Parkin activates innate immunity and promotes antitumor immune responses
Michela Perego, … , Noam Auslander, Dario C. Altieri
Michela Perego, … , Noam Auslander, Dario C. Altieri
Published August 30, 2024
Citation Information: J Clin Invest. 2024;134(22):e180983. https://doi.org/10.1172/JCI180983.
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Research Article Immunology Oncology

Parkin activates innate immunity and promotes antitumor immune responses

Abstract

The activation of innate immunity and associated interferon (IFN) signaling have been implicated in cancer, but the regulators are elusive and links to tumor suppression remain undetermined. Here, we found that Parkin, an E3 ubiquitin ligase altered in Parkinson’s Disease, was epigenetically silenced in cancer and its reexpression by clinically approved demethylating therapy stimulated transcription of a potent IFN response in tumor cells. This pathway required Parkin E3 ubiquitin ligase activity, involved the subcellular trafficking and release of the alarmin High Mobility Group Box 1 (HMGB1) and was associated with inhibition of NF-κB gene expression. In turn, Parkin-expressing cells released an IFN secretome that upregulated effector and cytotoxic CD8+ T cell markers, lowered the expression of immune inhibitory receptors TIM3 and LAG3, and stimulated high content of the self renewal/stem cell factor, TCF1. PRKN-induced CD8+ T cells selectively accumulated in the microenvironment and inhibited transgenic and syngeneic tumor growth in vivo. Therefore, Parkin is an epigenetically regulated activator of innate immunity and dual mode tumor suppressor, inhibiting intrinsic tumor traits of metabolism and cell invasion, while simultaneously reinvigorating CD8 T cell functions in the microenvironment.

Authors

Michela Perego, Minjeong Yeon, Ekta Agarwal, Andrew T. Milcarek, Irene Bertolini, Chiara Camisaschi, Jagadish C. Ghosh, Hsin-Yao Tang, Nathalie Grandvaux, Marcus Ruscetti, Andrew V. Kossenkov, Sarah Preston-Alp, Italo Tempera, Noam Auslander, Dario C. Altieri

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Figure 1

PRKN IFN response in cancer.

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PRKN IFN response in cancer. (A) PC3 cells were transfected with vector ...
(A) PC3 cells were transfected with vector or PRKN and analyzed for an IFN enrichment gene signature by RNA-Seq. (B) Schematic diagram of innate immunity pathways activated by PRKN in PC3 cells by RNA-Seq. Created with BioRender.com. (C) PC3 cells expressing PRKN (as in A) were analyzed in an IFN/MAPK array by RT-qPCR. Heatmap from a representative experiment. (D) The conditions are the same as in A and PRKN-expressing PC3 cells were analyzed in an NF-κB gene array by RT-qPCR. Heatmap from a representative experiment out of 2 independent determinations. (E) The indicated tumor cell types expressing vector or PRKN were analyzed for IFN gene expression by RT-qPCR. Mean ± SD (n = 3). (F) PC3 cells that conditionally express PRKN (TetON system) in response to Doxycycline (Doxy) were analyzed by Western blotting (inset) and RT-qPCR in the presence of vehicle (Veh) or Doxy. Mean ± SD (n = 3). (G) PRKN TetON PC3 cells were analyzed for IFN-β promoter luciferase activity in the presence of vehicle (Veh) or Doxy. RLU, relative luciferase activity. Mean ± SD (n = 4). (H) The conditions are the same as in G except that PRKN TetON PC3 cells were analyzed for WT or mutant (Mut) IFIT1 promoter luciferase activity in the presence of vehicle (Veh) or Doxy. Mean ± SD (n = 3). (I) Normal breast epithelial MCF10A cells expressing endogenous PRKN were transfected with control nontargeted siRNA (siCtrl) or 2 independent siRNA sequences to PRKN (siPRKN #1 and siPRKN #2) and analyzed for IFN gene expression by RT-qPCR. Mean ± SD (n = 3). (J) PC3 cells expressing WT PRKN (WT) or E3-ligase defective PRKN C431S or S65A mutants (inset) were analyzed for IFN gene expression by RT-qPCR. Data are from a representative experiment out of 4 independent determinations. Numbers represent P values by 2-tailed unpaired t test. *P = 0.01; **P = 0.002–0.009; ***P = <0.0001–0.0003.