Literature DB >> 34550070

A zebrafish screen reveals Renin-angiotensin system inhibitors as neuroprotective via mitochondrial restoration in dopamine neurons.

Gha-Hyun J Kim1,2, Han Mo1,3, Harrison Liu4,5, Zhihao Wu6, Steven Chen4,7, Jiashun Zheng8, Xiang Zhao1, Daryl Nucum1, James Shortland1, Longping Peng1,9, Mannuel Elepano10, Benjamin Tang6,10, Steven Olson7,10, Nick Paras10, Hao Li8, Adam R Renslo4,7, Michelle R Arkin4,7, Bo Huang4,5,11, Bingwei Lu6, Marina Sirota12, Su Guo1,2.   

Abstract

Parkinson's disease (PD) is a common neurodegenerative disorder without effective disease-modifying therapeutics. Here, we establish a chemogenetic dopamine (DA) neuron ablation model in larval zebrafish with mitochondrial dysfunction and robustness suitable for high-content screening. We use this system to conduct an in vivo DA neuron imaging-based chemical screen and identify the Renin-Angiotensin-Aldosterone System (RAAS) inhibitors as significantly neuroprotective. Knockdown of the angiotensin receptor 1 (agtr1) in DA neurons reveals a cell-autonomous mechanism of neuroprotection. DA neuron-specific RNA-seq identifies mitochondrial pathway gene expression that is significantly restored by RAAS inhibitor treatment. The neuroprotective effect of RAAS inhibitors is further observed in a zebrafish Gaucher disease model and Drosophila pink1-deficient PD model. Finally, examination of clinical data reveals a significant effect of RAAS inhibitors in delaying PD progression. Our findings reveal the therapeutic potential and mechanisms of targeting the RAAS pathway for neuroprotection and demonstrate a salient approach that bridges basic science to translational medicine.
© 2021, Kim et al.

Entities:  

Keywords:  D. melanogaster; electronic health records (EHR); genetics; genomics; glucocerebrosidase (GBA); human; neuroscience; nitroreductase (NTR)-metronidazole (MTZ); parkin, pink1, a-synuclein, dj-1; phenotypic screening; time to Levodopa (L-dopa); zebrafish

Mesh:

Substances:

Year:  2021        PMID: 34550070      PMCID: PMC8457844          DOI: 10.7554/eLife.69795

Source DB:  PubMed          Journal:  Elife        ISSN: 2050-084X            Impact factor:   8.140


  79 in total

1.  Identification of a functional transposase of the Tol2 element, an Ac-like element from the Japanese medaka fish, and its transposition in the zebrafish germ lineage.

Authors:  K Kawakami; A Shima; N Kawakami
Journal:  Proc Natl Acad Sci U S A       Date:  2000-10-10       Impact factor: 11.205

2.  Mitochondrial pathology and muscle and dopaminergic neuron degeneration caused by inactivation of Drosophila Pink1 is rescued by Parkin.

Authors:  Yufeng Yang; Stephan Gehrke; Yuzuru Imai; Zhinong Huang; Yingshi Ouyang; Ji-Wu Wang; Lichuan Yang; M Flint Beal; Hannes Vogel; Bingwei Lu
Journal:  Proc Natl Acad Sci U S A       Date:  2006-07-03       Impact factor: 11.205

3.  Parkin suppresses dopaminergic neuron-selective neurotoxicity induced by Pael-R in Drosophila.

Authors:  Yufeng Yang; Isao Nishimura; Yuzuru Imai; Ryosuke Takahashi; Bingwei Lu
Journal:  Neuron       Date:  2003-03-27       Impact factor: 17.173

4.  Mutation in the alpha-synuclein gene identified in families with Parkinson's disease.

Authors:  M H Polymeropoulos; C Lavedan; E Leroy; S E Ide; A Dehejia; A Dutra; B Pike; H Root; J Rubenstein; R Boyer; E S Stenroos; S Chandrasekharappa; A Athanassiadou; T Papapetropoulos; W G Johnson; A M Lazzarini; R C Duvoisin; G Di Iorio; L I Golbe; R L Nussbaum
Journal:  Science       Date:  1997-06-27       Impact factor: 47.728

Review 5.  Promising disease-modifying therapies for Parkinson's disease.

Authors:  Valina L Dawson; Ted M Dawson
Journal:  Sci Transl Med       Date:  2019-11-27       Impact factor: 17.956

6.  Zebrafish embryos are susceptible to the dopaminergic neurotoxin MPTP.

Authors:  Chen Sok Lam; Vladimir Korzh; Uwe Strahle
Journal:  Eur J Neurosci       Date:  2005-03       Impact factor: 3.386

Review 7.  Biomarker-driven phenotyping in Parkinson's disease: A translational missing link in disease-modifying clinical trials.

Authors:  Alberto J Espay; Michael A Schwarzschild; Caroline M Tanner; Hubert H Fernandez; David K Simon; James B Leverenz; Aristide Merola; Alice Chen-Plotkin; Patrik Brundin; Marcelo A Kauffman; Roberto Erro; Karl Kieburtz; Daniel Woo; Eric A Macklin; David G Standaert; Anthony E Lang
Journal:  Mov Disord       Date:  2017-02-24       Impact factor: 10.338

Review 8.  A systematic comparison of the properties of clinically used angiotensin II type 1 receptor antagonists.

Authors:  Martin C Michel; Carolyn Foster; Hans R Brunner; Lisheng Liu
Journal:  Pharmacol Rev       Date:  2013-03-13       Impact factor: 25.468

Review 9.  Mitochondrial dysfunction in Parkinson's disease.

Authors:  Anindita Bose; M Flint Beal
Journal:  J Neurochem       Date:  2016-08-21       Impact factor: 5.372

10.  TRIM3 attenuates apoptosis in Parkinson's disease via activating PI3K/AKT signal pathway.

Authors:  Wenwen Dong; Bei Luo; Chang Qiu; Xu Jiang; Bo Shen; Li Zhang; Weiguo Liu; Wenbin Zhang
Journal:  Aging (Albany NY)       Date:  2020-11-30       Impact factor: 5.682
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  3 in total

1.  In Vivo Dopamine Neuron Imaging-Based Small Molecule Screen Identifies Novel Neuroprotective Compounds and Targets.

Authors:  Gha-Hyun J Kim; Han Mo; Harrison Liu; Meri Okorie; Steven Chen; Jiashun Zheng; Hao Li; Michelle Arkin; Bo Huang; Su Guo
Journal:  Front Pharmacol       Date:  2022-03-18       Impact factor: 5.988

2.  Zebrafish drug screening identifies candidate therapies for neuroprotection after spontaneous intracerebral haemorrhage.

Authors:  Siobhan Crilly; Adrian Parry-Jones; Xia Wang; Julian N Selley; James Cook; Victor S Tapia; Craig S Anderson; Stuart M Allan; Paul R Kasher
Journal:  Dis Model Mech       Date:  2022-03-29       Impact factor: 5.758

3.  Nigral Neurons Degenerating in Parkinson's Disease Express the Angiotensin Receptor Type 1 Gene.

Authors:  Jose L Labandeira-Garcia; Juan A Parga
Journal:  Mov Disord       Date:  2022-06-29       Impact factor: 9.698
  3 in total

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