/RAD50/NBS1 (MRN) complex plays a crucial role in sensing and repairing DNA DSB. MRE11 possesses dual 3′−5′ exonuclease and endonuclease activity and forms the core of the multifunctional MRN complex. We previously identified a C-terminally truncated form of MRE11 (TR-MRE11) associated with post-translational MRE11 degradation. Here we identified SPRTN as the essential protease for the formation of TR-MRE11 and characterised the role of this MRE11 form in its DNA damage response (DDR). Using tandem mass spectrometry and site-directed mutagenesis, the SPRTN-dependent cleavage site for MRE11 was identified between 559 and 580 amino acids. Despite the intact interaction of TR-MRE11 with its constitutive core complex proteins RAD50 and NBS1, both nuclease activities of truncated MRE11 were dramatically reduced due to its deficient binding to DNA. Furthermore, lack of the MRE11 C-terminal decreased HR repair efficiency, very likely due to abolished recruitment of TR-MRE11 to the sites of DNA damage, which consequently led to increased cellular radiosensitivity. The presence of this DNA repair-defective TR-MRE11 could explain our previous finding that the high MRE11 protein expression by immunohistochemistry correlates with improved survival following radical radiotherapy in bladder cancer patients. The human MRE11/RAD50/NBS1 (MRN) complex plays a crucial role in sensing and repairing DNA DSB. MRE11 possesses dual 3'-5' exonuclease and endonuclease activity and forms the core of the multifunctional MRN complex. We previously identified a C-terminally truncated form of MRE11 (TR-MRE11) associated with post-translational MRE11 degradation. Here we identified SPRTN as the essential protease for the formation of TR-MRE11 and characterised the role of this MRE11 form in its DNA damage response (DDR). Using tandem mass spectrometry and site-directed mutagenesis, the SPRTN-dependent cleavage site for MRE11 was identified between 559 and 580 amino acids. Despite the intact interaction of TR-MRE11 with its constitutive core complex proteins RAD50 and NBS1, both nuclease activities of truncated MRE11 were dramatically reduced due to its deficient binding to DNA. Furthermore, lack of the MRE11 C-terminal decreased HR repair efficiency, very likely due to abolished recruitment of TR-MRE11 to the sites of DNA damage, which consequently led to increased cellular radiosensitivity. The presence of this DNA repair-defective TR-MRE11 could explain our previous finding that the high MRE11 protein expression by immunohistochemistry correlates with improved survival following radical radiotherapy in bladder cancer patients. The human MRE11/RAD50/NBS1 (MRN) complex plays a crucial role in sensing and repairing DNA DSB. MRE11 possesses dual 3′−5′ exonuclease and endonuclease activity and forms the core of the multifunctional MRN complex. We previously identified a C-terminally truncated form of MRE11 (TR-MRE11) associated with post-translational MRE11 degradation. Here we identified SPRTN as the essential protease for the formation of TR-MRE11 and characterised the role of this MRE11 form in its DNA damage response (DDR). Using tandem mass spectrometry and site-directed mutagenesis, the SPRTN-dependent cleavage site for MRE11 was identified between 559 and 580 amino acids. Despite the intact interaction of TR-MRE11 with its constitutive core complex proteins RAD50 and NBS1, both nuclease activities of truncated MRE11 were dramatically reduced due to its deficient binding to DNA. Furthermore, lack of the MRE11 C-terminal decreased HR repair efficiency, very likely due to abolished recruitment of TR-MRE11 to the sites of DNA damage, which consequently led to increased cellular radiosensitivity. The presence of this DNA repair-defective TR-MRE11 could explain our previous finding that the high MRE11 protein expression by immunohistochemistry correlates with improved survival following radical radiotherapy in bladder cancer patients.
ArticleNumber	165
Author	Vendrell, Iolanda Kiltie, Anne E. Syed, Junetha Torrecilla, Ignacio Ellermann, Sophie Fischer, Roman Na, Juri Newman, Joseph A. Ramadan, Kristijan Then, Chee Kin
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Snippet	The human MRE11/RAD50/NBS1 (MRN) complex plays a crucial role in sensing and repairing DNA DSB. MRE11 possesses dual 3′−5′ exonuclease and endonuclease... The human MRE11/RAD50/NBS1 (MRN) complex plays a crucial role in sensing and repairing DNA DSB. MRE11 possesses dual 3'-5' exonuclease and endonuclease... Abstract The human MRE11/RAD50/NBS1 (MRN) complex plays a crucial role in sensing and repairing DNA DSB. MRE11 possesses dual 3′−5′ exonuclease and...
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SubjectTerms	13/106 13/2 13/31 13/44 13/89 14/34 631/337/1427 692/699/2768 82/58 82/80 Acid Anhydride Hydrolases - genetics Acid Anhydride Hydrolases - metabolism Antibodies Biochemistry Biomedical and Life Sciences Bladder cancer Cell Biology Cell Culture Cell Cycle Proteins - genetics Cell Cycle Proteins - metabolism Cell Line, Tumor Cell Proliferation - radiation effects Deoxyribonucleic acid DNA DNA Damage DNA Repair DNA-Binding Proteins - genetics DNA-Binding Proteins - metabolism Double-strand break repair Endonuclease Exonuclease G2 Phase Cell Cycle Checkpoints - radiation effects HEK293 Cells Humans Immunohistochemistry Immunology Life Sciences Mass spectroscopy MRE11 Homologue Protein - genetics MRE11 Homologue Protein - metabolism MRE11 protein Nuclear Proteins - genetics Nuclear Proteins - metabolism Nuclease Post-translation Proteinase Proteolysis Radiation therapy Radiation Tolerance Radiosensitivity Site-directed mutagenesis Substrate Specificity Urinary Bladder Neoplasms - enzymology Urinary Bladder Neoplasms - genetics Urinary Bladder Neoplasms - pathology Urinary Bladder Neoplasms - radiotherapy
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Title	SPRTN protease-cleaved MRE11 decreases DNA repair and radiosensitises cancer cells
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Volume	12
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