Top

Published in:

01-05-2013 | Original Article

Retroviral-vector-mediated gene therapy to mucopolysaccharidosis I mice improves sensorimotor impairments and other behavioral deficits

Authors: Guilherme Baldo, David F. Wozniak, Kevin K. Ohlemiller, Yanming Zhang, Roberto Giugliani, Katherine P. Ponder

Published in: Journal of Inherited Metabolic Disease | Issue 3/2013

Abstract

Mucopolysaccharidosis I (MPS I) is a lysosomal storage disease due to α-L-iduronidase (IDUA) deficiency that results in the accumulation of glycosaminoglycans (GAG). Systemic gene therapy to MPS I mice can reduce lysosomal storage in the brain, but few data are available regarding the effect upon behavioral function. We investigated the effect of gene therapy with a long-terminal-repeat (LTR)-intact retroviral vector or a self-inactivating (SIN) vector on behavioral function in MPS I mice. The LTR vector was injected intravenously to 6-week-old MPS I mice, and the SIN vector was given to neonatal or 6-week-old mice. Adult-LTR, neonatal-SIN, and adult-SIN-treated mice achieved serum IDUA activity of 235 ± 20 (84-fold normal), 127 ± 10, and 71 ± 7 U/ml, respectively. All groups had reduction in histochemical evidence of lysosomal storage in the brain, with the adult-LTR group showing the best response, while adult-LTR mice had reductions in lysosomal storage in the cristae of the vestibular system. Behavioral evaluation was performed at 8 months. Untreated MPS I mice had a markedly reduced ability to hold onto an inverted screen or climb down a pole. LTR-vector-treated mice had marked improvements on both of these tests, whereas neonatal-SIN mice showed improvement in the pole test. We conclude that both vectors can reduce brain disease in MPS I mice, with the LTR vector achieving higher serum IDUA levels and better correction. Vestibular abnormalities may contribute to mobility problems in patients with MPS I, and gene therapy may reduce symptoms.

Available only for authorised users

Aldenhoven M, Boelens JJ, de Koning TJ (2008) The Clinical Outcome of Hurler Syndrome after Stem Cell Transplantation. Biol Blood Marrow Transplant 14:485–498PubMedCrossRef

Aronovich EL, Bell JB, Khan SA et al (2009) Systemic correction of storage disease in MPS I NOD/SCID mice using the sleeping beauty transposon system. Mol Ther 17:1136–1144PubMedCrossRef

Baehner F, Schmiedeskamp C, Krummenauer F et al (2005) Cumulative incidence rates of the mucopolysaccharidoses in Germany. J Inherit Metab Dis 28:1011–1017PubMedCrossRef

Baldo G, Wu S, Howe R et al (2011) Pathogenesis of aortic dilatation in MPS VII mice may involve complement activation. Mol Genet Metab 104:608–619PubMedCrossRef

Banks WA (2004) Are the extracellular pathways a conduit for the delivery of therapeutics to the brain. Curr Pharm Des 10:1365–1370PubMedCrossRef

Chung S, Ma X, Liu Y, Lee D, Tittiger M, Ponder KP (2007) Effect of neonatal administration of a retroviral vector expressing alpha-L-iduronidase upon lysosomal storage in brain and other organs in mucopolysaccharidosis I mice. Mol Genet Metab 90:181–192PubMedCrossRef

Ciron C, Desmaris N, Colle MA et al (2006) Gene therapy of the brain in the dog model of Hurler’s syndrome. Ann Neurol 60:204–213PubMedCrossRef

Di Domenico C, Di Napoli D, Gonzalez Y et al (2006) Limited transgene immune response and long-term expression of human alpha-L-iduronidase in young adult mice with mucopolysaccharidosis type I by liver-directed gene therapy. Hum Gene Ther 17:1112–1121PubMedCrossRef

Ellinwood NM, Ausseil J, Desmaris N et al (2011) Safe, efficient, and reproducible gene therapy of the brain in the dog models of Sanfilippo and Hurler syndromes. Mol Ther 19:251–259PubMedCrossRef

Fuller GN, Burger PC (2007) Central nervous system. In: Mills S (ed) Histology for Pathologists, 3rd edn. Lippincott Williams & Wilkins, Philadelphia, pp 273–319

Garbuzova-Davis S, Louis MK, Haller EM, Derasari HM, Rawls AE, Sanberg PR (2011) Blood-brain barrier impairment in an animal model of MPS III B. PLoS One 6:e16601PubMedCrossRef

