Mucopolysaccharidosis Type I: A Review of the Natural History and Molecular Pathology

Hampe, Christiane S.; Eisengart, Julie B.; Lund, Troy C.; Orchard, Paul J.; Swietlicka, Monika; Wesley, Jacob; McIvor, R. Scott

doi:10.3390/cells9081838

Cited by 60 publications

(71 citation statements)

References 232 publications

(333 reference statements)

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“…This is because extracellular GAG accumulation can occur as a long-term consequence of defects in lysosomal GAG-degrading enzymes. For example, patients suffering from various mucopolysaccharidoses (MPS), including MPS type I (Hurler and Hurler–Scheie syndromes), MPS type II (Hunter syndrome), and MPS type III (Sanfilippo syndrome), exhibit widespread extracellular deposition of GAGs ( 57 , 58 , 59 ), even though the causal defects in these disorders reside in lysosomal enzymes. It is thus possible that the extracellular accumulation of HA observed in constitutive Hyal2 knockout mice may not be the direct consequence of defects in cell surface HA degradation, but instead is caused by defects in lysosomal HS degradation.…”

Section: Discussionmentioning

confidence: 99%

The cell surface hyaluronidase TMEM2 is essential for systemic hyaluronan catabolism and turnover

Tobisawa

Fujita

Yamamoto

et al. 2021

Journal of Biological Chemistry

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Section: Discussionmentioning

confidence: 99%

The cell surface hyaluronidase TMEM2 is essential for systemic hyaluronan catabolism and turnover

Tobisawa

Fujita

Yamamoto

et al. 2021

Journal of Biological Chemistry

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“…The characteristics of non-skeletal manifestations as oral and dental abnormalities may provide an additional differential diagnosis tool of MONA syndrome ( Mehrez et al, 2019 ). Genetic analysis remains important to the differential diagnosis of skeletal dysplasia with childhood-onset osteoporosis as pathogenic variants in SGMS2 gene ( Al Kaissi et al, 2011 ; Pekkinen et al, 2019 ; Robinson et al, 2020 ) and pathogenic variants of PLS3 gene ( Kämpe et al, 2017 ), to skeletal dysplasias simulating juvenile idiopathic arthritis as pathogenic variants in WISP3 gene ( Gaboon et al, 2019 ; Torreggiani et al, 2019 ) and to the differential diagnosis of MPS type-I ( Hampe et al, 2020 ).…”

Section: Discussionmentioning

confidence: 99%

“…The overlapping skeletal and non-skeletal features of these two genetic skeletal dysplasias compounds the diagnostic challenges. Additionally, MONA and Winchester syndromes ( Winchester et al, 1969 ; Al Aqeel et al, 2000 ) among others ( Al Kaissi et al, 2011 ; Li et al, 2020 ) can have a misleading radioclinical resemblance to juvenile idiopathic arthritis and mucopolysaccharidosis (MPS) type-I as Scheie syndrome ( Hampe et al, 2020 ; Gökay et al, 2018 ). The treatment of MONA syndrome is palliative ( Pichler et al, 2016 ) and little is known about the long-term prognosis apart from tendency to progression of skeletal features.…”

Section: Introductionmentioning

confidence: 99%

Multicentric Osteolysis, Nodulosis, and Arthropathy in two unrelated children with matrix metalloproteinase 2 variants: Genetic-skeletal correlations

et al. 2021

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Multicentric Osteolysis, Nodulosis, and Arthropathy (MONA) syndrome is a rare genetic skeletal dysplasia. Its diagnosis can be deceptively similar to childhood-onset genetic skeletal dysplasias and juvenile idiopathic arthritis. We aimed to report the syndrome’s clinical and radiologic features with emphasis on skeletal manifestations. And establish relevant phenotype-genotype correlations. We evaluated two boys, 4-and-7-years-old with MONA syndrome. Both patients had consanguineous parents. We verified the diagnosis by correlating the outcomes of clinical, radiologic and molecular analysis. We specifically evaluated the craniofacial morphology and clinical and radiographic skeletal abnormalities. We contextualized the resultant phenotype-genotype correlations to publications on MONA and its differential diagnosis. Skeletal manifestations were the presenting symptoms and mostly restricted to hands and feet in terms of fixed extension deformity of the metacarpophalangeal and flexion deformity of the interphalangeal joints with extension deformity of big toes. There were arthritic symptoms in the older patient especially of the wrists and minute pathologic fractures. The skeletal radiographs showed osteopenia/dysplastic changes of hands and feet. Both patients had variants in the matrix metalloproteinase2 gene which conformed to phenotype of previously reported literature in one patient while the other had a novel variant which conformed to MONA phenotype. Craniofacial abnormalities were present. However, minimal extra-skeletal manifestations. Overall, there is an emerging distinctive skeletal pattern of involvement in terms of both clinical and radiographic features. This includes age of onset and location of presenting skeletal manifestations, chronological order of joint affection, longitudinal disease progression, specifics of skeletal radiographic pathology and craniofacial features. Nevertheless, physicians are cautioned against differential diagnosis of similar genetic skeletal dysplasias and juvenile idiopathic arthritis.

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“…Mucopolysaccharidosis type I (MPS-I) is a progressively debilitating disorder which is caused by mutations of the gene encoding alpha-L-iduronidase (IDUA), an enzyme important for the degradation of glycosaminoglycans (GAGs) in the lysosomes ( Hampe et al. 2020 ).…”

Section: Introductionmentioning

confidence: 99%

Inhibition of iduronic acid biosynthesis by ebselen reduces glycosaminoglycan accumulation in mucopolysaccharidosis type I fibroblasts

et al. 2021

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Mucopolysaccharidosis type one (MPS-I) is a rare lysosomal storage disorder caused by deficiency of the enzyme alpha-L-iduronidase which removes iduronic acid in both chondroitin/dermatan sulfate (CS/DS) and heparan sulfate (HS) and thereby contributes to the catabolism of glycosaminoglycans (GAGs). To ameliorate this genetic defect, the patients are currently treated by enzyme replacement and bone marrow transplantation, which have a number of drawbacks. This study was designed to develop an alternative treatment by inhibition of iduronic acid formation. By screening the Prestwick drug library, we identified ebselen as a potent inhibitor of enzymes that produce iduronic acid in CS/DS and HS. Ebselen efficiently inhibited iduronic acid formation during CS/DS synthesis in cultured fibroblasts. Treatment of MPS-I fibroblasts with ebselen not only reduced accumulation of CS/DS, but also promoted GAG degradation. In early Xenopus embryos, this drug phenocopied the effect of downregulation of DS-epimerase 1, the main enzyme responsible for iduronic production in CS/DS, suggesting that ebselen inhibits iduronic acid production in vivo. However, ebselen failed to ameliorate the CS/DS and GAG burden in MPS-I mice. Nevertheless, the results propose a potential of iduronic acid substrate reduction therapy for MPS-I patients.

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Mucopolysaccharidosis Type I: A Review of the Natural History and Molecular Pathology

Cited by 60 publications

References 232 publications

The cell surface hyaluronidase TMEM2 is essential for systemic hyaluronan catabolism and turnover

The cell surface hyaluronidase TMEM2 is essential for systemic hyaluronan catabolism and turnover

Multicentric Osteolysis, Nodulosis, and Arthropathy in two unrelated children with matrix metalloproteinase 2 variants: Genetic-skeletal correlations

Inhibition of iduronic acid biosynthesis by ebselen reduces glycosaminoglycan accumulation in mucopolysaccharidosis type I fibroblasts

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