Aurora Daniele

Heparan N-sulfatase gene: two novel mutations and transient expression of 15 defects.

Sanfilippo syndrome type A or mucopolysaccharidosis IIIA (MPS IIIA) results from the deficiency of the enzyme heparan N-sulfatase (NS, EC 3.10.1.1), required for the degradation of heparan sulfate. Molecular defects of 24 Italian MPS IIIA patients were recently reported by our group. We report here two novel mutations: 1040insT and Q365X and the expression studies on 15 of the identified defects. Transient expression of COS cells by cDNA mutagenized to correspond to heparan N-sulfatase mutations Y40N, A44T, 166delG, G122R, P128L, L146P, R150Q, D179N, R182C, R206P, P227R, 1040insT, 1093insG, E369K, R377C did not yield active enzyme, demonstrating the deleterious nature of the mutations. Western blot analysis and metabolic labeling experiments revealed, for cells transfected with wild-type enzyme, a precursor 62-kDa form and a mature 56-kDa form. Western blot resulted, for 11 mutations, in the presence of both forms, indicating a normal maturation of the mutant enzyme. Western blot, metabolic labeling and immunofluorescence experiments suggested, for mutations 166delG, L146P, 1040insT and 1093insG, an increased degradation of the mutant enzymes.

Expression of five iduronate-2-sulfatase site-directed mutations

Five point mutations (R88H, R88P, T118I, 959delT, R468Q) previously identified in the iduronate-2-sulfatase (IDS) gene of Italian Hunter patients were expressed in COS cells to evaluate their functional consequence on enzyme activity, processing and intracellular localization. The 88 arginine residue belongs to the CXPSR pentapeptide conserved in all human sulfatases, where cysteine modification to formylglycine is required for enzyme activity. Substitution of arginine with histidine residue resulted in 13.7% residual enzyme activity, with an apparent K(m) value (133 microM) lower than that found for the normal enzyme (327 microM), indicating a higher affinity for the substrate; substitution of arginine with proline resulted in total absence of residual activity, in agreement with the phenotypes observed in patients carrying R88H and R88P mutations. For the four missense mutations, pulse-chase labelling experiments showed an apparently normal maturation; however, subcellular fractionation demonstrated poor transport to lysosomes. Therefore, residues 88, 118 and 468 appear to be not essential for processing but important for IDS conformation.

Uptake of recombinant iduronate-2-sulfatase into neuronal and glial cells in vitro

Mucopolysaccharidosis type II (MPS II, Hunter syndrome) is a congenital storage disorder resulting from mutations on the iduronate-2-sulfatase (IDS) gene. The disease shows variable clinical phenotypes from severe to mild with progressive neurological dysfunction. The therapeutic options for treatment of MPS II are limited and currently no specific therapies are available; the problem is further compounded by difficulties in delivering therapeutic agents to the central nervous system (CNS). In this work, as a potential treatment for this disease, the transfer of the recombinant IDS enzyme into brain cells has been studied in vitro. Two different approaches to obtain recombinant IDS have been utilized: production of the recombinant enzyme by a transfected human clone (Bosc 23 cells); production of the recombinant enzyme by adenoviral transduction of neuronal (SK-N-BE) or glial (C6) cells. Our data indicate that the transfected as well as the infected cells produce a large amount of the IDS enzyme, which is efficiently endocytosed into neuronal and glial cells through the mannose 6-phosphate (M6P) receptor system. Somatic gene therapy appears therefore to be suitable to correct IDS deficiency in brain cells.

Animal models for lysosomal storage diseases: a new case of feline mucopolysaccharidosis VI.

SummaryTwo long-haired Siamese cats are reported with clinical manifestations of human mucopolysaccharidosis VI (Maroteaux-Lamy disease): facial dysmorphia, dysostosis multiplex, paralysis. Urine of the two affected animals contained a high concentration of glycosaminoglycans, as detected by the dimethylmethylene blue test. Qualitative analysis, performed by thin-layer chromatography of the cetylpyridinium chloride-precipitable material, showed dermatan sulphate. Excessive incorporation of [35S]sulphate in the intracellular mucopolysaccharide of cultured fibroblasts and deficiency of arylsulphatase B in such cells indicate that these cats are affected by Maroteaux-Lamy disease. They should thus be considered the first European case of feline mucopolysaccharidosis VI.

