Literature DB >> 35145305

AAV gene therapy for Tay-Sachs disease.

Terence R Flotte1,2, Oguz Cataltepe3,4, Ajit Puri5, Ana Rita Batista6,7, Richard Moser4, Diane McKenna-Yasek7, Catherine Douthwright7, Gwladys Gernoux3,6, Meghan Blackwood3,6, Christian Mueller3,6, Phillip W L Tai6, Xuntian Jiang8, Scot Bateman3, Spiro G Spanakis9, Julia Parzych9, Allison M Keeler3,6, Aly Abayazeed5, Saurabh Rohatgi5, Laura Gibson3,10, Robert Finberg10, Bruce A Barton11, Zeynep Vardar5, Mohammed Salman Shazeeb5, Matthew Gounis5, Cynthia J Tifft12, Florian S Eichler13, Robert H Brown6,7, Douglas R Martin14, Heather L Gray-Edwards6,5, Miguel Sena-Esteves15,16.   

Abstract

Tay-Sachs disease (TSD) is an inherited neurological disorder caused by deficiency of hexosaminidase A (HexA). Here, we describe an adeno-associated virus (AAV) gene therapy expanded-access trial in two patients with infantile TSD (IND 18225) with safety as the primary endpoint and no secondary endpoints. Patient TSD-001 was treated at 30 months with an equimolar mix of AAVrh8-HEXA and AAVrh8-HEXB administered intrathecally (i.t.), with 75% of the total dose (1 × 1014 vector genomes (vg)) in the cisterna magna and 25% at the thoracolumbar junction. Patient TSD-002 was treated at 7 months by combined bilateral thalamic (1.5 × 1012 vg per thalamus) and i.t. infusion (3.9 × 1013 vg). Both patients were immunosuppressed. Injection procedures were well tolerated, with no vector-related adverse events (AEs) to date. Cerebrospinal fluid (CSF) HexA activity increased from baseline and remained stable in both patients. TSD-002 showed disease stabilization by 3 months after injection with ongoing myelination, a temporary deviation from the natural history of infantile TSD, but disease progression was evident at 6 months after treatment. TSD-001 remains seizure-free at 5 years of age on the same anticonvulsant therapy as before therapy. TSD-002 developed anticonvulsant-responsive seizures at 2 years of age. This study provides early safety and proof-of-concept data in humans for treatment of patients with TSD by AAV gene therapy.
© 2022. The Author(s), under exclusive licence to Springer Nature America, Inc.

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Year:  2022        PMID: 35145305     DOI: 10.1038/s41591-021-01664-4

Source DB:  PubMed          Journal:  Nat Med        ISSN: 1078-8956            Impact factor:   87.241


  42 in total

1.  Intrathecal gene therapy corrects CNS pathology in a feline model of mucopolysaccharidosis I.

Authors:  Christian Hinderer; Peter Bell; Brittney L Gurda; Qiang Wang; Jean-Pierre Louboutin; Yanqing Zhu; Jessica Bagel; Patricia O'Donnell; Tracey Sikora; Therese Ruane; Ping Wang; Mark E Haskins; James M Wilson
Journal:  Mol Ther       Date:  2014-07-16       Impact factor: 11.454

2.  Strong cortical and spinal cord transduction after AAV7 and AAV9 delivery into the cerebrospinal fluid of nonhuman primates.

Authors:  Lluis Samaranch; Ernesto A Salegio; Waldy San Sebastian; Adrian P Kells; John R Bringas; John Forsayeth; Krystof S Bankiewicz
Journal:  Hum Gene Ther       Date:  2013-05-02       Impact factor: 5.695

3.  Single-Dose Gene-Replacement Therapy for Spinal Muscular Atrophy.

Authors:  Jerry R Mendell; Samiah Al-Zaidy; Richard Shell; W Dave Arnold; Louise R Rodino-Klapac; Thomas W Prior; Linda Lowes; Lindsay Alfano; Katherine Berry; Kathleen Church; John T Kissel; Sukumar Nagendran; James L'Italien; Douglas M Sproule; Courtney Wells; Jessica A Cardenas; Marjet D Heitzer; Allan Kaspar; Sarah Corcoran; Lyndsey Braun; Shibi Likhite; Carlos Miranda; Kathrin Meyer; K D Foust; Arthur H M Burghes; Brian K Kaspar
Journal:  N Engl J Med       Date:  2017-11-02       Impact factor: 91.245

4.  Improving single injection CSF delivery of AAV9-mediated gene therapy for SMA: a dose-response study in mice and nonhuman primates.

