Literature DB >> 29940785

Inhibiting autophagy reduces retinal degeneration caused by protein misfolding.

Jingyu Yao1, Yaoyan Qiu2, Eric Frontera1, Lin Jia1, Naheed W Khan1, Daniel J Klionsky3, Thomas A Ferguson4, Debra A Thompson1,5, David N Zacks1.   

Abstract

Mutations in the genes necessary for the structure and function of vertebrate photoreceptor cells are associated with multiple forms of inherited retinal degeneration. Mutations in the gene encoding RHO (rhodopsin) are a common cause of autosomal dominant retinitis pigmentosa (adRP), with the Pro23His variant of RHO resulting in a misfolded protein that activates endoplasmic reticulum stress and the unfolded protein response. Stimulating macroautophagy/autophagy has been proposed as a strategy for clearing misfolded RHO and reducing photoreceptor death. We found that retinas from mice heterozygous for the gene encoding the RHOP23H variant (hereafter called P23H) exhibited elevated levels of autophagy flux, and that pharmacological stimulation of autophagy accelerated retinal degeneration. In contrast, reducing autophagy flux pharmacologically or by rod-specific deletion of the autophagy-activating gene Atg5, improved photoreceptor structure and function. Furthermore, proteasome levels and activity were reduced in the P23H retina, and increased when Atg5 was deleted. Our findings suggest that autophagy contributes to photoreceptor cell death in P23H mice, and that decreasing autophagy shifts the degradation of misfolded RHO protein to the proteasome and is protective. These observations suggest that modulating the flux of misfolded proteins from autophagy to the proteasome may represent an important therapeutic strategy for reducing proteotoxicity in adRP and other diseases caused by protein folding defects.

Entities:  

Keywords:  Autophagy; Rhodopsin; proteasome; protein misfolding; retinal degeneration

Mesh:

Substances:

Year:  2018        PMID: 29940785      PMCID: PMC6103695          DOI: 10.1080/15548627.2018.1463121

Source DB:  PubMed          Journal:  Autophagy        ISSN: 1554-8627            Impact factor:   16.016


  44 in total

1.  Circadian and noncircadian modulation of autophagy in photoreceptors and retinal pigment epithelium.

Authors:  Jingyu Yao; Lin Jia; Shameka J Shelby; Anna M Ganios; Kecia Feathers; Debra A Thompson; David N Zacks
Journal:  Invest Ophthalmol Vis Sci       Date:  2014-04-29       Impact factor: 4.799

2.  Optimal determination of heart tissue 26S-proteasome activity requires maximal stimulating ATP concentrations.

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Journal:  J Mol Cell Cardiol       Date:  2006-11-30       Impact factor: 5.000

3.  Deletion of autophagy inducer RB1CC1 results in degeneration of the retinal pigment epithelium.

Authors:  Jingyu Yao; Lin Jia; Naheed Khan; Chengmao Lin; Sayak K Mitter; Michael E Boulton; Joshua L Dunaief; Daniel J Klionsky; Jun-Lin Guan; Debra A Thompson; David N Zacks
Journal:  Autophagy       Date:  2015       Impact factor: 16.016

Review 4.  Autophagic cell death and its execution by lysosomal cathepsins.

Authors:  Y Uchiyama
Journal:  Arch Histol Cytol       Date:  2001-08

5.  Structure and function in rhodopsin: correct folding and misfolding in point mutants at and in proximity to the site of the retinitis pigmentosa mutation Leu-125-->Arg in the transmembrane helix C.

Authors:  P Garriga; X Liu; H G Khorana
Journal:  Proc Natl Acad Sci U S A       Date:  1996-05-14       Impact factor: 11.205

6.  NLRP3 inflammasome activation drives bystander cone photoreceptor cell death in a P23H rhodopsin model of retinal degeneration.

Authors:  Ishaq A Viringipurampeer; Andrew L Metcalfe; Abu E Bashar; Olena Sivak; Anat Yanai; Zeinabsadat Mohammadi; Orson L Moritz; Cheryl Y Gregory-Evans; Kevin Gregory-Evans
Journal:  Hum Mol Genet       Date:  2016-02-07       Impact factor: 6.150

Review 7.  Essential versus accessory aspects of cell death: recommendations of the NCCD 2015.

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Journal:  Cell Death Differ       Date:  2014-09-19       Impact factor: 15.828

Review 8.  Proteinopathy, oxidative stress and mitochondrial dysfunction: cross talk in Alzheimer's disease and Parkinson's disease.

