Your search keyword '"arylsulfatase B"' showing total 431 results

1. Multi-year enzyme expression in patients with mucopolysaccharidosis type VI after liver-directed gene therapy

Author

Rossi, Alessandro, Romano, Roberta, Fecarotta, Simona, Dell’Anno, Margherita, Pecorella, Valentina, Passeggio, Roberta, Zancan, Stefano, Parenti, Giancarlo, Santamaria, Francesca, Borgia, Francesco, Deodato, Federica, Funghini, Silvia, Rupar, Charles A., Prasad, Chitra, O’Callaghan, Mar, Mitchell, John J., Valsecchi, Maria Grazia, la Marca, Giancarlo, Galimberti, Stefania, Auricchio, Alberto, and Brunetti-Pierri, Nicola

Published

2024

2. Exogenous recombinant N-acetylgalactosamine-4-sulfatase (Arylsulfatase B; ARSB) inhibits progression of B16F10 cutaneous melanomas and modulates cell signaling

Author

Bhattacharyya, Sumit, O-Sullivan, Insug, Tu, Jieqi, Chen, Zhengjia, and Tobacman, Joanne K.

Published

2024

3. Molecular analysis of mucopolysaccharidosis type VI in Iranian patients; the influence of founder effect and consanguinity.

Author

Askarizadeh, Athena, Kalantar, Seyed Mehdi, Mohiti-Ardakani, Javad, Moradi, Ali, and Ordooei, Mahtab

Abstract

Background: Mucopolysaccharidosis type VI (MPS VI), also known as Manteaux-Lamy syndrome, is an autosomal recessive lysosomal storage disorder caused by deficiency of the enzyme arylsulfatase B(ARSB). This syndrome is progressive and affects many tissues and organs, leading to inflammation and scarring. The classic clinical features of Maroteaux-Lamy syndrome are significant impairment of the osteoarticular system with dysostosis multiplex, short stature and motor dysfunction. The rate at which symptoms appear and worsen can vary between affected individuals. Mutations in the ARSB gene are responsible for MPS VI. We investigated the clinical presentation and molecular basis of patients with MPS VI for the first time in Yazd province, Iran. Methods: Of the 52 people who took part in this project, there were 13 probands. Whole exome sequencing (WES) was performed in 2 of them and the nominated mutation in the ARSB (c.430G > A) was verified by Sanger sequencing in the remaining patients. Results: All patients had parental consanguinity, except for one family in which the parents were unrelated. All patients were of Fars ethnicity and had characteristic phenotypes such as severe short stature, cardiac involvement, coarse facial features, and corneal opacities. Sequence analysis of the ARSB gene revealed a pathogenic homozygous missense mutation c.430G > A (p. Gly144Arg) in all patients. This type of mutation influenced the phenotypes of the severe patients. Conclusions: These results expand the genetic databases of Iranian patients with MPS VI and would be very helpful for the high-risk families to accelerate the detection of carriers and to perform prenatal testing for the disorder in this population in a cost-effective manner. There is a possibility that other unknown mutations are responsible for the disease. The decision to screen for and detect carriers of this disease at a national level is awaited. The results of the present study could be an asset for married families in part of the city of Meybod. The results offer a way for early detection of patients and carriers of the disease.Highlights: For their outstanding research efforts in the development of the genetics field, this study was presented with a special academic award at the Genetics Research Center situated in Meybod in 2022. [ABSTRACT FROM AUTHOR]

Published

2025

4. Synergistic Impact of ARSB, TP53, and Maspin Gene Expressions on Survival Outcomes in Colorectal Cancer: A Comprehensive Clinicopathological Analysis.

Author

Kovacs, Zsolt, Banias, Laura, Osvath, Eva, and Gurzu, Simona

Subjects

SURVIVAL rate, GENE expression, COLORECTAL cancer, CANCER prognosis, P53 protein, RADIOTHERAPY safety

Abstract

(1) Background: Colorectal cancer (CRC) remains a significant cause of morbidity and mortality worldwide, with its prognosis influenced by genetic and clinicopathological factors. This study investigates the associations between the gene expressions of Arylsulfatase B (ARSB), TP53, and Maspin, alongside traditional clinicopathological features, and their impact on CRC survival outcomes. (2) Methods: 70 consecutive CRC cases were analyzed for ARSB, TP53, and Maspin gene expression using RT-qPCR, and their protein levels were assessed through immunohistochemistry. Clinicopathological parameters—age, gender, tumor localization, macroscopic and microscopic aspects, lymph node ratio, pT stage, and tumor budding—were evaluated for their prognostic significance. Kaplan–Meier survival analysis with Cox proportional hazards regression was used to determine their impact on overall survival. (3) Results: No significant survival differences were observed based on age, gender, tumor localization, and macroscopic aspect. The microscopic aspect and pT stage showed significant associations with survival, with poorer outcomes in G3 and pT3/pT4 stages, respectively. Immunohistochemical positivity for ARSB and Maspin indicated a longer survival, while TP53 protein expression alone did not significantly impact the prognosis. Dual high gene expression (ARSB + TP53, TP53 + Maspin) and triple high gene expression (ARSB + TP53 + Maspin) were significantly associated with better survival outcomes. (4) Conclusions: The combined gene expression profile of ARSB, TP53, and Maspin presents a novel prognostic marker in CRC, offering insights into the molecular dynamics of cancer cells and potential therapeutic targets. These findings emphasize the importance of integrating molecular markers with traditional clinicopathological factors for a more accurate prognostication and personalized treatment approach in CRC. [ABSTRACT FROM AUTHOR]

Published

2024

5. N-Acetylgalactosamine-4-sulfatase (Arylsulfatase B) Regulates PD-L1 Expression in Melanoma by an HDAC3-Mediated Epigenetic Mechanism.

Author

Bhattacharyya, Sumit, O-Sullivan, InSug, and Tobacman, Joanne K.

Subjects

*PROGRAMMED death-ligand 1, *ARYLSULFATASES, *IMMUNE checkpoint proteins, *MELANOMA, *EPIGENETICS, *MICROPHTHALMIA-associated transcription factor, *BRAF genes

Abstract

The effects of the enzyme N-acetylgalactosamine-4-sulfatase (Arylsulfatase B, ARSB), which removes the 4-sulfate group at the non-reducing end of chondroitin 4-sulfate, on the expression of PD-L1 were determined, and the underlying mechanism of PD-L1 expression was elucidated. Initial experiments in human melanoma cells (A375) showed that PD-L1 expression increased from 357 ± 31 to 796 ± 50 pg/mg protein (p < 10−11) when ARSB was silenced in A375 cells. In subcutaneous B16F10 murine melanomas, PD-L1 declined from 1227 ± 189 to 583 ± 110 pg/mg protein (p = 1.67 × 10−7), a decline of 52%, following treatment with exogenous, bioactive recombinant ARSB. This decline occurred in association with reduced tumor growth and prolongation of survival, as previously reported. The mechanism of regulation of PD-L1 expression by ARSB is attributed to ARSB-mediated alteration in chondroitin 4-sulfation, leading to changes in free galectin-3, c-Jun nuclear localization, HDAC3 expression, and effects of acetyl-H3 on the PD-L1 promoter. These findings indicate that changes in ARSB contribute to the expression of PD-L1 in melanoma and can thereby affect the immune checkpoint response. Exogenous ARSB acted on melanoma cells and normal melanocytes through the IGF2 receptor. The decline in PD-L1 expression by exogenous ARSB may contribute to the impact of ARSB on melanoma progression. [ABSTRACT FROM AUTHOR]

Published

2024

6. Synergistic Impact of ARSB, TP53, and Maspin Gene Expressions on Survival Outcomes in Colorectal Cancer: A Comprehensive Clinicopathological Analysis

Author

Zsolt Kovacs, Laura Banias, Eva Osvath, and Simona Gurzu

Subjects

Arylsulfatase B, TP53, Maspin, colorectal cancer, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

(1) Background: Colorectal cancer (CRC) remains a significant cause of morbidity and mortality worldwide, with its prognosis influenced by genetic and clinicopathological factors. This study investigates the associations between the gene expressions of Arylsulfatase B (ARSB), TP53, and Maspin, alongside traditional clinicopathological features, and their impact on CRC survival outcomes. (2) Methods: 70 consecutive CRC cases were analyzed for ARSB, TP53, and Maspin gene expression using RT-qPCR, and their protein levels were assessed through immunohistochemistry. Clinicopathological parameters—age, gender, tumor localization, macroscopic and microscopic aspects, lymph node ratio, pT stage, and tumor budding—were evaluated for their prognostic significance. Kaplan–Meier survival analysis with Cox proportional hazards regression was used to determine their impact on overall survival. (3) Results: No significant survival differences were observed based on age, gender, tumor localization, and macroscopic aspect. The microscopic aspect and pT stage showed significant associations with survival, with poorer outcomes in G3 and pT3/pT4 stages, respectively. Immunohistochemical positivity for ARSB and Maspin indicated a longer survival, while TP53 protein expression alone did not significantly impact the prognosis. Dual high gene expression (ARSB + TP53, TP53 + Maspin) and triple high gene expression (ARSB + TP53 + Maspin) were significantly associated with better survival outcomes. (4) Conclusions: The combined gene expression profile of ARSB, TP53, and Maspin presents a novel prognostic marker in CRC, offering insights into the molecular dynamics of cancer cells and potential therapeutic targets. These findings emphasize the importance of integrating molecular markers with traditional clinicopathological factors for a more accurate prognostication and personalized treatment approach in CRC.

Published

2024

7. Optimisation of culture conditions for a producer clone coexpressing arylsulfatase B and a formylglycine-generating enzyme in order to increase the yield of arylsulfatase B

Author

S. S. Timonova, K. A. Smolova, I. A. Kirik, M. S. Pantyushenko, R. L. Anisimov, R. A. Khamitov, A. A. Piskunov, and V. N. Bade

Subjects

arylsulfatase b, producer clone, culture conditions, formylglycine-generating enzyme, sumf1 gene, mucopolysaccharidosis type vi, Biotechnology, TP248.13-248.65, Medicine

Abstract

Maroteaux—Lamy syndrome (mucopolysaccharidosis type VI) is an orphan genetic disease caused by mutations in the arylsulfatase B gene (ARSB), which encodes the lysosomal enzyme arylsulfatase B (ASB). The relevance of the study lies in the need of a Russian recombinant ASB product for patients with the disease in the Russian Federation. Previously, the authors have developed producer lines coexpressing the target ASB enzyme with an auxiliary formylglycine-generating enzyme (FGE), based on Chinese hamster ovary (CHO) cells. Further development of the recombinant ASB preparation places priority on increasing the enzyme yield. The aim of this study was to increase the productivity of producer clones by optimising the culture process and adding calcium chloride and copper sulfate to the culture medium. Materials and methods: a suspension-adapted CHO cell line was used. Monoclonal cell lines were developed using Cell Metric and ClonePix FL systems. The concentration of ASB in the culture liquid was determined using the enzyme-linked immunosorbent assay (ELISA). The authors analysed batch culture and/or fed-batch culture in media supplemented with various concentrations of copper sulfate and calcium chloride. Results: the combined addition of copper sulfate and calcium chloride at concentrations of 300 μM during batch culture of producer clones coexpressing ASB and FGE increases viability and specific productivity of the cells up to 4.58±1.62 pg/ (cell×day). The cultivation of the lead producer clone coexpressing ASB and FGE under fed-batch conditions for 12 days and the addition of copper sulfate to the growth medium at the concentration of 300 μM allow for increasing the yield of the active lysosomal enzyme, arylsulfatase B, to 420 mg/L. Conclusions: the cultivation of producer clones coexpressing ASB and FGE under fed-batch conditions with copper sulfate added to the medium significantly improves cell line growth properties and the ASB yield. This approach to the selection of culture conditions for producer cell lines can be applied to other enzymes of the sulfatase family.

