AAV8-Mediated Hepatic Expression of Acid Sphingomyelinase Corrects the Metabolic Defect in the Visceral Organs of a Mouse Model of Niemann–Pick Disease
Citations Over TimeTop 11% of 2005 papers
Abstract
Acid sphingomyelinase deficiency is a lysosomal storage disorder in which the defective lysosomal hydrolase fails to degrade sphingomyelin. The resulting accumulation of substrate in the lysosomes of histiocytic cells leads to hepatosplenomegaly and severe pulmonary inflammation. Administration of a recombinant AAV1 vector encoding human acid sphingomyelinase to acid sphingomyelinase knockout (ASMKO) mice effectively reduced the accumulated substrate in all of the affected visceral organs. However, more complete and rapid clearance of sphingomyelin was observed when an AAV8-based serotype vector was used in lieu of AAV1. Importantly, AAV8-mediated hepatic expression of higher and sustained levels of the enzyme also corrected the abnormal cellularity, cell differentials, and levels of the chemokine MIP-1alpha in the bronchoalveolar lavage fluids of the ASMKO mice. Treatment also reversed the morphological aberrations associated with the alveolar macrophages of ASMKO mice and restored their phagocytic activity. No antibodies to the expressed enzyme were detected when the viral vectors were used in conjunction with a transcription cassette harboring a liver-restricted enhancer/promoter. Together, these data support the continued development of AAV8-mediated hepatic gene transfer as an approach to treat the visceral manifestations observed in individuals with acid sphingomyelinase deficiency.
Related Papers
- → Accurate Differentiation of Neuronopathic and Nonneuronopathic Forms of Niemann‐Pick Disease by Evaluation of the Effective Residual Lysosomal Sphingomyelinase Activity in Intact Cells(1994)75 cited
- → Creation of a mouse model for non-neurological (type B) Niemann-Pick disease by stable, low level expression of lysosomal sphingomyelinase in the absence of secretory sphingomyelinase: relationship between brain intra-lysosomal enzyme activity and central nervous system function(2000)48 cited
- → Extracellular vesicles increase the enzymatic activity of lysosomal proteins and improve the efficacy of enzyme replacement therapy in Fabry disease(2020)5 cited
- → Lysosomal Sphingomyelinase: Patients with Niemann-Pick Disease Have Normal Amounts of Sphingomyelinase Polypeptide(1988)2 cited
- → Novel breakthrough in the treatment of sphingomyelinase deficiency(2023)