Authors:  Gargi Ganguly; Sasanka Chakrabarti; Uttara Chatterjee; Luciano Saso
Journal:  Drug Des Devel Ther       Date:  2017-03-16       Impact factor: 4.162

9.  Modulation of cellular signaling pathways in P23H rhodopsin photoreceptors.

Authors:  Olga S Sizova; Vishal M Shinde; Austin R Lenox; Marina S Gorbatyuk
Journal:  Cell Signal       Date:  2013-12-27       Impact factor: 4.315

Review 10.  Types and Strains: Their Essential Role in Understanding Protein Aggregation in Neurodegenerative Diseases.

Authors:  Wiebke M Wemheuer; Arne Wrede; Walter J Schulz-Schaeffer
Journal:  Front Aging Neurosci       Date:  2017-06-16       Impact factor: 5.750
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  35 in total

1.  Autophagy in Xenopus laevis rod photoreceptors is independently regulated by phototransduction and misfolded RHOP23H.

Authors:  Runxia H Wen; Paloma Stanar; Beatrice Tam; Orson L Moritz
Journal:  Autophagy       Date:  2019-04-12       Impact factor: 16.016

2.  The proteasome as a druggable target with multiple therapeutic potentialities: Cutting and non-cutting edges.

Authors:  G R Tundo; D Sbardella; A M Santoro; A Coletta; F Oddone; G Grasso; D Milardi; P M Lacal; S Marini; R Purrello; G Graziani; M Coletta
Journal:  Pharmacol Ther       Date:  2020-05-19       Impact factor: 12.310

3.  Dysregulated claudin-5 cycling in the inner retina causes retinal pigment epithelial cell atrophy.

Authors:  Natalie Hudson; Lucia Celkova; Alan Hopkins; Chris Greene; Federica Storti; Ema Ozaki; Erin Fahey; Sofia Theodoropoulou; Paul F Kenna; Marian M Humphries; Annie M Curtis; Eleanor Demmons; Akeem Browne; Shervin Liddie; Matthew S Lawrence; Christian Grimm; Mark T Cahill; Pete Humphries; Sarah L Doyle; Matthew Campbell
Journal:  JCI Insight       Date:  2019-08-08

4.  Disrupted Plasma Membrane Protein Homeostasis in a Xenopus Laevis Model of Retinitis Pigmentosa.

Authors:  Philip Ropelewski; Yoshikazu Imanishi
Journal:  J Neurosci       Date:  2019-05-06       Impact factor: 6.167

Review 5.  Inherited Retinal Dystrophies: Role of Oxidative Stress and Inflammation in Their Physiopathology and Therapeutic Implications.

Authors:  Isabel Pinilla; Victoria Maneu; Laura Campello; Laura Fernández-Sánchez; Natalia Martínez-Gil; Oksana Kutsyr; Xavier Sánchez-Sáez; Carla Sánchez-Castillo; Pedro Lax; Nicolás Cuenca
Journal:  Antioxidants (Basel)       Date:  2022-05-30

6.  Autophagosome immunoisolation from GFP-LC3B mouse tissue.

Authors:  Jingyu Yao; Yaoyan Qiu; Lin Jia; David N Zacks
Journal:  Autophagy       Date:  2018-10-30       Impact factor: 16.016

7.  Pharmacological clearance of misfolded rhodopsin for the treatment of RHO-associated retinitis pigmentosa.

Authors:  Xujie Liu; Bing Feng; Abhishek Vats; Hong Tang; William Seibel; Manju Swaroop; Gregory Tawa; Wei Zheng; Leah Byrne; Mark Schurdak; Yuanyuan Chen
Journal:  FASEB J       Date:  2020-06-14       Impact factor: 5.191

8.  Autophagy activation and photoreceptor survival in retinal detachment.

Authors:  Jianhui Xiao; Jingyu Yao; Lin Jia; Thomas A Ferguson; Sarah Weber; Jeffrey M Sundstrom; Thomas J Wubben; Cagri G Besirli; David N Zacks
Journal:  Exp Eye Res       Date:  2021-02-18       Impact factor: 3.467

9.  Clinical trial design for neuroprotection in RHO autosomal dominant retinitis pigmentosa; outcome measure considerations.

Authors:  Benjamin Otte; Chris Andrews; Gabrielle Lacy; Kari Branham; David C Musch; Kanishka T Jayasundera
Journal:  Ophthalmic Genet       Date:  2021-01-06       Impact factor: 1.803

10.  Autophagy and post-ischemic conditioning in retinal ischemia.

Authors:  Biji Mathew; Mohansrinivas Chennakesavalu; Monica Sharma; Leianne A Torres; Clara R Stelman; Sophie Tran; Raj Patel; Nathan Burg; Maryna Salkovski; Konrad Kadzielawa; Figen Seiler; Leslie N Aldrich; Steven Roth
Journal:  Autophagy       Date:  2020-05-26       Impact factor: 16.016
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