Analysis of Sanfilippo A gene mutations in a large pedigree.

Mucopolysaccharidosis type IIIA, also known as Sanfilippo A disease, results from mutations in the sulfamidase gene. To date, a total of 62 mutations have been described underlying this lysosomal disorder. Expression studies on missense mutations have shown that each alteration was disease‐causing and helped to clarify the genotype–phenotype correlation. In this report we describe a large pedigree where the mutations have been identified in two second cousins: one with severe disease (E369K/R433Q) and the other with a mild form of the illness (E369K/P128L). This study places R433Q as a severe mutation underlying Sanfilippo A disease.

Hunter syndrome: presence of material cross-reacting with antibodies against iduronate sulfatase.

SummaryPolyclonal antibodies were obtained from rabbits by injection of iduronate sulfatase purified 35,000-fold from human placenta, after elution of the enzyme from sodium dodecyl sulfate (SDS) polyacrylamide gels. The specificity of these antibodies towards iduronate sulfatase was demonstrated by immunoprecipitation of enzyme activity; the level of other lysosomal hydrolases and sulfatases remained constant. Immunoblot of iduronate sulfatase from various human sources showed that the antibody recognises a polypeptide of mol.wt. 72,000 daltons in placenta and serum, and a form of mol.wt. 60,000 daltons in fibroblasts. No immunoprecipitable peptide was found in urine or in the culture medium of fibroblasts. Polypeptides of the same molecular weight were recognised in serum and in fibroblasts of Hunter patients. The presence of altered proteins in these patients was also shown by competition experiments. The addition of Hunter proteins alters the binding of normal enzyme to the antibody.

Iduronate sulfatase from human placenta

The major enzyme component of iduronate sulfatase from human placenta was purified 30 000-fold by a five-step procedure. Sucrose gradient centrifugation of the native enzyme gave a molecular weight estimate of 80 000 +/- 10 000. Electrophoresis in sodium dodecyl sulfate of the enzyme reduced with mercaptoethanol showed a protein band of Mr 82 000. We suggest that the enzyme is composed of a single polypeptide chain of Mr 80 000-90 000.

Heparan N‐sulfatase: cysteine 70 plays a role in the enzyme catalysis and processing

Sulfatases are members of a highly conserved family of enzymes that catalyze the hydrolysis of sulfate ester bonds from a variety of substrates. The functional correlation reflects a high degree of amino acid sequence similarity along the entire length, in particular in the active site where the C(X)PSR consensus sequence is present. Cysteine undergoes an important co‐ or post‐translation modification essential for the accomplishment of catalytic activity: conversion in formylglycine. In this work, the cysteine of heparan N‐sulfatase (NS) was replaced either by a serine (C70S) or by a methionine (C70M) using site‐directed mutagenesis. C70S and C70M mutant cDNAs were expressed and analyzed in COS cells; both mutations caused a loss of NS activity; however, while C70S showed a normal precursor form undergoing processing to a reduced mature form within the lysosomes, C70M was poorly synthesized and formed a complex with the molecular chaperone immunoglobulin binding protein.

Biochemical diagnosis of mucopolysaccharidoses: Experience of 297 diagnoses in a 15-year period (1977-1991)

SummaryWe report the results over 15 years (1977–1991) for biochemical diagnoses of patients referred from throughout Italy and suspected of having a mucopolysaccharidosis. Of these, 147 patients were diagnosed as being homozygous or hemizygous for a specific lysosomal enzyme deficiency; 74 pregnancies at risk were monitored in their families; 76 heterozygote diagnoses were performed on their relatives, with a total of 48 positive diagnoses.We also report the analysis of genomic DNA from 11 unrelated Italian Hunter patients, using pc2S15 probe. DNA from two patients, digested with Pst-I, showed a variant pattern of hybridization caused by deletion or rearrangement of the gene.