Published

2022

8. Twenty years of Colombian experience with enzymatic screening in patients with features of mucopolysaccharidosis

Author

Alfredo Uribe‐Ardila, Johana Ramirez‐Borda, and Adis Ayala

Subjects

arylsulfatase B, dried blood spots, enzymatic diagnosis, iduronate 2‐sulfatase, lysosomal disorders, mucopolysaccharidosis, Diseases of the endocrine glands. Clinical endocrinology, RC648-665, Genetics, QH426-470

Abstract

Abstract Mucopolysaccharidoses (MPSs) are a group of genetic alterations whose effect is the progressive intralysosomal accumulation of glycosaminoglycans. Affected individuals are deficient in one or more lysosomal enzymes which, depending on the MPS, may cause coarse facial features, short stature, multiple skeletal dysplasia, joint stiffness, or developmental delay. Their diagnosis is mostly performed late or incorrectly, and it represents a challenge since it requires specialized tests only performed in major cities. This makes it difficult for patients to have access to physicians since their geographical location is distant and therefore, the use of samples collected in solid‐phase represents an advantage for the study of high‐risk populations. In addition, epidemiological information about rare diseases, especially in Latin America, is scarce or inconsistent. Our aim was to report the experience of 20 years of selective screening by assessing enzyme activity and reporting incidence values of MPS in Colombia. This study validated a group of fluorometric endpoint techniques in 8239 patients. The samples were dried blood spots (DBS) collected on filter paper and leukocyte extracts. Reference values in the Colombian population for α‐l‐iduronidase, iduronate 2‐sulfatase, α‐N‐acetylglucosaminidase, N‐acetylglucosamine‐6‐sulfate sulfatase, β‐galactosidase, arylsulfatase B, and β‐glucuronidase were established in leukocyte extracts, and patients reference ranges were updated in the case of DBS samples. Incidence values were calculated for each MPS and the distribution of cases across the country is also shown. This study offers very useful information for the health system, the scientific community, and it facilitates the diagnosis of these disorders. This is indispensable when seeking to develop new diagnostic or treatment approaches for patients.

Published

2022

9. Increasing productivity of arylsulfatase B-producing cell line by coexpression of formylglycine-generating enzyme

Author

S. S. Timonova, K. A. Smolova, D. T. Zaripova, M. S. Pantyushenko, M. A. Koroleva, R. L. Anisimov, R. A. Khamitov, A. A. Piskunov, and V. N. Bade

Subjects

cho cell line, arylsulfatase b, galsulfase, arsb gene, lysosomal enzyme, sulfatase, mucopolysaccharidosis type vi, formylglycine-generating enzyme, Biotechnology, TP248.13-248.65, Medicine

Abstract

Mucopolysaccharidosis type VI (Maroteaux–Lamy syndrome) is an orphan genetic disease caused by deficiency of the lysosomal enzyme arylsulfatase B (ASB). The need to develop a highly productive cell line for the production of recombinant ASB, is behind the concept and relevance of this study. The most promising approach seems to be the development of CHO producer cell lines coexpressing the target ASB enzyme and an auxiliary formylglycine-generating enzyme (FGE). At the same time, it is important from a practical perspective to have the possibility of cultivating producer cell lines as suspensions free of serum or other components of animal origin. The aim of the study was to develop highly productive cell lines for the production of recombinant ASB by coexpression of the auxiliary FGE. Materials and methods: a suspension CHO cell line was used in the study. CHO cells were transfected by electroporation using the MaxCyte STX system. Monoclonal cell lines were obtained with the help of the Cell Metric system. Enzyme-linked immunosorbent assay was used for determination of ASB concentration in the culture fluid. Culture fluid samples were analysed using polyacrylamide gel electrophoresis and Western blotting. The mRNA level was measured by real-time polymerase chain reaction. Results: producer cell lines coexpressing the target ASB enzyme and auxiliary FGE were obtained. An increase in the yield of the active target ASB enzyme from 2 to 100 mg/L was achieved by selecting the optimal ratio of plasmids during transfection. The highest yield of the target ASB enzyme was achieved at the 90:10 ratio (%) of plasmids encoding the ASB and FGE genes, respectively. Conclusions: the authors developed highly productive cell lines for the production of recombinant ASB, which coexpress the target and auxiliary enzymes. The coexpression of ASB and FGE improves the growth and production characteristics of the cell line, probably due to the modification of the ASB active site. The obtained results will help resolve the problem of low enzyme yield, which is typical of this class of medicines.

Published

2022

10. Profound Impact of Decline in N-Acetylgalactosamine-4-Sulfatase (Arylsulfatase B) on Molecular Pathophysiology and Human Diseases.

Author

Tobacman, Joanne K. and Bhattacharyya, Sumit

Subjects

*ARYLSULFATASES, *DERMATAN sulfate, *CHONDROITIN sulfates, *PATHOLOGICAL physiology, *GLYCOSAMINOGLYCANS, *PHENOMENOLOGICAL biology

Abstract

The enzyme N-acetylgalactosamine-4-sulfatase (Arylsulfatase B; ARSB) was originally identified as a lysosomal enzyme which was deficient in Mucopolysaccharidosis VI (MPS VI; Maroteaux-Lamy Syndrome). The newly directed attention to the impact of ARSB in human pathobiology indicates a broader, more pervasive effect, encompassing roles as a tumor suppressor, transcriptional mediator, redox switch, and regulator of intracellular and extracellular-cell signaling. By controlling the degradation of chondroitin 4-sulfate and dermatan sulfate by removal or failure to remove the 4-sulfate residue at the non-reducing end of the sulfated glycosaminoglycan chain, ARSB modifies the binding or release of critical molecules into the cell milieu. These molecules, such as galectin-3 and SHP-2, in turn, influence crucial cellular processes and events which determine cell fate. Identification of ARSB at the cell membrane and in the nucleus expands perception of the potential impact of decline in ARSB activity. The regulation of availability of sulfate from chondroitin 4-sulfate and dermatan sulfate may also affect sulfate assimilation and production of vital molecules, including glutathione and cysteine. Increased attention to ARSB in mammalian cells may help to integrate and deepen our understanding of diverse biological phenomenon and to approach human diseases with new insights. [ABSTRACT FROM AUTHOR]

Published

2022

11. Molecular analysis of mucopolysaccharidosis type VI in Iranian patients; the influence of founder effect and consanguinity.

Author

Askarizadeh A, Kalantar SM, Mohiti-Ardakani J, Moradi A, and Ordooei M

Subjects

Humans, Iran, Male, Female, Child, Child, Preschool, Mutation genetics, Pedigree, Exome Sequencing methods, Phenotype, Adolescent, Mucopolysaccharidosis VI genetics, Consanguinity, N-Acetylgalactosamine-4-Sulfatase genetics, Founder Effect

Abstract

Background: Mucopolysaccharidosis type VI (MPS VI), also known as Manteaux-Lamy syndrome, is an autosomal recessive lysosomal storage disorder caused by deficiency of the enzyme arylsulfatase B(ARSB). This syndrome is progressive and affects many tissues and organs, leading to inflammation and scarring. The classic clinical features of Maroteaux-Lamy syndrome are significant impairment of the osteoarticular system with dysostosis multiplex, short stature and motor dysfunction. The rate at which symptoms appear and worsen can vary between affected individuals. Mutations in the ARSB gene are responsible for MPS VI. We investigated the clinical presentation and molecular basis of patients with MPS VI for the first time in Yazd province, Iran., Methods: Of the 52 people who took part in this project, there were 13 probands. Whole exome sequencing (WES) was performed in 2 of them and the nominated mutation in the ARSB (c.430G > A) was verified by Sanger sequencing in the remaining patients., Results: All patients had parental consanguinity, except for one family in which the parents were unrelated. All patients were of Fars ethnicity and had characteristic phenotypes such as severe short stature, cardiac involvement, coarse facial features, and corneal opacities. Sequence analysis of the ARSB gene revealed a pathogenic homozygous missense mutation c.430G > A (p. Gly144Arg) in all patients. This type of mutation influenced the phenotypes of the severe patients., Conclusions: These results expand the genetic databases of Iranian patients with MPS VI and would be very helpful for the high-risk families to accelerate the detection of carriers and to perform prenatal testing for the disorder in this population in a cost-effective manner. There is a possibility that other unknown mutations are responsible for the disease. The decision to screen for and detect carriers of this disease at a national level is awaited. The results of the present study could be an asset for married families in part of the city of Meybod. The results offer a way for early detection of patients and carriers of the disease., Competing Interests: Declarations. Ethics approval and consent to participate: This study has been approved by the ethics committee of the Shahid Sadughi University of Medical Sciences (1400.357). Consent for publication: Not applicable’ for that section. Competing interests: The authors declare no competing interests., (© 2024. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2024

12. Fifteen years of enzyme replacement therapy for mucopolysaccharidosis type VI (Maroteaux–Lamy syndrome): a case report

Author

Isadora Andrade, River Ribeiro, Zumira A. Carneiro, Roberto Giugliani, Catarina Pereira, Claudia Cozma, Daniel Grinberg, Lluïsa Vilageliu, and Charles M. Lourenco

Subjects

Mucopolysaccharidosis, MPS VI, Maroteaux–Lamy syndrome, Glycosaminoglycans, Arylsulfatase B, Enzyme replacement therapy, Medicine

Abstract

Abstract Background Mucopolysaccharidosis VI, or Maroteaux–Lamy disease, is an autosomal recessive disease characterized by deficiency of the enzyme arylsulfatase B in the lysosomal catabolism of glycosaminoglycans. Due to reduced (or even null) enzyme activity, glycosaminoglycans (mainly dermatan sulfate) accumulates, leading to a multisystemic disease. Mucopolysaccharidosis VI induces reduced growth, coarse face, audiovisual deficits, osteoarticular deformities, and cardiorespiratory issues, hampering the quality of life of the patient. Enzyme replacement therapy with galsulfase (Naglazyme, BioMarin Pharmaceuticals Inc., USA) is the specific treatment for this condition. Although studies have shown that enzyme replacement therapy slows the progression of the disease, the effects of long-term enzyme replacement therapy remain poorly understood. Case presentation A 29-year-old, Caucasian, male patient diagnosed with mucopolysaccharidosis VI was treated with enzyme replacement therapy for over 15 years. Enzyme replacement therapy was initiated when patient was 13 years old. The patient evolved multiplex dysostosis, carpal tunnel syndrome, thickened mitral valve, and hearing and visual loss. Conclusions Although enzyme replacement therapy did not prevent the main signs of mucopolysaccharidosis VI, it slowed their progression. Additionally, enzyme replacement therapy was associated with a longer survival compared with the untreated affected sibling. Taken together, the results indicate that enzyme replacement therapy positively modified the course of the disease.

Published

2022

13. Generation of a novel disease model mouse for mucopolysaccharidosis type VI via c. 252T>C human ARSB mutation knock-in

Author

Kosuke Hosoba

Subjects

Mucopolysaccharidosis type VI, Arylsulfatase B, CRISPR-Cas9 system, Disease model, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

Mucopolysaccharidosis type VI (MPS VI) is an autosomal recessive lysosomal disorder caused by a mutation in the ARSB gene, which encodes arylsulfatase B (ARSB), and is characterized by glycosaminoglycan accumulation. Some pathogenic mutations have been identified in or near the substrate-binding pocket of ARSB, whereas many missense mutations present far from the substrate-binding pocket. Each MPS VI patient shows different severity of clinical symptoms. To understand the relationship between mutation patterns and the severity of MPS VI clinical symptoms, mutations located far from the substrate-binding pocket must be investigated using mutation knock-in mice. Here, I generated a knock-in mouse model of human ARSB Y85H mutation identified in Japanese MPS VI patients using a CRISPR-Cas9-mediated approach. The generated mouse model exhibited phenotypes similar to those of MPS VI patients, including facial features, mucopolysaccharide accumulation, and smaller body size, suggesting that this mouse will be a valuable model for understanding MPS VI pathology.

