Peer-reviewed veterinary case report
Bone and joint X-rays in MPS I and VII dogs after newborn gene therapy
By Herati, Ramin Sedaghat et al.·Published in Molecular genetics and metabolism·2008·Department of Internal Medicine, United States·View original on PubMed →
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Original publication title: Radiographic evaluation of bones and joints in mucopolysaccharidosis I and VII dogs after neonatal gene therapy.
- Species:
- dog
Plain-English summary
A group of dogs with mucopolysaccharidosis I and VII, genetic disorders that affect bone and joint health, were evaluated after receiving neonatal gene therapy. Untreated MPS VII dogs had severely shortened bones and significant joint problems, while those treated with gene therapy showed some improvement, with longer bones and fewer abnormalities. In contrast, MPS I dogs had milder skeletal issues, and while gene therapy helped somewhat, it couldn't fully correct the severe problems in their cervical spine. Overall, the gene therapy improved bone health but did not completely stop the progression of skeletal disease in these dogs.
People also search for: dog bone disease treatment · mucopolysaccharidosis gene therapy dogs · joint problems in MPS dogs
Abstract
Mucopolysaccharidosis I (MPS I) and MPS VII are due to deficient activity of the glycosaminoglycan-degrading lysosomal enzymes alpha-L-iduronidase and beta-glucuronidase, respectively, and result in abnormal bones and joints. Here, the severity of skeletal disease in MPS I and MPS VII dogs and the effects of neonatal gene therapy were evaluated. For untreated MPS VII dogs, the lengths of the second cervical vertebrae (C2) and the femur were only 56% and 84% of normal, respectively, and bone dysplasia and articular erosions, and joint subluxation were severe. Previously, we reported that neonatal intravenous injection of a retroviral vector (RV) with the appropriate gene resulted in expression in liver and blood cells, and high serum enzyme activity. In this study, we demonstrate that C2 and femurs of RV-treated MPS VII dogs were longer at 82% and 101% of normal, respectively, and there were partial improvements of qualitative abnormalities. For untreated MPS I dogs, the lengths of C2 and femurs (91% and 96% of normal, respectively) were not significantly different from normal dogs. Qualitative changes in MPS I bones and joints were generally modest and were partially improved with RV treatment, although cervical spine disease was severe and was difficult to correct with gene therapy in both models. The greater severity of skeletal disease in MPS VII than in MPS I dogs may reflect accumulation of chondroitin sulfate in cartilage in MPS VII, or could relate to the specific mutations. Neonatal RV-mediated gene therapy ameliorates, but does not prevent, skeletal disease in MPS I and MPS VII dogs.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/18707908/