Loss of LCMT1 and biased protein phosphatase 2A heterotrimerization drive prostate cancer progression and therapy resistance
Abstract Loss of the tumor suppressive activity of the protein phosphatase 2A (PP2A) is associated with cancer, but the underlying molecular mechanisms are unclear. PP2A holoenzyme comprises a heterodimeric core, a scaffolding A subunit and a catalytic C subunit, and one of over 20 distinct substrat...
| Published in: | Nature Communications |
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Nature Portfolio
2023-08-01
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| Online Access: | https://doi.org/10.1038/s41467-023-40760-6 |
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| author | Reyaz ur Rasool Caitlin M. O’Connor Chandan Kanta Das Mohammed Alhusayan Brijesh Kumar Verma Sehbanul Islam Ingrid E. Frohner Qu Deng Erick Mitchell-Velasquez Jaya Sangodkar Aqila Ahmed Sarah Linauer Ingrid Mudrak Jessica Rainey Kaitlin P. Zawacki Tahra K. Suhan Catherine G. Callahan Ryan Rebernick Ramakrishnan Natesan Javed Siddiqui Guido Sauter Dafydd Thomas Shaomeng Wang Derek J. Taylor Ronald Simon Marcin Cieslik Arul M. Chinnaiyan Luca Busino Egon Ogris Goutham Narla Irfan A. Asangani |
| author_facet | Reyaz ur Rasool Caitlin M. O’Connor Chandan Kanta Das Mohammed Alhusayan Brijesh Kumar Verma Sehbanul Islam Ingrid E. Frohner Qu Deng Erick Mitchell-Velasquez Jaya Sangodkar Aqila Ahmed Sarah Linauer Ingrid Mudrak Jessica Rainey Kaitlin P. Zawacki Tahra K. Suhan Catherine G. Callahan Ryan Rebernick Ramakrishnan Natesan Javed Siddiqui Guido Sauter Dafydd Thomas Shaomeng Wang Derek J. Taylor Ronald Simon Marcin Cieslik Arul M. Chinnaiyan Luca Busino Egon Ogris Goutham Narla Irfan A. Asangani |
| author_sort | Reyaz ur Rasool |
| collection | DOAJ |
| container_title | Nature Communications |
| description | Abstract Loss of the tumor suppressive activity of the protein phosphatase 2A (PP2A) is associated with cancer, but the underlying molecular mechanisms are unclear. PP2A holoenzyme comprises a heterodimeric core, a scaffolding A subunit and a catalytic C subunit, and one of over 20 distinct substrate-directing regulatory B subunits. Methylation of the C subunit regulates PP2A heterotrimerization, affecting B subunit binding and substrate specificity. Here, we report that the leucine carboxy methyltransferase (LCMT1), which methylates the L309 residue of the C subunit, acts as a suppressor of androgen receptor (AR) addicted prostate cancer (PCa). Decreased methyl-PP2A-C levels in prostate tumors is associated with biochemical recurrence and metastasis. Silencing LCMT1 increases AR activity and promotes castration-resistant prostate cancer growth. LCMT1-dependent methyl-sensitive AB56αCme heterotrimers target AR and its critical coactivator MED1 for dephosphorylation, resulting in the eviction of the AR-MED1 complex from chromatin and loss of target gene expression. Mechanistically, LCMT1 is regulated by S6K1-mediated phosphorylation-induced degradation requiring the β-TRCP, leading to acquired resistance to anti-androgens. Finally, feedforward stabilization of LCMT1 by small molecule activator of phosphatase (SMAP) results in attenuation of AR-signaling and tumor growth inhibition in anti-androgen refractory PCa. These findings highlight methyl-PP2A-C as a prognostic marker and that the loss of LCMT1 is a major determinant in AR-addicted PCa, suggesting therapeutic potential for AR degraders or PP2A modulators in prostate cancer treatment. |
| format | Article |
| id | doaj-art-7ea3b219c8a941b89ece9e99f3bc0149 |
| institution | Directory of Open Access Journals |
| issn | 2041-1723 |
| language | English |
| publishDate | 2023-08-01 |
| publisher | Nature Portfolio |
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| spelling | doaj-art-7ea3b219c8a941b89ece9e99f3bc01492025-08-19T22:30:28ZengNature PortfolioNature Communications2041-17232023-08-0114112410.1038/s41467-023-40760-6Loss of LCMT1 and biased protein phosphatase 2A heterotrimerization drive prostate cancer progression and therapy resistanceReyaz ur Rasool0Caitlin M. O’Connor1Chandan Kanta Das2Mohammed Alhusayan3Brijesh Kumar Verma4Sehbanul Islam5Ingrid E. Frohner6Qu Deng7Erick Mitchell-Velasquez8Jaya Sangodkar9Aqila Ahmed10Sarah Linauer11Ingrid Mudrak12Jessica Rainey13Kaitlin P. Zawacki14Tahra K. Suhan15Catherine G. Callahan16Ryan Rebernick17Ramakrishnan Natesan18Javed Siddiqui19Guido Sauter20Dafydd Thomas21Shaomeng Wang22Derek J. Taylor23Ronald Simon24Marcin Cieslik25Arul M. Chinnaiyan26Luca Busino27Egon Ogris28Goutham Narla29Irfan A. Asangani30Department of Cancer Biology, Perelman School of Medicine, University of PennsylvaniaDivision of Genetic Medicine, Department of Internal Medicine, University of MichiganDepartment of Cancer Biology, Perelman School of Medicine, University of PennsylvaniaDepartment of Cancer Biology, Perelman School of Medicine, University of PennsylvaniaDepartment of Cancer Biology, Perelman School of Medicine, University of PennsylvaniaDepartment of Cancer Biology, Perelman School of Medicine, University of PennsylvaniaCenter for Medical Biochemistry, Max Perutz Labs, Medical University of Vienna, Dr. Bohr-Gasse 9/2Department of Cancer Biology, Perelman School of Medicine, University