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Literature DB >> 27207593

Mouse Models of NMNAT1-Leber Congenital Amaurosis (LCA9) Recapitulate Key Features of the Human Disease.

Scott H Greenwald¹, Jeremy R Charette², Magdalena Staniszewska¹, Lan Ying Shi², Steve D M Brown³, Lisa Stone², Qin Liu¹, Wanda L Hicks², Gayle B Collin², Michael R Bowl³, Mark P Krebs², Patsy M Nishina², Eric A Pierce⁴.

Abstract

The nicotinamide nucleotide adenylyltransferase 1 (NMNAT1) enzyme is essential for regenerating the nuclear pool of NAD(+) in all nucleated cells in the body, and mounting evidence also suggests that it has a separate role in neuroprotection. Recently, mutations in the NMNAT1 gene were associated with Leber congenital amaurosis, a severe retinal degenerative disease that causes blindness during infancy. Availability of a reliable mammalian model of NMNAT1-Leber congenital amaurosis would assist in determining the mechanisms through which disruptions in NMNAT1 lead to retinal cell degeneration and would provide a resource for testing treatment options. To this end, we identified two separate N-ethyl-N-nitrosourea-generated mouse lines that harbor either a p.V9M or a p.D243G mutation. Both mouse models recapitulate key aspects of the human disease and confirm the pathogenicity of mutant NMNAT1. Homozygous Nmnat1 mutant mice develop a rapidly progressing chorioretinal disease that begins with photoreceptor degeneration and includes attenuation of the retinal vasculature, optic atrophy, and retinal pigment epithelium loss. Retinal function deteriorates in both mouse lines, and, in the more rapidly progressing homozygous Nmnat1(V9M) mutant mice, the electroretinogram becomes undetectable and the pupillary light response weakens. These mouse models offer an opportunity for investigating the cellular mechanisms underlying disease pathogenesis, evaluating potential therapies for NMNAT1-Leber congenital amaurosis, and conducting in situ studies on NMNAT1 function and NAD(+) metabolism.

Entities: Chemical

Mesh：

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Year: 2016 PMID： 27207593 PMCID： PMC4929402 DOI： 10.1016/j.ajpath.2016.03.013

Source DB: PubMed Journal: Am J Pathol ISSN： 0002-9440 Impact factor: 4.307

79 in total

1. Melanopsin and rod-cone photoreceptors play different roles in mediating pupillary light responses during exposure to continuous light in humans.

Authors: Joshua J Gooley; Ivan Ho Mien; Melissa A St Hilaire; Sing-Chen Yeo; Eric Chern-Pin Chua; Eliza van Reen; Catherine J Hanley; Joseph T Hull; Charles A Czeisler; Steven W Lockley
Journal: J Neurosci Date: 2012-10-10 Impact factor: 6.167

2. A rat model of slow Wallerian degeneration (WldS) with improved preservation of neuromuscular synapses.

Authors: Robert Adalbert; Thomas H Gillingwater; Jane E Haley; Katherine Bridge; Bogdan Beirowski; Livia Berek; Diana Wagner; Daniela Grumme; Derek Thomson; Arzu Celik; Klaus Addicks; Richard R Ribchester; Michael P Coleman
Journal: Eur J Neurosci Date: 2005-01 Impact factor: 3.386

Review 3. Poly(ADP-ribosyl)ation by PARP-1: 'PAR-laying' NAD+ into a nuclear signal.

Authors: Mi Young Kim; Tong Zhang; W Lee Kraus
Journal: Genes Dev Date: 2005-09-01 Impact factor: 11.361

4. Temporal properties of the mouse cone electroretinogram.

Authors: Vivek R Krishna; Kenneth R Alexander; Neal S Peachey
Journal: J Neurophysiol Date: 2002-01 Impact factor: 2.714

5. A gene-driven approach to the identification of ENU mutants in the mouse.

Authors: Emma L Coghill; Alison Hugill; Nick Parkinson; Claire Davison; Peter Glenister; Sian Clements; Jackie Hunter; Roger D Cox; Steve D M Brown
Journal: Nat Genet Date: 2002-02-19 Impact factor: 38.330

6. Characterization of Leber Congenital Amaurosis-associated NMNAT1 Mutants.

Authors: Yo Sasaki; Zachary Margolin; Benjamin Borgo; James J Havranek; Jeffrey Milbrandt
Journal: J Biol Chem Date: 2015-05-27 Impact factor: 5.157

7. Exome sequencing identifies NMNAT1 mutations as a cause of Leber congenital amaurosis.

Authors: Pei-Wen Chiang; Juan Wang; Yang Chen; Quan Fu; Jing Zhong; Yanhua Chen; Xin Yi; Renhua Wu; Haixue Gan; Yong Shi; Yanling Chen; Christopher Barnett; Dianna Wheaton; Megan Day; Joanne Sutherland; Elise Heon; Richard G Weleber; Luis Alexandre Rassi Gabriel; Peikuan Cong; KuangHsiang Chuang; Sheng Ye; Juliana Maria Ferraz Sallum; Ming Qi
Journal: Nat Genet Date: 2012-07-29 Impact factor: 38.330

8. Pharmacological analysis of the rat cone electroretinogram.

Authors: Li Xu; Sherry L Ball; Kenneth R Alexander; Neal S Peachey
Journal: Vis Neurosci Date: 2003 May-Jun Impact factor: 3.241

9. Galaxy: a comprehensive approach for supporting accessible, reproducible, and transparent computational research in the life sciences.