Grubb JH, Vogler C, Levy B, Galvin N, Tan Y, Sly WS (2008) Chemically modified beta-glucuronidase crosses blood-brain barrier and clears neuronal storage in murine mucopolysaccharidosis VII. Proc Natl Acad Sci USA 105:2616–2621PubMedCrossRef

Hartung SD, Frandsen JL, Pan D et al (2004) Correction of metabolic, craniofacial, and neurologic abnormalities in MPS I mice treated at birth with adeno-associated virus vector transducing the human alpha-L-iduronidase gene. Mol Ther 9:866–875PubMedCrossRef

Heldermon CD, Hennig AK, Ohlemiller KK et al (2007) Development of sensory, motor and behavioral deficits in the murine model of Sanfilippo syndrome type B. PLoS One 2:e772PubMedCrossRef

Kakkis ED, Muenzer J, Tiller GE et al (2001) Enzyme-replacement therapy in mucopolysaccharidosis I. N Engl J Med 344:182–188PubMedCrossRef

Kobayashi H, Carbonaro D, Pepper K et al (2005) neonatal gene therapy of MPS I mice by intravenous injection of a lentiviral vector. Mol Ther 11:776–789PubMedCrossRef

Liu Y, Xu L, Hennig AK et al (2005) Liver-directed neonatal gene therapy prevents cardiac, bone, ear, and eye disease in mucopolysaccharidosis I mice. Mol Ther 11:35–47PubMedCrossRef

Ma X, Liu Y, Tittiger M et al (2007) Improvements in mucopolysaccharidosis I mice after adult retroviral vector-mediated gene therapy with immunomodulation. Mol Ther 15:889–902PubMed

Metcalf J, Ma X, Linders B, Wu S et al (2010) A self-inactivating gamma-retroviral vector reduces manifestations of mucopolysaccharidosis I in mice. Mol Ther 18:334–342PubMedCrossRef

Neufeld EF, Muenzer J (2001) The Mucopolysaccharidoses. In: Scriver CR, Beaudet AL, Sly WS, Valle D (eds) Metabolic and Molecular Basis of Inherited Disease. McGraw Hill, New York, pp 3421–3452

Ohlemiller KK, Hennig AK, Lett JM, Heidbreder AF, Sands MS (2002) Inner ear pathology in the mucopolysaccharidosis VII mouse. Hear Res 16:969–984

Ohmi K, Greenberg DS, Rajavel KS, Ryazantsev S, Li HH, Neufeld EF (2003) Activated microglia in cortex of mouse models of mucopolysaccharidoses I and IIIB. Proc Natl Acad Sci USA 100:1902–1907PubMedCrossRef

Osborne MJ, McElmurry RT, Lees CJ et al (2011) Minicircle DNA-based gene therapy coupled with immune modulation permits long-term expression of α-L-iduronidase in mice with mucopolysaccharidosis type I. Mol Ther 19:450–460CrossRef

Pan D, Sciascia A, Vorhees C, Williams MT (2008) Progression of multiple behavior deficits with various age of onsets in a murine model of Hurler syndrome. Brain Res 1188:241–253PubMedCrossRef

Ponder KP, Haskins ME (2007) Gene therapy for mucopolysaccharidosis. Expert Opin Biol Ther 7:1333–1345PubMedCrossRef

Reolon GK, Braga LM, Camassola M et al (2006) Long-term memory for aversive training is impaired in IDUA^-/- mice, a genetic model of mucopolysaccharidosis type I. Brain Res 1076:225–230PubMedCrossRef

Reolon GK, Reinke A, de Oliveira MR et al (2009) Alterations in oxidative markers in the cerebellum and peripheral organs in MPS I mice. Cell Mol Neurobiol 29:443–448PubMedCrossRef

Schachern PA, Cureoglu S, Tsuprun V, Paparella MM, Whitley CB (2007) Age-related functional and histopathological changes of the ear in the MPS I mouse. Int J Pediatr Otorhinolaryngol 71:197–203PubMedCrossRef

Staba SL, Escolar ML, Poe M et al (2004) Cord-blood transplants from unrelated donors in patients with Hurler’s syndrome. N Engl J Med 350:1960–1969PubMedCrossRef

Thomas JA, Beck M, Clarke JT, Cox GF (2010) Childhood onset of Scheie syndrome, the attenuated form of mucopolysaccharidosis I. J Inherit Metab Dis 33:421–427PubMedCrossRef

Trobridge GD (2011) Genotoxicity of retroviral hematopoietic stem cell gene therapy. Expert Opin Biol Ther 11:581–593PubMedCrossRef