Authors:  Kathrin Meyer; Laura Ferraiuolo; Leah Schmelzer; Lyndsey Braun; Vicki McGovern; Shibi Likhite; Olivia Michels; Alessandra Govoni; Julie Fitzgerald; Pablo Morales; Kevin D Foust; Jerry R Mendell; Arthur H M Burghes; Brian K Kaspar
Journal:  Mol Ther       Date:  2014-10-31       Impact factor: 11.454

5.  A phase I study of aromatic L-amino acid decarboxylase gene therapy for Parkinson's disease.

Authors:  Shin-ichi Muramatsu; Ken-ichi Fujimoto; Seiya Kato; Hiroaki Mizukami; Sayaka Asari; Kunihiko Ikeguchi; Tadataka Kawakami; Masashi Urabe; Akihiro Kume; Toshihiko Sato; Eiju Watanabe; Keiya Ozawa; Imaharu Nakano
Journal:  Mol Ther       Date:  2010-07-06       Impact factor: 11.454

6.  Natural history of infantile G(M2) gangliosidosis.

Authors:  Annette E Bley; Ourania A Giannikopoulos; Doug Hayden; Kim Kubilus; Cynthia J Tifft; Florian S Eichler
Journal:  Pediatrics       Date:  2011-10-24       Impact factor: 7.124

7.  Intraventricular brain injection of adeno-associated virus type 1 (AAV1) in neonatal mice results in complementary patterns of neuronal transduction to AAV2 and total long-term correction of storage lesions in the brains of beta-glucuronidase-deficient mice.

Authors:  Marco A Passini; Deborah J Watson; Charles H Vite; Daniel J Landsburg; Alyson L Feigenbaum; John H Wolfe
Journal:  J Virol       Date:  2003-06       Impact factor: 5.103

8.  Expanded repertoire of AAV vector serotypes mediate unique patterns of transduction in mouse brain.

Authors:  Cassia N Cearley; Luk H Vandenberghe; Michael K Parente; Erin R Carnish; James M Wilson; John H Wolfe
Journal:  Mol Ther       Date:  2008-08-19       Impact factor: 11.454

9.  Global CNS gene delivery and evasion of anti-AAV-neutralizing antibodies by intrathecal AAV administration in non-human primates.

Authors:  S J Gray; S Nagabhushan Kalburgi; T J McCown; R Jude Samulski
Journal:  Gene Ther       Date:  2013-01-10       Impact factor: 5.250

10.  Potent spinal parenchymal AAV9-mediated gene delivery by subpial injection in adult rats and pigs.

Authors:  Atsushi Miyanohara; Kota Kamizato; Stefan Juhas; Jana Juhasova; Michael Navarro; Silvia Marsala; Nada Lukacova; Marian Hruska-Plochan; Erik Curtis; Brandon Gabel; Joseph Ciacci; Eric T Ahrens; Brian K Kaspar; Don Cleveland; Martin Marsala
Journal:  Mol Ther Methods Clin Dev       Date:  2016-07-13       Impact factor: 6.698
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  7 in total

1.  A solid start for gene therapy in Tay-Sachs disease.

Authors:  Timothy W Yu; Olaf Bodamer
Journal:  Nat Med       Date:  2022-02       Impact factor: 53.440

2.  Towards gene therapy for Tay-Sachs disease.

Authors:  Dorothy Clyde
Journal:  Nat Rev Genet       Date:  2022-04       Impact factor: 53.242

Review 3.  Approaches to Gene Modulation Therapy for ALS.

Authors:  Katharina E Meijboom; Robert H Brown
Journal:  Neurotherapeutics       Date:  2022-09-06       Impact factor: 6.088

Review 4.  The Translational Benefits of Sheep as Large Animal Models of Human Neurological Disorders.

Authors:  Samantha J Murray; Nadia L Mitchell
Journal:  Front Vet Sci       Date:  2022-02-15

5.  Therapeutic advantages of combined gene/cell therapy strategies in a murine model of GM2 gangliosidosis.

Authors:  Davide Sala; Francesca Ornaghi; Francesco Morena; Chiara Argentati; Manuela Valsecchi; Valeria Alberizzi; Roberta Di Guardo; Alessandra Bolino; Massimo Aureli; Sabata Martino; Angela Gritti
Journal:  Mol Ther Methods Clin Dev       Date:  2022-03-16       Impact factor: 6.698

Review 6.  A versatile toolkit for overcoming AAV immunity.

Authors:  Xuefeng Li; Xiaoli Wei; Jinduan Lin; Li Ou
Journal:  Front Immunol       Date:  2022-09-02       Impact factor: 8.786

7.  Systemic gene therapy for methylmalonic acidemia using the novel adeno-associated viral vector 44.9.

Authors:  Randy J Chandler; Giovanni Di Pasquale; Jennifer L Sloan; Samantha McCoy; Brandon T Hubbard; Tina M Kilts; Irini Manoli; John A Chiorini; Charles P Venditti
Journal:  Mol Ther Methods Clin Dev       Date:  2022-09-06       Impact factor: 5.849
  7 in total

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