Authors: Jeremy Goecks; Anton Nekrutenko; James Taylor
Journal: Genome Biol Date: 2010-08-25 Impact factor: 13.583

10. An ENU-mutagenesis screen in the mouse: identification of novel developmental gene functions.

Authors: Carolien Wansleeben; Léon van Gurp; Harma Feitsma; Carla Kroon; Ester Rieter; Marlies Verberne; Victor Guryev; Edwin Cuppen; Frits Meijlink
Journal: PLoS One Date: 2011-04-29 Impact factor: 3.240

22 in total

1. Severe biallelic loss-of-function mutations in nicotinamide mononucleotide adenylyltransferase 2 (NMNAT2) in two fetuses with fetal akinesia deformation sequence.

Authors: Marshall Lukacs; Jonathan Gilley; Yi Zhu; Giuseppe Orsomando; Carlo Angeletti; Jiaqi Liu; Xiuna Yang; Joun Park; Robert J Hopkin; Michael P Coleman; R Grace Zhai; Rolf W Stottmann
Journal: Exp Neurol Date: 2019-05-25 Impact factor: 5.330

Review 2. NAD⁺ metabolism and retinal degeneration (Review).

Authors: Andreea Silvia Pîrvu; Ana Marina Andrei; Elena Camelia Stănciulescu; Ileana Monica Baniță; Cătălina Gabriela Pisoschi; Sanda Jurja; Radu Ciuluvica
Journal: Exp Ther Med Date: 2021-04-23 Impact factor: 2.447

3. Ift172 conditional knock-out mice exhibit rapid retinal degeneration and protein trafficking defects.

Authors: Priya R Gupta; Nachiket Pendse; Scott H Greenwald; Mihoko Leon; Qin Liu; Eric A Pierce; Kinga M Bujakowska
Journal: Hum Mol Genet Date: 2018-06-01 Impact factor: 6.150

Review 4. NMNAT: It's an NAD⁺ synthase… It's a chaperone… It's a neuroprotector.

Authors: Jennifer M Brazill; Chong Li; Yi Zhu; R Grace Zhai
Journal: Curr Opin Genet Dev Date: 2017-04-23 Impact factor: 5.578

5. NMNAT1 E257K variant, associated with Leber Congenital Amaurosis (LCA9), causes a mild retinal degeneration phenotype.

Authors: Aiden Eblimit; Smriti Agrawal Zaneveld; Wei Liu; Kandace Thomas; Keqing Wang; Yumei Li; Graeme Mardon; Rui Chen
Journal: Exp Eye Res Date: 2018-04-17 Impact factor: 3.467

6. Whole-Exome Sequencing Identifies Biallelic IDH3A Variants as a Cause of Retinitis Pigmentosa Accompanied by Pseudocoloboma.

Authors: Laurence H M Pierrache; Adva Kimchi; Rinki Ratnapriya; Lisa Roberts; Galuh D N Astuti; Alexey Obolensky; Avigail Beryozkin; Martha J H Tjon-Fo-Sang; Jose Schuil; Caroline C W Klaver; Ernie M H F Bongers; Lonneke Haer-Wigman; Nicoline Schalij; Martijn H Breuning; Gratia M Fischer; Eyal Banin; Raj S Ramesar; Anand Swaroop; L Ingeborgh van den Born; Dror Sharon; Frans P M Cremers
Journal: Ophthalmology Date: 2017-04-13 Impact factor: 12.079

Review 7. NAD⁺ and sirtuins in retinal degenerative diseases: A look at future therapies.

Authors: Jonathan B Lin; Rajendra S Apte
Journal: Prog Retin Eye Res Date: 2018-06-12 Impact factor: 21.198

Review 8. Parthanatos as a Cell Death Pathway Underlying Retinal Disease.

Authors: Scott H Greenwald; Eric A Pierce
Journal: Adv Exp Med Biol Date: 2019 Impact factor: 2.622

9. Mutant Nmnat1 leads to a retina-specific decrease of NAD+ accompanied by increased poly(ADP-ribose) in a mouse model of NMNAT1-associated retinal degeneration.

Authors: Scott H Greenwald; Emily E Brown; Michael J Scandura; Erin Hennessey; Raymond Farmer; Jianhai Du; Yekai Wang; Eric A Pierce
Journal: Hum Mol Genet Date: 2021-05-17 Impact factor: 6.150

10. Forward genetic analysis using OCT screening identifies Sfxn3 mutations leading to progressive outer retinal degeneration in mice.

Authors: Bo Chen; Bogale Aredo; Yi Ding; Xin Zhong; Yuanfei Zhu; Cynthia X Zhao; Ashwani Kumar; Chao Xing; Laurent Gautron; Stephen Lyon; Jamie Russell; Xiaohong Li; Miao Tang; Priscilla Anderton; Sara Ludwig; Eva Marie Y Moresco; Bruce Beutler; Rafael L Ufret-Vincenty
Journal: Proc Natl Acad Sci U S A Date: 2020-05-26 Impact factor: 11.205

Review 3. Poly(ADP-ribosyl)ation by PARP-1: 'PAR-laying' NAD+ into a nuclear signal.

Review 2. NAD+ metabolism and retinal degeneration (Review).

Review 4. NMNAT: It's an NAD+ synthase… It's a chaperone… It's a neuroprotector.

Review 7. NAD+ and sirtuins in retinal degenerative diseases: A look at future therapies.

Review 8. Parthanatos as a Cell Death Pathway Underlying Retinal Disease.

Review 2. NAD⁺ metabolism and retinal degeneration (Review).

Review 4. NMNAT: It's an NAD⁺ synthase… It's a chaperone… It's a neuroprotector.

Review 7. NAD⁺ and sirtuins in retinal degenerative diseases: A look at future therapies.