Literature DB >> 28334834

AAV-mediated transfer of FKRP shows therapeutic efficacy in a murine model but requires control of gene expression.

Evelyne Gicquel1, Natacha Maizonnier1, Steven J Foltz2, William J Martin3, Nathalie Bourg1, Fedor Svinartchouk1, Karine Charton1, Aaron M Beedle2,4, Isabelle Richard1.   

Abstract

Limb Girdle Muscular Dystrophies type 2I (LGMD2I), a recessive autosomal muscular dystrophy, is caused by mutations in the Fukutin Related Protein (FKRP) gene. It has been proposed that FKRP, a ribitol-5-phosphate transferase, is a participant in α-dystroglycan (αDG) glycosylation, which is important to ensure the cell/matrix anchor of muscle fibers. A LGMD2I knock-in mouse model was generated to express the most frequent mutation (L276I) encountered in patients. The expression of FKRP was not altered neither at transcriptional nor at translational levels, but its function was impacted since abnormal glycosylation of αDG was observed. Skeletal muscles were functionally impaired from 2 months of age and a moderate dystrophic pattern was evident starting from 6 months of age. Gene transfer with a rAAV2/9 vector expressing Fkrp restored biochemical defects, corrected the histological abnormalities and improved the resistance to eccentric stress in the mouse model. However, injection of high doses of the vector induced a decrease of αDG glycosylation and laminin binding, even in WT animals. Finally, intravenous injection of the rAAV-Fkrp vector into a dystroglycanopathy mouse model due to Fukutin (Fktn) knock-out indicated a dose-dependent toxicity. These data suggest requirement for a control of FKRP expression in muscles.
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Year:  2017        PMID: 28334834      PMCID: PMC6251615          DOI: 10.1093/hmg/ddx066

Source DB:  PubMed          Journal:  Hum Mol Genet        ISSN: 0964-6906            Impact factor:   6.150


  51 in total

1.  Biochemical and ultrastructural evidence of endoplasmic reticulum stress in LGMD2I.

Authors:  Chiara A Boito; Marina Fanin; Bruno F Gavassini; Giovanna Cenacchi; Corrado Angelini; Elena Pegoraro
Journal:  Virchows Arch       Date:  2007-10-20       Impact factor: 4.064

2.  Dilated cardiomyopathy may be an early sign of the C826A Fukutin-related protein mutation.

Authors:  T Müller; M Krasnianski; R Witthaut; M Deschauer; S Zierz
Journal:  Neuromuscul Disord       Date:  2005-05       Impact factor: 4.296

3.  Prevalence, mutation spectrum and phenotypic variability in Norwegian patients with Limb Girdle Muscular Dystrophy 2I.

Authors:  Eva Stensland; Sigurd Lindal; Christoffer Jonsrud; Torberg Torbergsen; Laurence A Bindoff; Magnhild Rasmussen; Arve Dahl; Frances Thyssen; Øivind Nilssen
Journal:  Neuromuscul Disord       Date:  2010-10-18       Impact factor: 4.296

4.  Cardiac pathology exceeds skeletal muscle pathology in two cases of limb-girdle muscular dystrophy type 2I.

Authors:  Marta Margeta; Anne M Connolly; Thomas L Winder; Alan Pestronk; Steven A Moore
Journal:  Muscle Nerve       Date:  2009-11       Impact factor: 3.217

5.  Overexpression of LARGE suppresses muscle regeneration via down-regulation of insulin-like growth factor 1 and aggravates muscular dystrophy in mice.

Authors:  Fumiaki Saito; Motoi Kanagawa; Miki Ikeda; Hiroki Hagiwara; Toshihiro Masaki; Hidehiko Ohkuma; Yuki Katanosaka; Teruo Shimizu; Masahiro Sonoo; Tatsushi Toda; Kiichiro Matsumura
Journal:  Hum Mol Genet       Date:  2014-04-09       Impact factor: 6.150

6.  Fukutin-related protein localizes to the Golgi apparatus and mutations lead to mislocalization in muscle in vivo.

Authors:  Elizabeth Keramaris-Vrantsis; Pei J Lu; Timothy Doran; Allen Zillmer; Jignya Ashar; Christopher T Esapa; Matthew A Benson; Derek J Blake; Jeffrey Rosenfeld; Qi L Lu
Journal:  Muscle Nerve       Date:  2007-10       Impact factor: 3.217

7.  A comparative study of alpha-dystroglycan glycosylation in dystroglycanopathies suggests that the hypoglycosylation of alpha-dystroglycan does not consistently correlate with clinical severity.