Published

2022

14. Case Report: Reinterpretation and Reclassification of ARSB:p.Arg159Cys Variant Identified in an Emirati Patient With Hearing Loss Caused by a Pathogenic Variant in the CDH23 Gene

Author

Nahid Al Dhahouri, Amanat Ali, Jozef Hertecant, and Fatma Al-Jasmi

Subjects

arylsulfatase B, glycosaminoglycans, non-syndromic hearing loss, Cdh23, whole exome sequencing, Pediatrics, RJ1-570

Abstract

Arylsulfatase B is an enzyme present in the lysosomes that involves in the breakdown of large sugar molecules known as glycosaminoglycans (GAGs). Arylsulfatase B chemically modifies two GAGs, namely, dermatan sulfate and chondroitin sulfate, by removing the sulfate group. Mutations in the gene encoding the arylsulfataseB enzyme causes lysosomal storage disorder, mucopolysaccharidosis type VI (MPS VI), or Maroteaux–Lamy syndrome. In this study, we report a case of congenital hearing loss with mild pigmentary changes in the retina, indicative of Usher syndrome, and a missense variant reported as likely pathogenic for MPS VI. Sequencing results identified a pathogenic missense variant p.Arg1746Gln in the CDH23 gene. However, another missense variant ARSB:p.Arg159Cys was reported as likely pathogenic to the treating physician. Mutations in ARSB gene have been associated with MPS VI. Subsequently, ARSB enzyme activity was found low twice in dried blood spot (DBS), suggestive of MPS VI. The patient did not have the clinical features of MPS VI, but considering the wide clinical spectrum, progressive nature of MPS VI, and the fact that a treatment for MPS VI is available to prevent disease progression, further biochemical, enzymatic, and in silico studies were performed to confirm the pathogenicity of this variant. In silico tools predicted this variant to be pathogenic. However, the results of urine and serum GAGs and ARSB enzyme levels measured from patient's fibroblast were found normal. Based on clinical and biochemical findings, ARSB:p.Arg159Cys is likely benign and did not support the diagnosis of MPS VI. However, CDH23:p.Arg1746Gln, a pathogenic variant, supports the underlying cause of hearing loss. This study highlights the importance of a robust correlation between genetic results and clinical presentation, and biochemical and enzymatic studies, to achieve a differential diagnosis.

Published

2022

15. Epidemiology and Genetics of Mucopolysaccharidosis Type VI in Russia

Author

Elena Voskoboeva, Alla Semyachkina, Ochir Miklyaev, Amina Gamzatova, Svetlana Mikhaylova, Nato Vashakmadze, Galina Baydakova, Olga Omzar, Natalia Pichkur, Ekaterina Zakharova, and Sergey Kutsev

Subjects

mucopolysaccharidosis type VI (MPS VI), Maroteaux-Lamy syndrome, arylsulfatase B, ARSB mutation, lysosomal enzyme, Russian Federation, Biology (General), QH301-705.5

Abstract

Mucopolysaccharidosis VI (MPS VI) is an autosomal recessive lysosomal storage disease caused by mutations in the arylsulfatase B gene (ARSB) and consequent deficient activity of ARSB, a lysosomal enzyme involved in the glycosaminoglycan (s) (GAGs) metabolism. Here, we present the results of the study of ARSB DNA analysis in MPS VI patients in the Russian Federation (RF) and other republics of the Former Soviet Union. In a cohort of 68 patients (57 families) with MPS VI, a total of 28 different pathogenic alleles were found. The most prevalent nucleotide changes included NM_000046.5:c.194C>T and NM_000046.5:c.454C>T. Five pathogenic alleles were novel, not previously reported (NM_000046.5:c.304C>G, NM_000046.5:c.533A>G, NM_000046.5:c.941T>C, NM_000046.5:c.447_456del10, and NM_000046.5:c.990_10003del14). The nucleotide variant NM_000045.6:c.454C>T was the prevalent allele among Slavic Russian patients. The nucleotide variant NM_000045.6:c.194C>T was found only in MPS VI families from the Republic of Dagestan. Based on the analysis of dry blood spots (DBSs) collected from newborns in this RF region, we showed the frequency of this mutant allele in the Republic of Dagestan to be 0.01 corresponding to the MPS VI frequency of nearly 1:10,000, which is one of the highest worldwide. This may eventually make the selective asymptomatic carrier test and newborn screening highly feasible in this region of the country.

Published

2022

16. Fifteen years of enzyme replacement therapy for mucopolysaccharidosis type VI (Maroteaux-Lamy syndrome): a case report.

Author

Andrade, Isadora, Ribeiro, River, Carneiro, Zumira A., Giugliani, Roberto, Pereira, Catarina, Cozma, Claudia, Grinberg, Daniel, Vilageliu, Lluïsa, and Lourenco, Charles M.

Subjects

*CARPAL tunnel syndrome, *GLYCOSAMINOGLYCANS, *QUALITY of life, *DRUG therapy, *MUCOPOLYSACCHARIDOSIS

Abstract

Background: Mucopolysaccharidosis VI, or Maroteaux-Lamy disease, is an autosomal recessive disease characterized by deficiency of the enzyme arylsulfatase B in the lysosomal catabolism of glycosaminoglycans. Due to reduced (or even null) enzyme activity, glycosaminoglycans (mainly dermatan sulfate) accumulates, leading to a multisystemic disease. Mucopolysaccharidosis VI induces reduced growth, coarse face, audiovisual deficits, osteoarticular deformities, and cardiorespiratory issues, hampering the quality of life of the patient. Enzyme replacement therapy with galsulfase (Naglazyme, BioMarin Pharmaceuticals Inc., USA) is the specific treatment for this condition. Although studies have shown that enzyme replacement therapy slows the progression of the disease, the effects of long-term enzyme replacement therapy remain poorly understood.Case Presentation: A 29-year-old, Caucasian, male patient diagnosed with mucopolysaccharidosis VI was treated with enzyme replacement therapy for over 15 years. Enzyme replacement therapy was initiated when patient was 13 years old. The patient evolved multiplex dysostosis, carpal tunnel syndrome, thickened mitral valve, and hearing and visual loss.Conclusions: Although enzyme replacement therapy did not prevent the main signs of mucopolysaccharidosis VI, it slowed their progression. Additionally, enzyme replacement therapy was associated with a longer survival compared with the untreated affected sibling. Taken together, the results indicate that enzyme replacement therapy positively modified the course of the disease. [ABSTRACT FROM AUTHOR]

Published

2022

17. A Case Report of Mucopolysaccharidosis Type VI

Author

SJ Hosseini, M Khoshbakht, S Ahmadzadeh, M Firooz, Z Sadkharvi, Z Mohammadi, and S Rahimi

Subjects

Mucopolysaccharidosis type VI, Glycosaminoglycan, Arylsulfatase B, Maroteaux-Lamy Syndrome, Medicine, Medicine (General), R5-920

Abstract

BACKGROUND AND OBJECTIVE: Mucopolysaccharidosis type VI (MPS VI) is a lysosomal storage disorder and autosomal recessive caused by arylsulfatase B deficiency in the body and progressive accumulation of glycosaminoglycan in different organs. Considering that this disease has low prevalence in Iran and worldwide, we report a case of MPS VI diagnosis in this study. CASE REPORT: A five-year-old boy was referred to Imam Khomeini Clinic in Esfarayen due to impaired growth and dyspnea. In the biography of this boy, there is the history of previous hospitalization due to dyspnea when he was three months, two years and three years old and was treated with antibiotics and salbutamol spray for three days each time. The pediatrician got suspicious of MPS because of the child's peculiar face. Blood tests were performed in terms of the levels of lysosomal enzymes and the urine sample was sent to the Metabolic Laboratory of Hamburg University Medical Center to study the glycosaminoglycan levels. After six months, the results of the tests indicated low levels of serum arylsulfatase B and the increase in chondroitin and urinary levels of dermatan sulfate. To investigate the presence of complications, echocardiography, electromyography, eye and ear examinations as well as radiography for chest, back, hip and hand were performed. Clinical and paraclinical findings confirmed the MPS VI disease and therefore, treatment with naglazyme enzyme was started for the patient. CONCLUSION: Based on the results of this case report, growth impairment, history of hospitalization due to respiratory problems and the patient’s peculiar face are key points for further investigation regarding MPS VI disease.

Published

2018

18. Mutational analysis of ARSB gene in mucopolysaccharidosis type VI: identification of three novel mutations in Iranian patients

Author

Nasrin Malekpour, Rahim Vakili, and Tayebeh Hamzehloie

Subjects

ARSB gene, Arylsulfatase B, Consanguineous marriage, DNA sequencing, Maroteaux-Lamy syndrome, Mucopolysaccharidosis VI (MPS VI), Medicine

Abstract

Objective(s): Mucopolysaccharidosis VI (MPS VI) or Maroteaux-Lamy syndrome is a rare metabolic disorder, resulting from the deficient activity of the lysosomal enzyme arylsulfatase B (ARSB). The enzymatic defect of ARSB leads to progressive lysosomal storage disorder and accumulation of glycosaminoglycan (GAG) dermatan sulfate (DS), which causes harmful effects on various organs and tissues and short stature. To date, more than 160 different mutations have been reported in the ARSB gene.Materials and Methods: Here, we analyzed 4 Iranian and 2 Afghan patients, with dysmorphism indicating MPS VI from North-east Iran. To validate the patients’ type of MPS VI, urine mucopolysaccharide and leukocyte ARSB activity were determined. Meanwhile, genomic DNA was amplified for all 8 exons and flanking intron sequences of the ARSB gene to analyze the spectrum of mutations responsible for the disorder in all patients.Results: Abnormal excretion of DS and low leukocyte ARSB activity were observed in the urine samples of all 6 studied patients. In direct DNA sequencing, we detected four different homozygous mutations in different exons, three of which seem not to have been reported previously: p.H178N, p.H242R, and p.*534W. All three novel substitutions were found in patients with Iranian breed. We further detected the IVS5+2T>C mutation in Afghan siblings and four different homozygous polymorphisms, which have all been observed in other populations. Conclusion: results indicated that missense mutations were the most common mutations in the ARSB gene, most of them being distributed throughout the ARSB gene and restricted to individual families, reflecting consanguineous marriages.

Published

2018

19. Identification of eleven different mutations including six novel, in the arylsulfatase B gene in Iranian patients with mucopolysaccharidosis type VI.

Author

Jafaryazdi, Rokhsareh, Shams, Sedigheh, Isaian, Anna, Setoodeh, Aria, and Teimourian, Shahram

Abstract

Mucopolysaccharidosis VI is a rare autosomal recessive disorder caused by the deficiency of enzyme Arylsulfatase B. The enzyme deficiency leads to the accumulation of dermatan sulfate in connective tissue which causes manifestations related to MPS VI. Up to now, three different disease causing variants are reported in Iranian patients. In this study, we scanned ARSB gene of 13 Iranian patients from 12 families in whom all parents were consanguineous and from the same ethnicity except one family that were not consanguineous but co-ethnic. We found six not previously reported disease causing variants. We extracted DNA from peripheral blood samples of patients that were previously confirmed as MPS VI by clinical, biochemical and enzymatic assays including berry-spot test and fluorimetry, followed by PCR and direct sequencing. Computational approaches were used to analyze novel variants in terms of their impact on the protein structure. 11 disease causing variants and 15 polymorphisms were found. Six disease causing variants were novel and five were previously reported of which three were in Iranian population. Four of patients, who were unrelated, two by two had the same disease causing variant and polymorphisms, which indicates a possible founder effect. Our study also implicates genotype–phenotype correlation. Computational structural modeling indicated these disease causing variants might affect structural stability and function of the protein. Data of this study confirms the existence of mutational heterogeneity in the ARSB between Iranian patients. Disease causing variants with high frequency can be used in the prenatal diagnosis and genetic counseling. Also, the existence of the same variants and polymorphisms in some of the unrelated patients indicates a possible founder effect. [ABSTRACT FROM AUTHOR]

Published

2019

20. Liver transplantation: New treatment for mucopolysaccharidosis type VI in rats.

Author

Toyama, Sumika, Migita, Ohsuke, Fujino, Masayuki, Kunieda, Tetsuo, Kosuga, Motomichi, Fukuhara, Yasuyuki, Nagahara, Yukitoshi, Li, Xiao‐Kang, and Okuyama, Torayuki

Subjects

*SKULL radiography, *HEART analysis, *ANIMAL experimentation, *BLOOD testing, *FACIAL bones, *GLYCOSAMINOGLYCANS, *HISTOLOGICAL techniques, *KNEE, *LIVER transplantation, *MUCOPOLYSACCHARIDOSIS, *RATS, *SPLEEN, *TREATMENT effectiveness

Abstract

Background: Mucopolysaccharidosis (MPS) VI is a rare, autosomal recessive congenital metabolic disorder caused by deficient activity of the lysosomal metabolic enzyme, N‐acetylgalactosamine 4‐sulfatase. Enzyme replacement therapy (ERT) is the current treatment for MPS VI, although it involves limited compliance to the therapy and high cost. The aim of this study was to develop a new method of treatment by conducting an orthotopic liver transplantation (LTx) using an animal model of human MPS VI, and to evaluate and examine its effectiveness for treating MPS VI. Methods: LTx was carried out from normal unaffected to affected MPS VI rats (MPR), which were then killed after LTx, and tissues from the heart, spleen, and knee joint, as well as serum, collected for biological and morphologic evaluation. Results: Liver‐transplanted (LTx) MPR had the same level of N‐acetylgalactosamine 4‐sulfatase activity in the liver and lungs as normal unaffected MPR, and the urinary secretion of mucopolysaccharides/glycosaminoglycan (GAG) in LTx MPR was significantly decreased. Furthermore, on histopathology, the spleens of LTx MPR showed elimination of vacuole cells. In the knee joints, growth plates became thinner, and on radiography the facial and cranial bones of LTx MPR were morphologically normal. Conclusions: LTx from normal to affected MPR was effective for symptoms of MPS and accumulation of GAG, suggesting that LTx could be a promising alternative approach for MPS VI. [ABSTRACT FROM AUTHOR]

Published

2019

21. THE ROLE OF ARTIFICIAL INTELLIGENCE IN PREDICTING PROTEIN-PROTEIN INTERACTIONS FOR INVESTIGATING ARYLSULFATASE B IN THE DEVELOPMENT OF COLORECTAL CANCER.