Visigalli I, Delai S, Politi LS et al (2010) Gene therapy augments the efficacy of hematopoietic cell transplantation and fully corrects mucopolysaccharidosis type I phenotype in the mouse model. Blood 116:5130–5139PubMedCrossRef

Vogler C, Levy B, Grubb JH et al (2005) Overcoming the blood-brain barrier with high-dose enzyme replacement therapy in murine mucopolysaccharidosis VII. Proc Natl Acad Sci USA 102:14777–14782PubMedCrossRef

Walkley SU (2004) Secondary accumulation of gangliosides in lysosomal storage disorders. Semin Cell Dev Biol 15:433–444PubMedCrossRef

Wang D, Zhang W, Kalfa TA et al (2009a) Reprogramming erythroid cells for lysosomal enzyme production leads to visceral and CNS cross-correction in mice with Hurler syndrome. Proc Natl Acad Sci USA 106:19958–19963PubMed

Wang RY, Cambray-Forker EJ, Ohanian K et al (2009b) Treatment reduces or stabilizes brain imaging abnormalities in patients with MPS I and II. Mol Genet Metab 98:406–411PubMedCrossRef

Watson G, Bastacky J, Belichenko P et al (2006) Intrathecal administration of AAV vectors for the treatment of lysosomal storage in the brains of MPS I mice. Gene Ther 13:917–925PubMed

Wolf DA, Lenander AW, Nan Z et al (2011) Direct gene transfer to the CNS prevents emergence of neurologic disease in a murine model of mucopolysaccharidosis type I. Neurobiol Dis 43:123–133PubMedCrossRef

Wozniak DF, Hartman RE, Boyle MP et al (2004) Apoptotic neurodegeneration induced by ethanol in neonatal mice is associated with profound learning/memory deficits in juveniles followed by progressive functional recovery in adults. Neurobiol Dis 17:403–414PubMedCrossRef

Wozniak DF, Xiao M, Xu L, Yamada KA, Ornitz DM (2007) Impaired spatial learning and defective theta burst induced LTP in mice lacking fibroblast growth factor 14. Neurobiol Dis 26:4–26CrossRef

Wraith JE, Beck M, Lane R et al (2007) Enzyme replacement therapy in patients who have mucopolysaccharidosis I and are younger than 5 years: results of a multinational study of recombinant human alpha-L-iduronidase (laronidase). Pediatrics 120:e37–e46PubMedCrossRef

Title: Retroviral-vector-mediated gene therapy to mucopolysaccharidosis I mice improves sensorimotor impairments and other behavioral deficits
Authors: Guilherme Baldo
David F. Wozniak
Kevin K. Ohlemiller
Yanming Zhang
Roberto Giugliani
Katherine P. Ponder
Publication date: 01-05-2013
Publisher: Springer Netherlands
Published in: Journal of Inherited Metabolic Disease / Issue 3/2013
Print ISSN: 0141-8955
Electronic ISSN: 1573-2665
DOI: https://doi.org/10.1007/s10545-012-9530-x

ACC 2024 Congress Coverage

Heart Failure Video

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

Retroviral-vector-mediated gene therapy to mucopolysaccharidosis I mice improves sensorimotor impairments and other behavioral deficits

Abstract

ACC 2024 Congress Coverage

Year in Review: Heart failure and cardiomyopathies

Semaglutide benefits people with type 2 diabetes and obesity-related heart failure

Incentivised to exercise

New intervention for STEMI-related cardiogenic shock

» View more highlights on the ACC 2024 congress hub page

At a glance: The ONWARDS insulin icodec trials

Springer Medicine

Abstract

Please log in to get access to this content

Other articles of this Issue 3/2013

Dynamic changes of lipid profile in Romanian patients with Gaucher disease type 1 under enzyme replacement therapy: a prospective study

Cyclodextrin alleviates neuronal storage of cholesterol in Niemann-Pick C disease without evidence of detectable blood–brain barrier permeability

Long-term clinical outcomes in type 1 Gaucher disease following 10 years of imiglucerase treatment

An innovative approach to the treatment of Gaucher disease and possibly other metabolic disorders of the brain

Two neonatal cholestasis patients with mutations in the SRD5B1 (AKR1D1) gene: diagnosis and bile acid profiles during chenodeoxycholic acid treatment

The CXCL12/CXCR4/CXCR7 ligand-receptor system regulates neuro-glio-vascular interactions and vessel growth during human brain development

ACC 2024 Congress Coverage

Year in Review: Heart failure and cardiomyopathies

Semaglutide benefits people with type 2 diabetes and obesity-related heart failure

Incentivised to exercise

New intervention for STEMI-related cardiogenic shock

» View more highlights on the ACC 2024 congress hub page