Chemical inhibition of FBXO7 reduces inflammation and confers neuroprotection by stabilizing the mitochondrial kinase PINK1
Yuan Liu, … , Bill B. Chen, Rama K. Mallampalli
Yuan Liu, … , Bill B. Chen, Rama K. Mallampalli
Published June 4, 2020
Citation Information: JCI Insight. 2020;5(11):e131834. https://doi.org/10.1172/jci.insight.131834.
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Research Article Neuroscience

Chemical inhibition of FBXO7 reduces inflammation and confers neuroprotection by stabilizing the mitochondrial kinase PINK1

Abstract

Mitochondrial quality control is mediated by the PTEN-induced kinase 1 (PINK1), a cytoprotective protein that is dysregulated in inflammatory lung injury and neurodegenerative diseases. Here, we show that a ubiquitin E3 ligase receptor component, FBXO7, targets PINK1 for its cellular disposal. FBXO7, by mediating PINK1 ubiquitylation and degradation, was sufficient to induce mitochondrial injury and inflammation in experimental pneumonia. A computational simulation–based screen led to the identification of a small molecule, BC1464, which abrogated FBXO7 and PINK1 association, leading to increased cellular PINK1 concentrations and activities, and limiting mitochondrial damage. BC1464 exerted antiinflammatory activity in human tissue explants and murine lung inflammation models. Furthermore, BC1464 conferred neuroprotection in primary cortical neurons, human neuroblastoma cells, and patient-derived cells in several culture models of Parkinson’s disease. The data highlight a unique opportunity to use small molecule antagonists that disrupt PINK1 interaction with the ubiquitin apparatus to enhance mitochondrial quality, limit inflammatory injury, and maintain neuronal viability.

Authors

Yuan Liu, Travis B. Lear, Manish Verma, Kent Z.Q. Wang, P. Anthony Otero, Alison C. McKelvey, Sarah R. Dunn, Erin Steer, Nicholas W. Bateman, Christine Wu, Yu Jiang, Nathaniel M. Weathington, Mauricio Rojas, Charleen T. Chu, Bill B. Chen, Rama K. Mallampalli

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Figure 10

Fbxo7 small molecule inhibitor protects human patient cells against PD toxins.

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Fbxo7 small molecule inhibitor protects human patient cells against PD t...
(A) Primary fibroblasts from a control subject and 2 Parkinson’s disease patients, one with the G2019S mutation and the other with the R1441G mutation of LRRK2, were treated with 6-OHDA for 16 hours in the presence of DMSO, BC1464, or BC1465 and cell death percentage assessed. (B and C) Fibroblasts from a LRRK2-G2019S patient were treated with 6-OHDA or MPP+, with BC1464 or BC1465 added simultaneously or 2–6 hours later. Similar results were obtained for the other fibroblast lines (Supplemental Figure 4). Mean ± SD, n = 3 independent experiments, ANOVA with post hoc 2-tailed t test for A–C. (D) The fibroblasts from each subject were treated with DMSO vehicle, BC1464, and BC1465 and analyzed for PINK1 and FBXO7 mRNA by RT-qPCR (mean ± SD, n = 3 independent experiments, 1-way ANOVA, P > 0.548). (E and F) Late NPCs from SNCA triplication iPSC line were treated with Neurobasal media (Neg), DMSO, BC1464, or BC1465 as indicated and analyzed for cell death using propidium iodide (mean ± SD, n = 3–5 independent experiments, ANOVA with post hoc t test). Scale bar: 100 μm.