Author

György, Attila Tamás and Kovács, Zsolt

Subjects

*PROTEIN metabolism, *PREDICTION models, *BIBLIOGRAPHIC databases, *ARTIFICIAL intelligence, *COLORECTAL cancer, *SOCIAL role, *CONFERENCES & conventions, *ESTERASES, *BIOINFORMATICS

Abstract

Background: The investigation of protein-protein interactions is crucial for comprehending various biological mechanisms, cellular processes, and the pathogenesis of different diseases. While some studies have suggested a potential link between the arylsulfatase B (ARSB) protein and malignant colorectal tumours, the molecular mechanisms behind this are still poorly understood. Recent technological advancements have made it possible to have several databases that store our current information on protein-protein interactions and based on this knowledge, with the use of artificial intelligence to predict new interactions. This has made in silico interaction studies significantly more accessible compared to experimental methods. Objective: Our research attempts to analyse the possible involvement of arylsulfatase B in the pathogenesis of colorectal cancer, while using various bioinformatics tools and databases to predict protein-protein interactions. Material and methods: For the analysis of arylsulfatase B interaction network the STRING online database was utilised with a confidence score of 0.400, as suggested by the database. Following this, the proteins from the most effective interaction pathway were selected and individually examined using two machine learning software. The PEPPI system predicted interactions based on the protein's amino acid sequence, while the HDOCK Server online tool utilised the protein's tertiary structure for this purpose. Results : Based on the results of STRING database, the GUSB and HSP90AB1 proteins are the most strongly associated with ARSB in the development of colorectal cancer, with an overall confidence score of 0.778 and 0.626 respectively. According to the PEPPI system, the HSP90AB1 protein is most likely to interact with the AKT1 (log(LR) = 1.787), TP53 (log(LR) = 0.965), and EGFR (log(LR) = 0.874) proteins. Furthermore, the HDOCK Server showed a high confidence score of interacting with HSP90AB1 for the RAF1 (0.9208), BRAF (0.9141), and EGFR (0.9020) proteins. Conclusions: The PEPPI system predicts the AKT1, while the HDOCK Server predicts the RAF1 protein to be the most likely interaction partner of HSP90AB1. It is noteworthy that both software found a significant interaction probability between the HSP90AB1 and EGFR protein. The difference in results can be attributed to the distinct prediction methods and the differences in information carried by the primary and tertiary structures input. These results demonstrate the wide availability and applicability of in silico prediction of protein-protein interactions. This method holds a significant place in future biomedical research, including the potential to better understand the role of arylsulfatase B in the development of colorectal cancer. [ABSTRACT FROM AUTHOR]

Published

2024

22. Identification of a critical sulfation in chondroitin that inhibits axonal regeneration

Author

Craig S Pearson, Caitlin P Mencio, Amanda C Barber, Keith R Martin, and Herbert M Geller

Subjects

proteoglycan, arylsulfatase B, chondroitinase ABC, optic nerve crush, cell culture, Medicine, Science, Biology (General), QH301-705.5

Abstract

The failure of mammalian CNS neurons to regenerate their axons derives from a combination of intrinsic deficits and extrinsic factors. Following injury, chondroitin sulfate proteoglycans (CSPGs) within the glial scar inhibit axonal regeneration, an action mediated by the sulfated glycosaminoglycan (GAG) chains of CSPGs, especially those with 4-sulfated (4S) sugars. Arylsulfatase B (ARSB) selectively cleaves 4S groups from the non-reducing ends of GAG chains without disrupting other, growth-permissive motifs. We demonstrate that ARSB is effective in reducing the inhibitory actions of CSPGs both in in vitro models of the glial scar and after optic nerve crush (ONC) in adult mice. ARSB is clinically approved for replacement therapy in patients with mucopolysaccharidosis VI and therefore represents an attractive candidate for translation to the human CNS.

Published

2018

23. Increase in Chondroitin Sulfate and Decline in Arylsulfatase B May Contribute to Pathophysiology of COVID-19 Respiratory Failure

Author

Alexandar Tzankov, Joanne K. Tobacman, Sumit Bhattacharyya, and Kumar Kotlo

Subjects

Arylsulfatase B, medicine.medical_specialty, Sulfotransferase, Vascular smooth muscle, N-Acetylgalactosamine-4-Sulfatase, Pathology and Forensic Medicine, chemistry.chemical_compound, Sulfation, Internal medicine, medicine, Humans, Chondroitin, Chondroitin sulfate, Molecular Biology, Glycosaminoglycans, Membrane Glycoproteins, Chemistry, Chondroitin Sulfates, Carbohydrate sulfotransferase, COVID-19, Cell Biology, General Medicine, Endocrinology, Sulfotransferases, Respiratory Insufficiency, Immunostaining

Abstract

Introduction: The potential role of accumulation of chondroitin sulfates (CSs) in the pathobiology of COVID-19 has not been examined. Accumulation may occur by increased synthesis or by decline in activity of the enzyme arylsulfatase B (ARSB; N-acetylgalactosamine-4-sulfatase) which requires oxygen for activity. Methods: Immunostaining of lung tissue from 28 patients who died due to COVID-19 infection was performed for CS, ARSB, and carbohydrate sulfotransferase (CHST)15. Measurements of mRNA expression of CHST15 and CHST11, sulfotransferase activity, and total sulfated glycosaminoglycans (GAGs) were determined in human vascular smooth muscle cells following angiotensin (Ang) II treatment. Results: CS immunostaining showed increase in intensity and distribution, and immunostaining of ARSB was diminished in COVID-19 compared to normal lung tissue. CHST15 immunostaining was prominent in vascular smooth muscle cells associated with diffuse alveolar damage due to COVID-19 or other causes. Expression of CHST15 and CHST11 which are required for synthesis of CSE and chondroitin 4-sulfate, total sulfated GAGs, and sulfotransferase activity was significantly increased following AngII exposure in vascular smooth muscle cells. Expression of Interleukin-6 (IL-6), a mediator of cytokine storm in COVID-19, was inversely associated with ARSB expression. Discussion/Conclusion: Decline in ARSB and resulting increases in CS may contribute to the pathobiology of COVID-19, as IL-6 does. Increased expression of CHSTs following activation of Ang-converting enzyme 2 may lead to buildup of CSs.

Published

2021

24. Genomics and response to long-term oxygen therapy in chronic obstructive pulmonary disease.

Author

Seo, Minseok, Qiu, Weiliang, Bailey, William, Criner, Gerard J., Dransfield, Mark T., Fuhlbrigge, Anne L., Reilly, John J., Scholand, Mary Beth, Castaldi, Peter, Chase, Robert, Parker, Margaret, Saferali, Aabida, Yun, Jeong H., Crapo, James D., Cho, Michael H., Beaty, Terri H., Silverman, Edwin K., and Hersh, Craig P.

Subjects

*OXYGEN therapy, *OBSTRUCTIVE lung diseases, *GENE expression, *SINGLE nucleotide polymorphisms, *N-acetylgalactosamine-4-sulfatase

Abstract

Chronic obstructive pulmonary disease (COPD) is a leading cause of death worldwide, and long-term oxygen therapy has been shown to reduce mortality in COPD patients with severe hypoxemia. However, the Long-term Oxygen Treatment Trial (LOTT), a large randomized trial, found no benefit of oxygen therapy in COPD patients with moderate hypoxemia. We hypothesized that there may be differences in response to oxygen which depend on genotype or gene expression. In a genome-wide time-to-event analysis of the primary outcome of death or hospitalization in 331 subjects, 97 single nucleotide polymorphisms (SNPs) showed evidence of interaction with oxygen therapy at P < 1e−5, including 7 SNPs near arylsulfatase B (ARSB; P = 6e−6). In microarray expression profiling on 51 whole blood samples from 37 individuals, at screening and/or at 12-month follow-up, ARSB expression was associated with the primary outcome depending on oxygen treatment. The significant SNPs were conditional expression quantitative trait loci for ARSB expression. In a network analysis of genes affected by long-term oxygen, two observed clusters including 26 co-expressed genes were enriched in mitochondrial function. Using data from the observational COPDGene Study, we validated the expression of 25 of these 26 genes, plus ARSB. The effect of long-term oxygen therapy in COPD varied based on ARSB expression and genotype. ARSB has previously been shown to be associated with hypoxemia in human bronchial and colonic epithelial cells and in a mouse model. In peripheral blood, long-term oxygen treatment affected expression of mitochondrial-related genes, a biologically relevant pathway in COPD. SNPs and expression of ARSB are associated with response to long-term oxygen in COPD. The ARSB SNPs were expression quantitative trait loci depending on oxygen therapy. Genes differentially expressed by long-term oxygen were enriched in mitochondrial functions. This suggests a potential biomarker to personalize use of long-term oxygen in COPD. [ABSTRACT FROM AUTHOR]

Published

2018

25. The Lysosomal Protein Arylsulfatase B Is a Key Enzyme Involved in Skeletal Turnover.

Author

Pohl, Sandra, Angermann, Alexandra, Jeschke, Anke, Hendrickx, Gretl, Yorgan, Timur A, Makrypidi‐Fraune, Georgia, Steigert, Anita, Kuehn, Sonja C, Rolvien, Tim, Schweizer, Michaela, Koehne, Till, Neven, Mona, Winter, Olga, Velho, Renata Voltolini, Albers, Joachim, Streichert, Thomas, Pestka, Jan M, Baldauf, Christina, Breyer, Sandra, and Stuecker, Ralf

Abstract

Skeletal pathologies are frequently observed in lysosomal storage disorders, yet the relevance of specific lysosomal enzymes in bone remodeling cell types is poorly defined. Two lysosomal enzymes, ie, cathepsin K (Ctsk) and Acp5 (also known as tartrate‐resistant acid phosphatase), have long been known as molecular marker proteins of differentiated osteoclasts. However, whereas the cysteine protease Ctsk is directly involved in the degradation of bone matrix proteins, the molecular function of Acp5 in osteoclasts is still unknown. Here we show that Acp5, in concert with Acp2 (lysosomal acid phosphatase), is required for dephosphorylation of the lysosomal mannose 6‐phosphate targeting signal to promote the activity of specific lysosomal enzymes. Using an unbiased approach we identified the glycosaminoglycan‐degrading enzyme arylsulfatase B (Arsb), mutated in mucopolysaccharidosis type VI (MPS‐VI), as an osteoclast marker, whose activity depends on dephosphorylation by Acp2 and Acp5. Similar to Acp2/Acp5–/– mice, Arsb‐deficient mice display lysosomal storage accumulation in osteoclasts, impaired osteoclast activity, and high trabecular bone mass. Of note, the most prominent lysosomal storage accumulation was observed in osteocytes from Arsb‐deficient mice, yet this pathology did not impair production of sclerostin (Sost) and Fgf23. Because the influence of enzyme replacement therapy (ERT) on bone remodeling in MPS‐VI is still unknown, we additionally treated Arsb‐deficient mice by weekly injection of recombinant human ARSB from 12 to 24 weeks of age. We found that the high bone mass phenotype of Arsb‐deficient mice and the underlying bone cell deficits were fully corrected by ERT in the trabecular compartment. Taken together, our results do not only show that the function of Acp5 in osteoclasts is linked to dephosphorylation and activation of lysosomal enzymes, they also provide an important proof‐of‐principle for the feasibility of ERT to correct bone cell pathologies in lysosomal storage disorders. © 2018 The Authors. Journal of Bone and Mineral Research Published by Wiley Periodicals Inc. [ABSTRACT FROM AUTHOR]

Published

2018

26. Mucopolysaccharidosis type VI (MPS VI) and molecular analysis: Review and classification of published variants in the ARSB gene.