Authors:  Cecilia Jimenez-Mallebrera; Silvia Torelli; Lucy Feng; Jihee Kim; Caroline Godfrey; Emma Clement; Rachael Mein; Stephen Abbs; Susan C Brown; Kevin P Campbell; Stephan Kröger; Beril Talim; Haluk Topaloglu; Ros Quinlivan; Helen Roper; Anne M Childs; Maria Kinali; Caroline A Sewry; Francesco Muntoni
Journal:  Brain Pathol       Date:  2008-08-07       Impact factor: 6.508

8.  Zebrafish Fukutin family proteins link the unfolded protein response with dystroglycanopathies.

Authors:  Yung-Yao Lin; Richard J White; Silvia Torelli; Sebahattin Cirak; Francesco Muntoni; Derek L Stemple
Journal:  Hum Mol Genet       Date:  2011-02-11       Impact factor: 6.150

9.  Fukutin-related protein resides in the Golgi cisternae of skeletal muscle fibres and forms disulfide-linked homodimers via an N-terminal interaction.

Authors:  Maisoon Alhamidi; Elisabeth Kjeldsen Buvang; Toril Fagerheim; Vigdis Brox; Sigurd Lindal; Marijke Van Ghelue; Øivind Nilssen
Journal:  PLoS One       Date:  2011-08-23       Impact factor: 3.240

10.  A role for the dystrophin-glycoprotein complex as a transmembrane linker between laminin and actin.

Authors:  J M Ervasti; K P Campbell
Journal:  J Cell Biol       Date:  1993-08       Impact factor: 10.539
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  18 in total

1.  A limb-girdle muscular dystrophy 2I model of muscular dystrophy identifies corrective drug compounds for dystroglycanopathies.

Authors:  Peter R Serafini; Michael J Feyder; Rylie M Hightower; Daniela Garcia-Perez; Natássia M Vieira; Angela Lek; Devin E Gibbs; Omar Moukha-Chafiq; Corinne E Augelli-Szafran; Genri Kawahara; Jeffrey J Widrick; Louis M Kunkel; Matthew S Alexander
Journal:  JCI Insight       Date:  2018-09-20

2.  Compound Heterozygous FKTN Variants in a Patient with Dilated Cardiomyopathy Led to an Aberrant α-Dystroglycan Pattern.

Authors:  Anna Gaertner; Lidia Burr; Baerbel Klauke; Andreas Brodehl; Kai Thorsten Laser; Karin Klingel; Jens Tiesmeier; Uwe Schulz; Edzard Zu Knyphausen; Jan Gummert; Hendrik Milting
Journal:  Int J Mol Sci       Date:  2022-06-15       Impact factor: 6.208

Review 3.  The Limb-Girdle Muscular Dystrophies: Is Treatment on the Horizon?

Authors:  Mary Lynn Chu; Ellen Moran
Journal:  Neurotherapeutics       Date:  2018-10       Impact factor: 7.620

4.  TNNT1 nemaline myopathy: natural history and therapeutic frontier.

Authors:  Michael D Fox; Vincent J Carson; Han-Zhong Feng; Michael W Lawlor; John T Gray; Karlla W Brigatti; J-P Jin; Kevin A Strauss
Journal:  Hum Mol Genet       Date:  2018-09-15       Impact factor: 6.150

Review 5.  Fukutin-Related Protein: From Pathology to Treatments.

Authors:  Carolina Ortiz-Cordero; Karim Azzag; Rita C R Perlingeiro
Journal:  Trends Cell Biol       Date:  2020-12-01       Impact factor: 20.808

6.  Overexpression of Mutant FKRP Restores Functional Glycosylation and Improves Dystrophic Phenotype in FKRP Mutant Mice.

Authors:  Jason D Tucker; Pei J Lu; Xiao Xiao; Qi L Lu
Journal:  Mol Ther Nucleic Acids       Date:  2018-03-06       Impact factor: 8.886

Review 7.  The ties that bind: functional clusters in limb-girdle muscular dystrophy.

Authors:  Elisabeth R Barton; Christina A Pacak; Whitney L Stoppel; Peter B Kang
Journal:  Skelet Muscle       Date:  2020-07-29       Impact factor: 4.912

8.  Dose-Dependent Effects of FKRP Gene-Replacement Therapy on Functional Rescue and Longevity in Dystrophic Mice.

Authors:  Charles Harvey Vannoy; Victoria Leroy; Qi Long Lu
Journal:  Mol Ther Methods Clin Dev       Date:  2018-10-13       Impact factor: 6.698

9.  AAV-Mediated Gene Transfer Restores a Normal Muscle Transcriptome in a Canine Model of X-Linked Myotubular Myopathy.

Authors:  Jean-Baptiste Dupont; Jianjun Guo; Edith Renaud-Gabardos; Karine Poulard; Virginie Latournerie; Michael W Lawlor; Robert W Grange; John T Gray; Ana Buj-Bello; Martin K Childers; David L Mack
Journal:  Mol Ther       Date:  2019-11-11       Impact factor: 11.454

Review 10.  At the Crossroads of Clinical and Preclinical Research for Muscular Dystrophy-Are We Closer to Effective Treatment for Patients?

Authors:  Kinga I Gawlik
Journal:  Int J Mol Sci       Date:  2018-05-16       Impact factor: 5.923
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