Nature Communications (Aug 2023)

Loss of LCMT1 and biased protein phosphatase 2A heterotrimerization drive prostate cancer progression and therapy resistance

  • 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

DOI
https://doi.org/10.1038/s41467-023-40760-6
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 24

Abstract

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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.