Author

Tomanin, Rosella, Karageorgos, Litsa, Zanetti, Alessandra, Al‐Sayed, Moeenaldeen, Bailey, Mitch, Miller, Nicole, Sakuraba, Hitoshi, and Hopwood, John J.

Abstract

Maroteaux–Lamy syndrome (MPS VI) is an autosomal recessive lysosomal storage disorder caused by pathogenic ARSB gene variants, commonly diagnosed through clinical findings and deficiency of the arylsulfatase B (ASB) enzyme. Detection of ARSB pathogenic variants can independently confirm diagnosis and render genetic counseling possible. In this review, we collect and summarize 908 alleles (201 distinct variants, including 3 polymorphisms previously considered as disease‐causing variants) from 478 individuals diagnosed with MPS VI, identified from literature and public databases. Each variant is further analyzed for clinical classification according to American College of Medical Genetics and Genomics (ACMG) guidelines. Results highlight the heterogeneity of ARSB alleles, with most unique variants (59.5%) identified as missense and 31.7% of unique alleles appearing once. Only 18% of distinct variants were previously recorded in public databases with supporting evidence and clinical significance. ACMG recommends publishing clinical and biochemical data that accurately characterize pathogenicity of new variants in association with reporting specific alleles. Variants analyzed were sent to ClinVar (https://www.ncbi.nlm.nih.gov/clinvar/), and MPS VI locus‐specific database (http://mps6-database.org) where they will be available. High clinical suspicion coupled with diagnostic testing for deficient ASB activity and timely submission and classification of ARSB variants with biochemical and clinical data in public databases is essential for timely diagnosis of MPS VI. Maroteaux–Lamy (MPS VI) is caused by pathogenic ARSB gene variants, commonly diagnosed through clinical findings and deficiency of the arylsulfatase B enzyme. This analysis sought to collect and summarize 908 alleles (201 distinct variants) from 478 individuals with Maroteaux–Lamy. Variants were further analyzed for clinical classification according to ACMG guidelines, which were sent to ClinVar and MPS VI locus‐specific database. ARSB variants with biochemical and clinical data in public databases is essential for timely diagnosis of MPS VI. [ABSTRACT FROM AUTHOR]

Published

2018

27. Mucopolysaccharidosis VI diagnosis by laboratory methods.

Author

Jafaryazdi, Rokhsareh and Teimourian, Shahram

Subjects

MUCOPOLYSACCHARIDOSIS, BIOLOGICAL assay, ANALYTICAL chemistry, CLINICAL pathology, GLYCOSAMINOGLYCANS, GENETIC mutation, NUCLEIC acid hybridization, POLYMERASE chain reaction, PRENATAL diagnosis, SEQUENCE analysis, DIAGNOSIS

Abstract

Mucopolysaccharidosis type VI (MPS VI) results from a defect in arylsulfatase B (ARSB). There are several diagnostic methods using to identify patients; hence, we aimed to review these approaches and consider if one of them could be assigned as the gold standard method. The information of this study was obtained by searching through PubMed and Google scholar databases. In order to collect the most accurate and up to date data, we limited our research to papers in the time period between 2010 and 2017. We collected articles related to our research and extracted the most relevant and accurate data which included the steps of MPS VI diagnosis by routine laboratory approaches. We concluded that an all-inclusive diagnostic approach requires urinary glycosaminoglycan (GAG) analysis, enzyme activity analysis and molecular analysis by mutation scanning through polymerase chain reaction (PCR) and Sanger sequencing or alternative methods such as multiplex ligation-dependent probe amplification (MLPA), real-time polymerase chain reaction, array-comparative genomic hybridization (aCGH) and next generation sequencing (NGS). Reliable classification of patients with MPS VI is necessary for ongoing and future studies on treatments, outcomes and prenatal diagnoses (PNDs). The dependable characterization of patients would be achieved by biochemical techniques and enzymatic assay. However, if a molecular defect is previously identified in the family, PND via mutation scanning is possible. [ABSTRACT FROM AUTHOR]

Published

2018

28. Mutational analysis of ARSB gene in mucopolysaccharidosis type VI: identification of three novel mutations in Iranian patients.

Author

Malekpour, Nasrin, Vakili, Rahim, and Hamzehloie, Tayebeh

Subjects

*MAROTEAUX-Lamy syndrome, *GENETIC mutation, *NUCLEOTIDE sequencing, *GENE expression, *N-acetylgalactosamine-4-sulfatase

Abstract

Objective(s): Mucopolysaccharidosis VI (MPS VI) or Maroteaux-Lamy syndrome is a rare metabolic disorder, resulting from the deficient activity of the lysosomal enzyme arylsulfatase B (ARSB). The enzymatic defect of ARSB leads to progressive lysosomal storage disorder and accumulation of glycosaminoglycan (GAG) dermatan sulfate (DS), which causes harmful effects on various organs and tissues and short stature. To date, more than 160 different mutations have been reported in the ARSB gene. Materials and Methods: Here, we analyzed 4 Iranian and 2 Afghan patients, with dysmorphism indicating MPS VI from North-east Iran. To validate the patients' type of MPS VI, urine mucopolysaccharide and leukocyte ARSB activity were determined. Meanwhile, genomic DNA was amplified for all 8 exons and flanking intron sequences of the ARSB gene to analyze the spectrum of mutations responsible for the disorder in all patients. Results: Abnormal excretion of DS and low leukocyte ARSB activity were observed in the urine samples of all 6 studied patients. In direct DNA sequencing, we detected four different homozygous mutations in different exons, three of which seem not to have been reported previously: p.H178N, p.H242R, and p.*534W. All three novel substitutions were found in patients with Iranian breed. We further detected the IVS5+2T>C mutation in Afghan siblings and four different homozygous polymorphisms, which have all been observed in other populations. Conclusion: results indicated that missense mutations were the most common mutations in the ARSB gene, most of them being distributed throughout the ARSB gene and restricted to individual families, reflecting consanguineous marriages. [ABSTRACT FROM AUTHOR]

Published

2018

29. Mucopolysaccharidosis Type VI in a Great Dane Caused by a Nonsense Mutation in the ARSB Gene.

Author

Wang, Ping, Margolis, Carol, Lin, Gloria, Buza, Elizabeth L., Quick, Scott, Raj, Karthik, Han, Rachel, and Giger, Urs

Subjects

MUCOPOLYSACCHARIDOSIS, METABOLIC disorders, GLYCOSAMINOGLYCANS, LYSOSOMES, NUCLEOTIDE sequence

Abstract

Mucopolysaccharidoses are inherited metabolic disorders that result from a deficiency of lysosomal enzymes required for the catabolism of glycosaminoglycans. Lysosomal glycosaminoglycan accumulation results in cell and organ dysfunction. This study characterized the phenotype and genotype of mucopolysaccharidosis VI in a Great Dane puppy with clinical signs of stunted growth, facial dysmorphia, skeletal deformities, corneal opacities, and increased respiratory sounds. Clinical and pathologic evaluations, urine glycosaminoglycan analyses, lysosomal enzyme assays, and ARSB sequencing were performed. The urine mucopolysaccharide spot test was strongly positive predominantly due to the accumulation of dermatan sulfate. Enzyme assays in leukocytes and tissues indicated a deficiency of arylsulfatase B (ARSB) activity. Histologic examination revealed cytoplasmic vacuoles in many tissues. Analysis of the exonic ARSB DNA sequences from the affected puppy compared to the published canine genome sequence revealed a homozygous nonsense mutation (c.295C>T) in exon 1, replacing glutamine with a premature stop codon (p.Gln99*), predicting no enzyme synthesis. A polymerase chain reaction–based restriction fragment length polymorphism test was established to assist with the clinical diagnosis and breeding of Great Danes. This genotyping test revealed that the clinically healthy parents and some other relatives of the puppy were heterozygous for the mutant allele, but all 200 clinically healthy dogs screened including 15 Great Danes were homozygous for the normal allele. This ARSB mutation is the fourth identified genetic variant causing canine mucopolysaccharidosis VI. Mucopolysaccharidosis VI is the first lysosomal storage disorder described in Great Danes but does not appear to be widespread in this breed. [ABSTRACT FROM AUTHOR]

Published

2018

30. Expression and Distribution of Arylsulfatase B are Closely Associated with Neuron Death in SOD1 G93A Transgenic Mice.

Author

Zhang, Jie, Liang, Huiting, Zhu, Lei, Gan, Weiming, Tang, Chunyan, Li, Jiao, and Xu, Renshi

Abstract

The known proteins only explained the partial pathogenesis of amyotrophic lateral sclerosis (ALS). Therefore, this study aimed to search the novel proteins possibly involved in ALS. In this study, we analyzed the expression and distribution of the candidate protein arylsulfatase B (ARSB) in the different segments, anatomic regions, and neural cells of spinal cord at the different stages of the wild-type and [Cu/Zn] superoxide dismutase 1 (SOD1) G93A transgenic mice using the fluorescent immunohistochemistry and the western blot. The results revealed that the ARSB was extensively expressed and distributed in the entire spinal cord; the expression and distribution of ARSB was significantly different in the different regions of spinal cord, the anterior horn of gray matter (AHGM) was significantly more than that in the posterior horn of gray matter (PHGM) and significantly more than that in the central canal, and ARSB was mainly distributed in the microglia and neuron cells in the wild-type mice. The expression of ARSB significantly increased in other anatomic regions besides the thoracic PHGM, significantly decreased at the progression stage, occurred in the redistribution from the AHGM and the PHGM to the central canal at the onset and progression stages, and no any alteration of ARSB expression and distribution occurred between the different neural cells in the SOD1 G93A mice compared with the wild-type mice. The increase of ARSB expression and distribution followed with the increased of neuron death. Our data suggested that the abnormal expression and distribution of ARSB were closely associated with the neuron death in the SOD1 G93A transgenic mice. [ABSTRACT FROM AUTHOR]

Published

2018

31. Deep intronic variant in the <scp> ARSB </scp> gene as the genetic cause for Maroteaux–Lamy syndrome ( <scp>MPS VI</scp> )

Author

Dina Marek-Yagel, Alvit Veber, Ben Pode-Shakked, Aviva Eliyahu, Elisheva Javasky, Amit Mary Philosoph, Orna Staretz-Chacham, Ortal Barel, Neta Loewenthal, Yair Anikster, and Nechama Shalva

Subjects

Male, Arylsulfatase B, N-Acetylgalactosamine-4-Sulfatase, Genetic counseling, Mutation, Missense, Genetic Counseling, Biology, Deep sequencing, Genetics, medicine, Humans, Missense mutation, Genetic Predisposition to Disease, Gene, Genetics (clinical), Whole genome sequencing, Mucopolysaccharidosis VI, Infant, Exons, Enzyme replacement therapy, medicine.disease, Introns, Arabs, Maroteaux–Lamy syndrome, Child, Preschool, Female

Abstract

Maroteaux-Lamy syndrome (MPS-VI) is a rare autosomal-recessive disorder with a wide spectrum of clinical manifestations, ranging from an attenuated to a rapidly progressive disease. It is caused by variants in ARSB, which encodes the lysosomal arylsulfatase B (ARSB) enzyme, part of the degradation process of glycosaminoglycans in lysosomes. Over 220 variants have been reported so far, with a majority of missense variants. We hereby report two siblings of Bedouin origin with a diagnosis of MPS-VI. Western blots in patient fibroblasts revealed total absence of ARSB protein production. Complete sequencing of the coding region of ARSB did not identify a candidate disease-associated variant. However, deep sequencing of the noncoding region of ARSB by whole genome sequencing (WGS) revealed a c.1142+581A to G variant. The variant is located within intron 5 and fully segregated with the disease in the family. Determination of the genetic cause for these patients enabled targeted treatment by enzyme replacement therapy, along with appropriate genetic counseling and prenatal diagnosis for the family. These results highlight the advantage of WGS as a powerful tool, for improving the diagnostic rate of rare disease-causing variants, and emphasize the importance of studying deep intronic sequence variation as a cause of monogenic disorders.