of PennsylvaniaDepartment of Cancer Biology, Perelman School of Medicine, University of PennsylvaniaDivision of Genetic Medicine, Department of Internal Medicine, University of MichiganDivision of Genetic Medicine, Department of Internal Medicine, University of MichiganCenter for Medical Biochemistry, Max Perutz Labs, Medical University of Vienna, Dr. Bohr-Gasse 9/2Center for Medical Biochemistry, Max Perutz Labs, Medical University of Vienna, Dr. Bohr-Gasse 9/2Department of Cancer Biology, Perelman School of Medicine, University of PennsylvaniaDivision of Genetic Medicine, Department of Internal Medicine, University of MichiganDivision of Genetic Medicine, Department of Internal Medicine, University of MichiganDivision of Genetic Medicine, Department of Internal Medicine, University of MichiganDepartment of Pathology and Rogel Cancer Center, University of Michigan Medical SchoolDepartment of Cancer Biology, Perelman School of Medicine, University of PennsylvaniaDepartment of Pathology and Rogel Cancer Center, University of Michigan Medical SchoolInstitute of Pathology, University Medical Center Hamburg-EppendorfMichigan Center for Translational Pathology, University of MichiganDepartments of Internal Medicine, Pharmacology, and Medicinal Chemistry, University of MichiganDepartment of Biochemistry Case Western Reserve University School of MedicineInstitute of Pathology, University Medical Center Hamburg-EppendorfDepartment of Pathology and Rogel Cancer Center, University of Michigan Medical SchoolDepartment of Pathology and Rogel Cancer Center, University of Michigan Medical SchoolDepartment of Cancer Biology, Perelman School of Medicine, University of PennsylvaniaCenter for Medical Biochemistry, Max Perutz Labs, Medical University of Vienna, Dr. Bohr-Gasse 9/2Division of Genetic Medicine, Department of Internal Medicine, University of MichiganDepartment of Cancer Biology, Perelman School of Medicine, University of PennsylvaniaAbstract Loss of the tumor suppressive activity of the protein phosphatase 2A (PP2A) is associated with cancer, but the underlying molecular mechanisms are unclear. PP2A holoenzyme comprises a heterodimeric core, a scaffolding A subunit and a catalytic C subunit, and one of over 20 distinct substrate-directing regulatory B subunits. Methylation of the C subunit regulates PP2A heterotrimerization, affecting B subunit binding and substrate specificity. Here, we report that the leucine carboxy methyltransferase (LCMT1), which methylates the L309 residue of the C subunit, acts as a suppressor of androgen receptor (AR) addicted prostate cancer (PCa). Decreased methyl-PP2A-C levels in prostate tumors is associated with biochemical recurrence and metastasis. Silencing LCMT1 increases AR activity and promotes castration-resistant prostate cancer growth. LCMT1-dependent methyl-sensitive AB56αCme heterotrimers target AR and its critical coactivator MED1 for dephosphorylation, resulting in the eviction of the AR-MED1 complex from chromatin and loss of target gene expression. Mechanistically, LCMT1 is regulated by S6K1-mediated phosphorylation-induced degradation requiring the β-TRCP, leading to acquired resistance to anti-androgens. Finally, feedforward stabilization of LCMT1 by small molecule activator of phosphatase (SMAP) results in attenuation of AR-signaling and tumor growth inhibition in anti-androgen refractory PCa. These findings highlight methyl-PP2A-C as a prognostic marker and that the loss of LCMT1 is a major determinant in AR-addicted PCa, suggesting therapeutic potential for AR degraders or PP2A modulators in prostate cancer treatment.https://doi.org/10.1038/s41467-023-40760-6 |
| spellingShingle | Reyaz ur Rasool Caitlin M. O’Connor Chandan Kanta Das Mohammed Alhusayan Brijesh Kumar Verma Sehbanul Islam Ingrid E. Frohner Qu Deng Erick Mitchell-Velasquez Jaya Sangodkar Aqila Ahmed Sarah Linauer Ingrid Mudrak Jessica Rainey Kaitlin P. Zawacki Tahra K. Suhan Catherine G. Callahan Ryan Rebernick Ramakrishnan Natesan Javed Siddiqui Guido Sauter Dafydd Thomas Shaomeng Wang Derek J. Taylor Ronald Simon Marcin Cieslik Arul M. Chinnaiyan Luca Busino Egon Ogris Goutham Narla Irfan A. Asangani Loss of LCMT1 and biased protein phosphatase 2A heterotrimerization drive prostate cancer progression and therapy resistance |
| title | Loss of LCMT1 and biased protein phosphatase 2A heterotrimerization drive prostate cancer progression and therapy resistance |
| title_full | Loss of LCMT1 and biased protein phosphatase 2A heterotrimerization drive prostate cancer progression and therapy resistance |
| title_fullStr | Loss of LCMT1 and biased protein phosphatase 2A heterotrimerization drive prostate cancer progression and therapy resistance |
| title_full_unstemmed | Loss of LCMT1 and biased protein phosphatase 2A heterotrimerization drive prostate cancer progression and therapy resistance |
| title_short | Loss of LCMT1 and biased protein phosphatase 2A heterotrimerization drive prostate cancer progression and therapy resistance |
| title_sort | loss of lcmt1 and biased protein phosphatase 2a heterotrimerization drive prostate cancer progression and therapy resistance |
| url | https://doi.org/10.1038/s41467-023-40760-6 |
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