Frontiers in Oncology (May 2024)

Phosphorylation of cell cycle and apoptosis regulatory protein-1 by stress activated protein kinase P38γ is a novel mechanism of apoptosis signaling by genotoxic chemotherapy

  • Jaganathan Venkatesh,
  • Jaganathan Venkatesh,
  • Jaganathan Venkatesh,
  • Magesh Muthu,
  • Magesh Muthu,
  • Magesh Muthu,
  • Indulekha Singaravelu,
  • Indulekha Singaravelu,
  • Indulekha Singaravelu,
  • Vino T. Cheriyan,
  • Vino T. Cheriyan,
  • Vino T. Cheriyan,
  • Sreeja C. Sekhar,
  • Sreeja C. Sekhar,
  • Sreeja C. Sekhar,
  • Nuwan C. P. N. Acharige,
  • Edi Levi,
  • Edi Levi,
  • Hadeel Assad,
  • Hadeel Assad,
  • Mary Kay H. Pflum,
  • Arun K. Rishi,
  • Arun K. Rishi,
  • Arun K. Rishi

DOI
https://doi.org/10.3389/fonc.2024.1376666
Journal volume & issue
Vol. 14

Abstract

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CARP-1, a perinuclear phospho-protein, regulates cell survival and apoptosis signaling induced by genotoxic drugs. However, kinase(s) phosphorylating CARP-1 and down-stream signal transduction events remain unclear. Here we find that CARP-1 Serine (S)626 and Threonine (T)627 substitution to Alanines (AA) inhibits genotoxic drug-induced apoptosis. CARP-1 T627 is followed by a Proline (P), and this TP motif is conserved in vertebrates. Based on these findings, we generated affinity-purified, anti-phospho-CARP-1 T627 rabbit polyclonal antibodies, and utilized them to elucidate chemotherapy-activated, CARP-1-dependent cell growth signaling mechanisms. Our kinase profiling studies revealed that MAPKs/SAPKs phosphorylated CARP-1 T627. We then UV cross-linked protein extracts from Adriamycin-treated HeLa cervical cancer cells with a CARP-1 (614–638) peptide, and conducted liquid chromatography-tandem mass spectrometry (LC-MS/MS) analyses of the peptide-bound protein complexes. This experiment revealed SAPK p38γ interaction with CARP-1 (614–638) peptide. Our studies further established that SAPK p38γ, but not other MAPKs, phosphorylates CARP-1 T627 in cancer cells treated with genotoxic drugs. Loss of p38γ abrogates CARP-1 T627 phosphorylation, and results in enhanced survival of breast cancer cells by genotoxic drugs. CARP-1 T627 phosphorylation was also noted in breast tumors from patients treated with radiation or endocrine therapies. We conclude that genotoxic drugs activate p38γ-dependent CARP-1 T627 phosphorylation to inhibit cell growth.

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