Published

2021

32. The arylsulfatase- and phospholipase-rich venom of the plutoniumid centipede Theatops posticus.

Author

Lane, Aaliyah N., Nash, Pauline D., Ellsworth, Schyler A., Nystrom, Gunnar S., and Rokyta, Darin R.

Subjects

*VENOM, *TOXINS, *PHOSPHOLIPASES, *CENTIPEDES, *SERINE proteinases, *PHOSPHOLIPASE A2, *CONVERGENT evolution, *PROTEIN microarrays

Abstract

Research on centipede venoms has led to the discovery of a diverse array of novel proteins and peptides, including those with homology to previously discovered toxin families (e.g. , phospholipase A2s and pM12a metalloproteases) and novel toxin families not previously detected in venoms (e.g. , β -pore forming toxins and scoloptoxins). Most of this research has focused on centipedes in the order Scolopendromorpha, particularly those in the families Scolopendridae, Cryptopidae, and Scolopocryptopidae. To generate the first high-throughput venom characterization for a centipede in the scolopendromorph family Plutoniumidae, we performed venom-gland transcriptomics and venom proteomics on two Theatops posticus. We identified a total of 64 venom toxins, 60 of which were detected in both the venom-gland transcriptome and venom proteome and four of which were only detected transcriptomically. We detected a single highly abundant arylsulfatase B (ARSB) toxin, the first ARSB toxin identified from centipede venoms. As ARSBs have been detected in other venomous species (e.g. , scorpions), ARSBs in T. posticus highlights a new case of convergent evolution across venoms. Theatops posticus venom also contained a much higher abundance and diversity of phospholipase A2 toxins compared to other characterized centipede venoms. Conversely, we detected other common centipedes toxins, such as CAPs and scoloptoxins, at relatively low abundances and diversities. Our observation of a diverse set of toxins from T. posticus venom, including those from novel toxin families, emphasizes the importance of studying unexplored centipede taxonomic groups and the continued potential of centipede venoms for novel toxin discovery and unraveling the molecular mechanisms underlying trait evolution. [Display omitted] • First high-throughput venom characterization for a centipede species in the Plutoniumidae family. • Identified 60 proteomically confirmed toxins and 4 homology-based toxins in Theatops posticus venom. • Detected a single, highly abundant arylsulfatase-B toxin , the first identified from centipede venoms. • The high abundance of phospholipase A2s and low abundance of CAPs and SLPTXs provides a contrast to other centipede venoms. • Observed a diverse set of toxins commonly found in centipedes, including BPFTxs, LDLAs, pM12As, and S1 serine proteases. [ABSTRACT FROM AUTHOR]

Published

2023

33. Investigations on Mannose-6-Phosphate Receptor Mediated Protein Uptake

Author

Dürrschmid, M., Jursik, C., Borth, N., Grabherr, R., Doblhoff-Dier, O., Gòdia, Francesc, editor, and Fussenegger, Martin, editor

Published

2005

34. Localisation of estrase in the blood cells of camel and buffalo at ultrastructural level – part I

Author

Yadav, P.K. and Singh, Gurdial

Published

2012

35. Alpha-l-iduronidase and arylsulfatase B in dried blood spots on filter paper: Biochemical parameters and time stability.

Author

Breier, Ana Carolina, Cé, Jaqueline, Mezzalira, Jamila, Daitx, Vanessa V., Moraes, Vitoria C., Goldim, Mariana P.S., and Coelho, Janice C.

Subjects

*DRIED blood spot testing, *IDURONIDASE, *N-acetylgalactosamine-4-sulfatase, *FILTER paper, *MUCOPOLYSACCHARIDOSIS

Abstract

Background The goal of this study was to assess the biochemical parameters of the enzymes α- l -iduronidase (IDUA) and arylsulfatase B (ASB), which are deficient in mucopolysaccharidosis (MPS) I and VI, respectively, in dried blood spot (DBS) samples impregnated on filter paper. Methods and results The optimal pH, Km, and Vmax of IDUA and ASB in DBS are hereby presented. After these analyses, the reference values for the activities of these enzymes in DBS with cutoff of 3.65 nmol/h/mL for IDUA and 6.80 nmol/h/mL for ASB were established. The research also showed that the stability (21 days) of the IDUA activity is lower than ASB, which maintained its enzymatic activity stable up until 60 days of analysis, after impregnating the filter paper with blood. Conclusion Currently, DBS ensures important advantages in handling storage and transportation of samples with respect to neonatal screening programs. This study contributes to characterizing and differentiating the biochemistry of deficient enzymes in MPSs I and VI of DBS samples. [ABSTRACT FROM AUTHOR]

Published

2017

36. ARSB gene variants causing Mucopolysaccharidosis VI in Miniature Pinscher and Miniature Schnauzer dogs

Author

L Berman-Booty, Urs Giger, Karthik Raj, and Polly Foureman

Subjects

0301 basic medicine, Arylsulfatase B, N-Acetylgalactosamine-4-Sulfatase, Mucopolysaccharidosis, Mutation, Missense, Miniature Pinscher, Breeding, Biology, Article, 03 medical and health sciences, Exon, Dogs, Gene Frequency, Genetics, medicine, Animals, Missense mutation, Dog Diseases, Allele frequency, Mucopolysaccharidosis VI, Homozygote, 0402 animal and dairy science, Exons, 04 agricultural and veterinary sciences, General Medicine, medicine.disease, 040201 dairy & animal science, Molecular biology, 030104 developmental biology, Miniature Schnauzer, Animal Science and Zoology

Abstract

Mucopolysaccharidosis (MPS) VI is a lysosomal storage disease caused by a deficiency of N-acetylgalactosamine-4-sulfatase, also called arylsulfatase B (ARSB, EC 3.1.6.12). Dogs with MPS VI show progressive predominantly oculoskeletal signs homologous to those in human and feline patients. We report herein two pathogenic ARSB gene variants in Miniature Pinscher and Miniature Schnauzer dogs with MPS VI and a genotyping survey in these breeds. All exons and adjacent regions of the ARSB gene were sequenced from three affected Miniature Pinschers and three affected Miniature Schnauzers. Allelic discrimination assays were used for genotyping. A missense variant (NM_001048133.1:c.910G>A) was found in exon 5 of MPS VI-affected Miniature Pinschers that is predicted to result in a deleterious amino acid substitution of a highly conserved glycine to arginine (NP_001041598.1:p.Gly304Arg). In MPS VI-affected Miniature Schnauzers, a 56 bp deletion (NM_001048133.1:c.-24_32del) was found at the junction of exon 1 and its upstream region, predicting no enzyme synthesis. All clinically affected Miniature Pinschers and Miniature Schnauzers were homozygous for the respective variants, and screened healthy dogs in each breed were either heterozygous or homozygous for the wt allele. Whereas the Miniature Pinscher variant seemed to occur commonly (0.133 allele frequency), the Miniature Schnauzer variant was presumed to be rare. In conclusion, two breed-specific pathogenic ARSB gene variants were identified in Miniature Pinscher and Miniature Schnauzer dogs with MPS VI, allowing for genotyping and informed breeding to prevent the production of affected offspring.

Published

2020

37. The remarkably enzyme-rich venom of the Big Bend Scorpion (Diplocentrus whitei).

Author

Nystrom, Gunnar S., Ellsworth, Schyler A., and Rokyta, Darin R.

Subjects

*SCORPION venom, *VENOM, *SCORPIONS, *SERINE proteinases, *PEPTIDES, *DOSAGE forms of drugs

Abstract

Scorpion venoms have long been studied for their peptide discovery potential, with modern high-throughput venom-characterization techniques paving the way for the discovery of thousands of novel putative toxins. Research into these toxins has provided insight into the pathology and treatment of human diseases, even resulting in the development of one compound with Food and Drug Administration (FDA) approval. Although most of this research has focused on the toxins of scorpion species considered medically significant to humans, the venom of harmless scorpion species possess toxins that are homologous to those from medically significant species, indicating that harmless scorpion venoms may also serve as valuable sources of novel peptide variants. Furthermore, as harmless scorpions represent a vast majority of scorpion species diversity, and therefore venom toxin diversity, venoms from these species likely contain entirely new toxin classes. We sequenced the venom-gland transcriptome and venom proteome of two male Big Bend scorpions (Diplocentrus whitei), providing the first high-throughput venom characterization for a member of this genus. We identified a total of 82 toxins in the venom of D. whitei , 25 of which were identified in both the transcriptome and proteome, and 57 of which were only identified in the transcriptome. Furthermore, we identified a unique, enzyme-rich venom dominated by serine proteases and the first arylsulfatase B toxins identified in scorpions. [Display omitted] • High-throughput venom proteomic and venom-gland transcriptomic characterization of two male Diplocentrus whitei. • Diplocentrus whitei venom displayed a remarkable abundance and diversity of enzymatic venom components. • High abundance of novel arylsulfatase B toxins and serine proteases in Diplocentrus whitei venom. • Identified 25 proteomically confirmed toxins and 57 homology-based toxins in Diplocentrus whitei venom. • Diplocentrus whitei venom proteomic abundances display strong agreement between individuals. [ABSTRACT FROM AUTHOR]

Published

2023

38. Increased Cerebral Serum Amyloid A2 and Parameters of Oxidation in Arylsulfatase B (N-Acetylgalactosamine-4-Sulfatase)-Null Mice.

Author

Bhattacharyya S and Tobacman JK

Abstract

Background: Chondroitin sulfate and chondroitin sulfate proteoglycans have been associated with Alzheimer's disease (AD), and the impact of modified chondroitin sulfates is being investigated in several animal and cell-based models of AD. Published reports have shown the role of accumulation of chondroitin 4-sulfate and decline in Arylsulfatase B (ARSB; B-acetylgalactosamine-4-sulfatase) in other pathology, including nerve injury, traumatic brain injury, and spinal cord injury. However, the impact of ARSB deficiency on AD pathobiology has not been reported, although changes in ARSB were associated with AD in two prior reports. The enzyme ARSB removes 4-sulfate groups from the non-reducing end of chondroitin 4-sulfate and dermatan sulfate and is required for their degradation. When ARSB activity declines, these sulfated glycosaminoglycans accumulate, as in the inherited disorder Mucopolysaccharidosis VI., Objective: Reports about chondroitin sulfate, chondroitin sulfate proteoglycans, and chondroitin sulfatases in AD were reviewed., Methods: Measurements of SAA2, iNOS, lipid peroxidation, chondroitin sulfate proteoglycan 4 (CSPG4), and other parameters were performed in cortex and hippocampus from ARSB-null mice and controls by QRT-PCR, ELISA, and other standard assays., Results: SAA2 mRNA expression and protein, CSPG4 mRNA, chondroitin 4-sulfate, and iNOS were increased significantly in ARSB-null mice. Measures of lipid peroxidation and redox state were significantly modified., Conclusion: Findings indicate that decline in ARSB leads to changes in expression of parameters associated with AD in the hippocampus and cortex of the ARSB-deficient mouse. Further investigation of the impact of decline in ARSB on the development of AD may provide a new approach to prevent and treat AD., Competing Interests: The authors have no conflict of interest to report., (© 2023 – The authors. Published by IOS Press.)

Published

2023

39. КЛИНИЧЕСКИЙ СЛУЧАЙ МУКОПОЛИСАХАРИДОЗА VI ТИПА С КРАТКИМ ЛИТЕРАТУРНЫМ ОБЗОРОМ

Author

Ибатова, С. С., Керимбаев, Т. Т., and Касенова, Г. Н.

Abstract

This article reflects the current representation of one of the most common diseases among hereditary lysosomal storage diseases - mucopolysaccharide disorders, in particular VI type of this disease - Maroteaux-Lamy syndrome. It summarizes the listed literature as well as our own observations on issues of etiology, pathogenesis, terms of manifestation and clinical symptoms of the disease, methods of diagnosis, modern treatment and prevention methods of mucopolysaccharidosis type VI. The work presents a case study of classic form of Maroteaux-Lamy syndrome. It is argued that the basis of prevention Maroteaux-Lamy syndrome is an effective medical and genetic counseling. [ABSTRACT FROM AUTHOR]

Published

2016

40. IgE-Mediated Hypersensitivity and Desensitisation with Recombinant Enzymes in Pompe Disease and Type I and Type VI Mucopolysaccharidosis.

Author

Capanoglu, Murat, Dibek Misirlioglu, Emine, azkur, Dilek, Vezir, Emine, Guvenir, Hakan, Gunduz, Mehmet, Toyran, Muge, Civelek, Ersoy, and Kocabas, Can Naci

Subjects

*GLYCOGEN storage disease type II, *ALLERGY desensitization, *IMMUNOGLOBULIN E, *ENZYMES, *MUCOPOLYSACCHARIDOSIS I, *MAROTEAUX-Lamy syndrome

Abstract

Enzyme replacement therapy (ERT) is important for the treatment of lysosomal storage disorders. Hypersensitivity reactions with ERT have been reported, and in these cases, desensitisation with the enzyme is necessary. Here we report the cases of 3 patients with lysosomal storage disorders, including Pompe disease and mucopolysaccharidosis type I and VI, who had IgE-mediated hypersensitivity reactions and positive skin tests. Successful desensitisation protocols with the culprit enzyme solution were used for these patients. All 3 patients were able to safely receive ERT with the desensitisation protocol. [ABSTRACT FROM AUTHOR]

Published

2016

41. Effect of CFTR modifiers on arylsulfatase B activity in cystic fibrosis and normal human bronchial epithelial cells.

Author

Bhattacharyya, Sumit, Feferman, Leo, and Tobacman, Joanne K.

Subjects

*N-acetylgalactosamine-4-sulfatase, *CYSTIC fibrosis, *EPITHELIAL cells, *DRUG efficacy, *GLYCOSAMINOGLYCANS, *GENE expression, *CHEMOTAXIS

Abstract

Background The enzyme Arylsulfatase B (ARSB; N-acetylgalactosamine 4-sulfatase), is required for degradation of sulfated glycosaminoglycans (GAGs) which accumulate in cystic fibrosis. ARSB is reduced in cystic fibrosis cells and increases when defective CFTR is repaired by insertion of the normal gene. This study was undertaken to determine if modification of CFTR by small molecule correctors or potentiators could also increase ARSB and reduce the accumulation of chondroitin 4-sulfate (C4S). Methods CF bronchial epithelial cells homozygous for the F508 deletion (ACD#14071) and normal human bronchial epithelial cells (BEC) were grown and differentiated following an established protocol. Cells were treated with either VRT-532, a CFTR potentiator, or VRT-534, a CFTR corrector, or vehicle control. The impact on ARSB activity, protein and mRNA expression, C4S and total sulfated glycosaminoglycan content, Interleukin-8 and Interleukin-6 secretion, and neutrophil chemotaxis was determined by specific assays. Results The CFTR potentiator, but not the corrector, increased ARSB activity and expression to the level in the normal bronchial epithelial cells (BEC). Concomitantly, total sulfated glycosaminoglycans and C4S declined, secreted IL-8 increased, secreted IL-6 declined, and neutrophil chemotaxis to the spent media obtained from the potentiator-treated CF cells increased. Conclusion The CFTR potentiator increased ARSB activity and expression and associated effects. This suggests that a critical interaction between CFTR and ARSB is related to CFTR function in regulation of a ligand-gated anion channel at the cell membrane, rather than to CFTR processing and intracellular trafficking. [ABSTRACT FROM AUTHOR]

Published

2016

42. Enzyme replacement therapy in mice lacking arylsulfatase B targets bone-remodeling cells, but not chondrocytes

Author

Tatyana Danyukova, Michaela Schweizer, J. H. Schröder, Johannes Keller, Nicole Muschol, Antonio Rossi, Gretl Hendrickx, Tim Rolvien, Catherine Meyer-Schwesinger, Chiara Paganini, Thorsten Schinke, Alexandra Angermann, Michael Amling, Anke Baranowsky, and Sandra Pohl

Subjects

Male, 0301 basic medicine, Arylsulfatase B, N-Acetylgalactosamine-4-Sulfatase, Mucopolysaccharidosis type VI, PHENOTYPE, Bone remodeling, Mice, chemistry.chemical_compound, 0302 clinical medicine, Genetics (clinical), Mice, Knockout, Genetics & Heredity, Mucopolysaccharidosis IV, Mucopolysaccharidosis VI, MOUSE MODEL, General Medicine, Enzyme replacement therapy, Middle Aged, General Article Two, 3. Good health, Chemistry, medicine.anatomical_structure, GROWTH, Female, Bone Remodeling, Life Sciences & Biomedicine, Mannose receptor, Adult, Biochemistry & Molecular Biology, medicine.medical_specialty, Adolescent, DISORDERS, Biology, DIAGNOSIS, Chondrocyte, Young Adult, 03 medical and health sciences, Chondrocytes, Internal medicine, Genetics, medicine, Animals, Humans, Chondroitin, Enzyme Replacement Therapy, Molecular Biology, Science & Technology, RECEPTOR, Mice, Inbred C57BL, 030104 developmental biology, Endocrinology, chemistry, VI, Human medicine, 030217 neurology & neurosurgery

Abstract

Mucopolysaccharidosis type VI (MPS-VI), caused by mutational inactivation of the glycosaminoglycan-degrading enzyme arylsulfatase B (Arsb), is a lysosomal storage disorder primarily affecting the skeleton. We have previously reported that Arsb-deficient mice display high trabecular bone mass and impaired skeletal growth. In the present study, we treated them by weekly injection of recombinant human ARSB (rhARSB) to analyze the impact of enzyme replacement therapy (ERT) on skeletal growth and bone remodeling. We found that all bone-remodeling abnormalities of Arsb-deficient mice were prevented by ERT, whereas chondrocyte defects were not. Likewise, histologic analysis of the surgically removed femoral head from an ERT-treated MPS-VI patient revealed that only chondrocytes were pathologically affected. Remarkably, a side-by-side comparison with other cell types demonstrated that chondrocytes have substantially reduced capacity to endocytose rhARSB, together with low expression of the mannose receptor. We finally took advantage of Arsb-deficient mice to establish quantification of chondroitin sulfation for treatment monitoring. Our data demonstrate that bone-remodeling cell types are accessible to systemically delivered rhARSB, whereas the uptake into chondrocytes is inefficient. ispartof: HUMAN MOLECULAR GENETICS vol:29 issue:5 pages:803-816 ispartof: location:England status: published

Published

2020

43. A Generic Assay to Detect Aberrant ARSB Splicing and mRNA Degradation for the Molecular Diagnosis of MPS VI

Author

Kasper Smits, Ans T. van der Ploeg, W.W.M. Pim Pijnappel, Hannerieke J.M.P. van den Hout, Esmee Oussoren, Busra Goynuk, Atze J. Bergsma, Mike Broeders, Clinical Genetics, and Pediatrics

Subjects

0301 basic medicine, Arylsulfatase B, lcsh:QH426-470, diagnosis, Nonsense-mediated decay, Biology, splicing, 03 medical and health sciences, Exon, 0302 clinical medicine, nonsense mediated decay, Genetics, lcsh:QH573-671, Molecular Biology, Messenger RNA, lcsh:Cytology, lysosomal disease, Intron, RNA, Mucopolysaccharidosis VI, lcsh:Genetics, 030104 developmental biology, 030220 oncology & carcinogenesis, RNA splicing, Molecular Medicine, antisense oligonucleotides, pseudo exon

Abstract

Identification and characterization of disease-associated variants in monogenic disorders is an important aspect of diagnosis, genetic counseling, prediction of disease severity, and development of therapy. However, the effects of disease-associated variants on pre-mRNA splicing and mRNA degradation are difficult to predict and often missed. Here we present a generic assay for unbiased identification and quantification of arylsulfatase B (ARSB) mRNA for molecular diagnosis of patients with mucopolysaccharidosis VI (MPS VI). We found that healthy control individuals have inefficient ARSB splicing because of natural skipping of exon 5 and inclusion of two pseudoexons in introns 5 and 6. Analyses of 12 MPS VI patients with 10 different genotypes resulted in identification of a 151-bp intron inclusion caused by the c.1142+2T>C variant and detection of low ARSB expression from alleles with the c.629A>G variant. A special case showed skipping of exon 4 and low ARSB expression. Although no disease-associated DNA variant could be identified in this patient, the molecular diagnosis could be made based on RNA. These results highlight the relevance of RNA-based analyses to establish a molecular diagnosis of MPS VI. We speculate that inefficient natural splicing of ARSB may be a target for therapy based on promotion of canonical splicing.

Published

2020

44. Identification of eleven different mutations including six novel, in the arylsulfatase B gene in Iranian patients with mucopolysaccharidosis type VI

Author

Aria Setoodeh, Anna Isaian, Shahram Teimourian, Rokhsareh Jafaryazdi, and Sedigheh Shams

Subjects

Male, 0301 basic medicine, Arylsulfatase B, N-Acetylgalactosamine-4-Sulfatase, Genetic counseling, DNA Mutational Analysis, Mucopolysaccharidosis type VI, Prenatal diagnosis, Iran, Biology, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Genetics, Humans, Genetic Testing, Child, Molecular Biology, Gene, Genetic Association Studies, Sanger sequencing, Mucopolysaccharidosis VI, Polymorphism, Genetic, Genetic Variation, Infant, DNA, Exons, General Medicine, Pedigree, 030104 developmental biology, Child, Preschool, 030220 oncology & carcinogenesis, Mutation, symbols, Female, Founder effect

Abstract

Mucopolysaccharidosis VI is a rare autosomal recessive disorder caused by the deficiency of enzyme Arylsulfatase B. The enzyme deficiency leads to the accumulation of dermatan sulfate in connective tissue which causes manifestations related to MPS VI. Up to now, three different disease causing variants are reported in Iranian patients. In this study, we scanned ARSB gene of 13 Iranian patients from 12 families in whom all parents were consanguineous and from the same ethnicity except one family that were not consanguineous but co-ethnic. We found six not previously reported disease causing variants. We extracted DNA from peripheral blood samples of patients that were previously confirmed as MPS VI by clinical, biochemical and enzymatic assays including berry-spot test and fluorimetry, followed by PCR and direct sequencing. Computational approaches were used to analyze novel variants in terms of their impact on the protein structure. 11 disease causing variants and 15 polymorphisms were found. Six disease causing variants were novel and five were previously reported of which three were in Iranian population. Four of patients, who were unrelated, two by two had the same disease causing variant and polymorphisms, which indicates a possible founder effect. Our study also implicates genotype-phenotype correlation. Computational structural modeling indicated these disease causing variants might affect structural stability and function of the protein. Data of this study confirms the existence of mutational heterogeneity in the ARSB between Iranian patients. Disease causing variants with high frequency can be used in the prenatal diagnosis and genetic counseling. Also, the existence of the same variants and polymorphisms in some of the unrelated patients indicates a possible founder effect.

Published

2019

45. Taiwan National Newborn Screening Program by Tandem Mass Spectrometry for Mucopolysaccharidoses Types I, II, and VI

Author

Hsiao-Jan Chen, Shuan-Pei Lin, Mei-Ying Liu, Nagendar Pendem, Min-Ju Chan, You-Hsin Huang, Hsuan-Chieh Liao, Michael H. Gelb, Arun Kumar, Chih-Kuang Chuang, Shu-Min Kao, Hsiang-Yu Lin, Chuan-Chi Chiang, and Naveen Kumar Chennamaneni

Subjects

Arylsulfatase B, Mucopolysaccharidosis I, Mucopolysaccharidosis, Taiwan, Tandem mass spectrometry, Article, Microbiology, Neonatal Screening, Tandem Mass Spectrometry, Lysosomal storage disease, medicine, Humans, Genetic Testing, Mucopolysaccharidosis II, Retrospective Studies, Genetic testing, Newborn screening, medicine.diagnostic_test, business.industry, Infant, Newborn, Mucopolysaccharidosis IV, Reproducibility of Results, medicine.disease, Dried blood spot, Pediatrics, Perinatology and Child Health, Pseudodeficiency alleles, Dried Blood Spot Testing, Morbidity, business

Abstract

Objective To evaluate the initial cutoff values, rates of screen positives, and genotypes for the large-scale newborn screening program for multiple mucopolysaccharidoses (MPS) in Taiwan. Study design More than 100 000 dried blood spots were collected consecutively as part of the national Taiwan newborn screening programs. Enzyme activities were measured by tandem mass spectrometry from dried blood spot punches. Genotypes were obtained when a second newborn screening specimen again had a decreased enzyme activity. Additional clinical evaluation was then initiated based on enzyme activity and/or genotype. Results Molecular genetic analysis for cases with low enzyme activity revealed 5 newborns with pathogenic alpha-L-iduronidase mutations, 3 newborns with pathogenic iduronate-2-sulfatase mutations, and 1 newborn was a carrier of an arylsulfatase B mutation. Several variants of unknown pathogenic significance were also identified, most likely causing pseudodeficiency. Conclusions The highly robust tandem mass spectrometry-based enzyme assays for MPS-I, MPS-II, and MPS-VI allow for high-throughput newborn screening for these lysosomal storage disorders. Optimized cutoff values combined with second tier testing could largely eliminate false-positive results. Accordingly, newborn screening for these lysosomal storage disorders is possible.

Published

2019

46. MPS VI associated ocular phenotypes in an MPS VI murine model and the therapeutic effects of odiparcil treatment

Author

Olivier Lacombe, Haoyue Zhang, Aurelie Roussey, Ingrid Jantzen, Laurence Feraille, Eugeni Entchev, Jeanne-Marie Germain, Nicolas Cimbolini, Sophie Antonelli, Virginie Mauro, Jean-Michel Luccarrini, Sarah P. Young, and Mireille Tallandier

Subjects

Arylsulfatase B, Pathology, medicine.medical_specialty, Eye Diseases, N-Acetylgalactosamine-4-Sulfatase, Endocrinology, Diabetes and Metabolism, Mucopolysaccharidosis type VI, Eye, Biochemistry, Glycosaminoglycan, Mice, Endocrinology, Cornea, Genetics, medicine, Lysosomal storage disease, Animals, Humans, Glycosides, Molecular Biology, Corneal epithelium, Mucopolysaccharidosis VI, Chemistry, Enzyme replacement therapy, medicine.disease, eye diseases, Disease Models, Animal, medicine.anatomical_structure, Phenotype, Eye disorder, sense organs

Abstract

Maroteaux – Lamy syndrome (mucopolysaccharidosis type VI, MPS VI) is a lysosomal storage disease resulting from insufficient enzymatic activity for degradation of the specific glycosaminoglycans (GAG) chondroitin sulphate (CS) and dermatan sulphate (DS). Among the most pronounced MPS VI clinical manifestations caused by cellular accumulation of excess CS and DS are eye disorders, in particular those that affect the cornea. Ocular manifestations are not treated by the current standard of care, enzyme replacement therapy (ERT), leaving patients with a significant unmet need. Using in vitro and in vivo models, we previously demonstrated the potential of the β-D-xyloside, odiparcil, as an oral GAG clearance therapy for MPS VI. Here, we characterized the eye phenotypes in MPS VI arylsulfatase B deficient mice (Arsb−) and studied the effects of odiparcil treatment in early and established disease models. Severe levels of opacification and GAG accumulation were detected in the eyes of MPS VI Arsb− mice. Histological examination of MPS VI Arsb− eyes showed an aggregate of corneal phenotypes, including reduction in the corneal epithelium thickness and number of epithelial cell layers, and morphological malformations in the stroma. In addition, colloidal iron staining showed specifically GAG accumulation in the cornea. Orally administered odiparcil markedly reduced GAG accumulation in the eyes of MPS VI Arsb− mice in both disease models and restored the corneal morphology (epithelial layers and stromal structure). In the early disease model of MPS VI, odiparcil partially reduced corneal opacity area, but did not affect opacity area in the established model. Analysis of GAG types accumulating in the MPS VI Arsb− eyes demonstrated major contribution of DS and CS, with some increase in heparan sulphate (HS) as well and all were reduced with odiparcil treatment. Taken together, we further reveal the potential of odiparcil to be an effective therapy for eye phenotypes associated with MPS VI disease.

Published

2021

47. Compound heterozygous missense mutations in a Chinese mucopolysaccharidosis type VI patient: a case report

Author

Ji Yang, Meng-Jie Dong, Ming-Fang He, Hai Liu, and Yin-Ting Wang

Subjects

Male, 0301 basic medicine, Arylsulfatase B, China, Pathology, medicine.medical_specialty, Visual acuity, Adolescent, genetic structures, N-Acetylgalactosamine-4-Sulfatase, Mucopolysaccharidosis type VI, Mutation, Missense, Case Report, Corneal opacity, 030105 genetics & heredity, Compound heterozygosity, Short stature, 03 medical and health sciences, medicine, Humans, Missense mutation, Genetic testing, Mucopolysaccharidosis VI, medicine.diagnostic_test, Coarse facial features, business.industry, ARSB gene missense mutation, General Medicine, RE1-994, eye diseases, Ophthalmology, 030104 developmental biology, Mutation, sense organs, medicine.symptom, business

Abstract

Background Mucopolysaccharidosis type VI (MPS VI) is a rare autosomal recessive inherited disease caused by mutations in the arylsulfatase B (ARSB) gene. MPS VI is a multisystemic disease resulting from a deficiency in arylsulfatase B causing an accumulation of glycosaminoglycans in the tissues and organs of the body. In this report, we present the case of a 16-year-old Chinese male who presented with vision loss caused by corneal opacity. MPS VI was confirmed by genetic diagnosis. Case presentation A 16-year-old Chinese male presented with a one-year history of binocular vision loss. The best-corrected visual acuity was 0.25 in the right eye and 0.5 in the left eye. Although slit-lamp examination revealed corneal opacification in both eyes, the ocular examinations of his parents were normal. At the same time, the patient presented with kyphotic deformity, short stature, joint and skeletal malformation, thick lips, long fingers, and coarse facial features. Genetic assessments revealed that ARSB was the causative gene. Compound heterozygous missense mutations were found in the ARSB gene, namely c.1325G > A (p. Thr442Met) (M1) and c.1197G > C (p. Phe399Leu) (M2). Genetic diagnosis confirmed that the patient had MPS VI. Conclusions This paper reports a case of MPS VI confirmed by genetic diagnosis. MPS VI is a multisystem metabolic disease, with corneal opacity as a concomitant ocular symptom. As it is difficult for ophthalmologists to definitively diagnose MPS VI, genetic testing is useful for disease confirmation.

Published

2021

48. Diagnostic and treatment strategies in mucopolysaccharidosis VI.

Author

Vairo, Filippo, Federhen, Andressa, Baldo, Guilherme, Riegel, Mariluce, Burin, Maira, Leistner-Segal, Sandra, and Giugliani, Roberto

Subjects

MUCOPOLYSACCHARIDOSIS, CARBOHYDRATE metabolism disorders, INTELLECTUAL disabilities, MAROTEAUX-Lamy syndrome, LYSOSOMAL storage diseases

Abstract

Mucopolysaccharidosis VI (MPS VI) is a very rare autosomal recessive disorder caused by mutations in the ARSB gene, which lead to deficient activity of the lysosomal enzyme ASB. This enzyme is important for the breakdown of the glycosaminoglycans (GAGs) dermatan sulfate and chondroitin sulfate, which accumulate in body tissues and organs of MPS VI patients. The storage of GAGs (especially dermatan sulfate) causes bone dysplasia, joint restriction, organomegaly, heart disease, and corneal clouding, among several other problems, and reduced life span. Despite the fact that most cases are severe, there is a spectrum of severity and some cases are so attenuated that diagnosis is made late in life. Although the analysis of urinary GAGs and/ or the measurement of enzyme activity in dried blood spots are useful screening methods, the diagnosis is based in the demonstration of the enzyme deficiency in leucocytes or fibroblasts, and/or in the identification of pathogenic mutations in the ARSB gene. Specific treatment with enzyme replacement has been available since 2005. It is safe and effective, bringing measurable benefits and increased survival to patients. As several evidences indicate that early initiation of therapy may lead to a better outcome, newborn screening is being considered for this condition, and it is already in place in selected areas where the incidence of MPS VI is increased. However, as enzyme replacement therapy is not curative, associated therapies should be considered, and research on innovative therapies continues. The management of affected patients by a multidisciplinary team with experience in MPS diseases is highly recommended. [ABSTRACT FROM AUTHOR]

Published

2015

49. Decline in arylsulfatase B and Increase in chondroitin 4-sulfotransferase combine to increase chondroitin 4-sulfate in traumatic brain injury.

Author

Bhattacharyya, Sumit, Zhang, Xiaolu, Feferman, Leo, Johnson, David, Tortella, Frank C., Guizzetti, Marina, and Tobacman, Joanne K.

Subjects

*BRAIN injuries, *N-acetylgalactosamine-4-sulfatase, *CELL culture, *ASTROCYTES, *CHONDROITIN sulfates, *SULFOTRANSFERASES, *NEUROCAN

Abstract

In an established rat model of penetrating ballistic-like brain injury (PBBI), arylsulfatase B (ARSB; N-acetylgalactosamine 4-sulfatase) activity was significantly reduced at the ipsilateral site of injury, but unaffected at the contralateral site or in sham controls. In addition, the ARSB substrate chondroitin 4-sulfate (C4S) and total sulfated glycosaminoglycans increased. The mRNA expression of chondroitin 4-sulfotransferase 1 (C4ST1; CHST11) and the sulfotransferase activity rose at the ipsilateral site of injury (PBBI-I), indicating contributions from both increased production and reduced degradation to the accumulation of C4S. In cultured, fetal rat astrocytes, following scratch injury, the ARSB activity declined and the nuclear hypoxia inducible factor-1α increased significantly. In contrast, sulfotransferase activity and chondroitin 4-sulfotransferase expression increased following astrocyte exposure to TGF-β1, but not following scratch. These different pathways by which C4S increased in the cell preparations were both evident in the response to injury in the PBBI-I model. Hence, findings support effects of injury because of mechanical disruption inhibiting ARSB and to chemical mediation by TGF-β1 increasing CHST11 expression and sulfotransferase activity. The increase in C4S following traumatic brain injury is because of contributions from impaired degradation and enhanced synthesis of C4S which combine in the pathogenesis of the glial scar. [ABSTRACT FROM AUTHOR]

Published

2015

50. MULBERRY LEAVES LOWER THE ENZYMATIC ACTIVITY AND EXPRESSION OF HEPATIC ARYLSULFATASE B IN STREPTOZOTOCIN-INDUCED DIABETIC RATS.

Author

Al-awar, Amin, Attieh, Zouhair, and Balbaa, Mahmoud

Subjects

*MULBERRY, *ARYLSULFATASES, *STREPTOZOTOCIN, *PEOPLE with diabetes, *LABORATORY rats, *CARBOHYDRATE metabolism

Abstract

Diabetes mellitus is a metabolic defect characterized by an enzymatic alteration that reflects the change of the structure and function. Many enzymes of carbohydrate metabolism are modified during diabetes and it was found that arylsulfatase B (ASB) is one of these modified enzymes. In this article, we investigated the catalytic characters and gene expression of hepatic ASB in streptozotocin - induced diabetic rats supplemented daily with a black mulberry as an anti-diabetic material. Diabetes was induced experimentally in rats by one high dose of streptozotocin and different groups of the diabetic rats were supplemented with a black mulberry (Morus nigra) leaves and the juice. The results demonstrated that the black mulberry leaves suppressed the blood sugar levels in diabetic rats. Moreover, the administration of leaves decreased significantly the activity of hepatic ASB and its Vmax value returned to normal. However, mulberry juice failed to lower significantly the activity of that enzyme or its Vmax value. Furthermore, the study of the gene expression of the enzyme showed the same tendency. These data suggest that the daily treatment of mulberry leaves has a potent effect to correct the diabetes - stimulated ASB alteration. [ABSTRACT FROM AUTHOR]

Published

2015