Comprehensive Preventive and Therapeutic Oral Health Care: A Case Report of Mucopolysaccharidosis Type IV A in a Pediatric Patient.

Mucopolysaccharidosis (MPS) is a metabolic disorder resulting from a deficiency of lysosomal enzymes. It is an autosomal recessive disorder with similar incidences in men and women. Mucopolysaccharidosis type IV A is caused by a deficiency of N-acetylgalactosamine-6-sulfatase, which deficiency is, in turn, caused by alterations in the GALNS gene. It is marked by a short stature, a pigeon chest, frontal bossing, kyphosis, and a flat nasal bridge. Intraorally, macroglossia, hypodontia, dentinogenesis imperfecta, a broad mouth, and an anterior open bite are some of the common features. The present paper reports on a case of MPS in a 5-year-old male patient, along with providing a review of the literature and insight into the oral manifestations related to MPS IV A, also called Morquio A syndrome, and its dental treatment. It aims to highlight the clinical recommendations for oral health care in such cases during different phases of MPS IV A treatment.

Efficient CRISPR/Cas9 nickase-mediated genome editing in an in vitro model of mucopolysaccharidosis IVA.

Mucopolysaccharidosis IVA (MPS IVA) is a lysosomal storage disorder (LSD) caused by mutations in gene encoding for GALNS enzyme. Lack of GALNS activity leads to the accumulation of glycosaminoglycans (GAGs) keratan sulfate and chondroitin 6-sulfate. Although enzyme replacement therapy has been approved since 2014 for MPS IVA, still there is an unmet medical need to have improved therapies for this disorder. CRISPR/Cas9-based gene therapy has been tested for several LSDs with encouraging findings, but to date it has not been assayed on MPS IVA. In this work, we validated for the first time the use of CRISPR/Cas9, using a Cas9 nickase, for the knock-in of an expression cassette containing GALNS cDNA in an in vitro model of MPS IVA. The results showed the successful homologous recombination of the expression cassette into the AAVS1 locus, as well as a long-term increase in GALNS activity reaching up to 40% of wild-type levels. We also observed normalization of lysosomal mass, total GAGs, and oxidative stress, which are some of the major findings regarding the pathophysiological events in MPS IVA. These results represent a proof-of-concept of the use of CRISPR/Cas9 nickase strategy for the development of a novel therapeutic alternative for MPS IVA.

Delivery and assessment of a CRISPR/nCas9-based genome editing system on in vitro models of mucopolysaccharidoses IVA assisted by magnetite-based nanoparticles.

Mucopolysaccharidosis IV A (MPS IVA) is a lysosomal disorder caused by mutations in the GALNS gene. Consequently, the glycosaminoglycans (GAGs) keratan sulfate and chondroitin 6-sulfate accumulate in the lysosomal lumen. Although enzyme replacement therapy has shown essential advantages for the patients, several challenges remain to overcome, such as the limited impact on the bone lesion and recovery of oxidative profile. Recently, we validated a CRISPR/nCas9-based gene therapy with promising results in an in vitro MPS IVA model. In this study, we have expanded the use of this CRISPR/nCas9 system to several MPS IVA fibroblasts carrying different GALNS mutations. Considering the latent need to develop more safety vectors for gene therapy, we co-delivered the CRISPR/nCas9 system with a novel non-viral vector based on magnetoliposomes (MLPs). We found that the CRISPR/nCas9 treatment led to an increase in enzyme activity between 5 and 88% of wild-type levels, as well as a reduction in GAGs accumulation, lysosomal mass, and mitochondrial-dependent oxidative stress, in a mutation-dependent manner. Noteworthy, MLPs allowed to obtain similar results to those observed with the conventional transfection agent lipofectamine. Overall, these results confirmed the potential of CRISPR/nCas9 as a genome editing tool for treating MPS IVA. We also demonstrated the potential use of MLPs as a novel delivery system for CRISPR/nCas9-based therapies.

Molecular characterization of mucopolysaccharidosis type IVA patients in the Andean region of Colombia.

Colombia has a high prevalence of mucopolysaccharidosis (MPS) type IVA. Nevertheless, data regarding the mutation spectrum for MPS IVA in this population have not been completely characterized. Forty-seven families and 53 patients from seven different Colombian regions were tested for MPS IVA mutations. We compared the sequences with the N-acetylgalactosamine-6-sulfatase (GALNS) reference sequence NM_000512.4, and gene variants were reported. Bioinformatics analysis was performed using SWISS-MODEL. The mutant proteins were generated by homology from the wild-type GALNS 4FDJ template obtained from the PDB database, and visualization was performed using Swiss-PDBViewer and UCSF Chimera. The predictive analysis was run using different bioinformatic tools, and the deleterious annotation of genetic variants was performed using a neural network. We found that 79% and 21% of the cohort was homozygous and compound heterozygous, respectively. The most frequent mutation observed was p.Gly301Cys (78.3% of alleles), followed by p.Arg386Cys (10.4% of alleles). A novel mutation (p.Phe72Ile) was described and classified in silico as a pathogenic variant. This study reveals the mutation spectrum of MPS IVA in Colombia. The high prevalence of the p.Gly301Cys mutation suggests a founder effect of this variant in the Colombian population that causes diseases in the Andean region (via migration). These data can facilitate genetic counseling, prenatal diagnosis, and the design of therapeutic interventions.

Demographic, clinical, and ancestry characterization of a large cluster of mucopolysaccharidosis IV A in the Brazilian Northeast region.

Mucopolysaccharidosis (MPS) IVA is a rare autosomal recessive disease with a highly variable distribution worldwide. Discrepancies in the incidence of MPS IVA among populations of different ethnicities are mostly attributed to founder effects. Demographic and clinical data from 28 MPS IVA patients, followed at a single center, and ancestry (Y chromosome and mitochondrial markers) of a subsample of 17 patients, most with the p.Ser341Arg (c.1023C>G) mutation were analyzed. Parental consanguinity was observed in 15/20 couples; a rare homozygous N-acetylgalactosamine-6-sulfatase (GALNS) mutation was found in 7/16 families with intra-familial phenotypic heterogeneity. Paternal ancestry was 94.2% (16/17) European, 5.8% (1/17) African, and 0% Amerindian. The European paternal haplogroups R1a, R1b, and R* accounted for 94.2% (16/17) of the patients. The R1b haplogroup, identified in 59% (10/17) of the patients, is frequently found in populations from the Iberian Peninsula. European, Amerindian, and African maternal ancestry was observed in 46.9% (8/17), 35.4% (6/17), and 17.7% (3/17) of the patients, respectively. Study of a cluster of MPS IVA patients from Northeastern Brazil, with high parental consanguinity and phenotypic heterogeneity showed predominantly European parental ancestry. This ancestry finding corroborates historical data on the local settlement, formed predominantly by European men.

Evaluation of HIV-1 derived lentiviral vectors as transductors of Mucopolysaccharidosis type IV a fibroblasts.

Mucopolysaccharidosis type IVA (MPS IVA) is a lysosomal storage disease produced by the deficiency of the N-acetylgalactosamine-6-sulfate sulfatase (GALNS) enzyme, leading to glycosaminoglycans (GAGs) accumulation. Since currently available treatments remain limited and unspecific, novel therapeutic approaches are essential for the disease treatment. In an attempt to reduce treatment limitations, gene therapy rises as a more effective and specific alternative. We present in this study the delivery assessment of GALNS and sulfatase-modifying factor 1 (SUMF1) genes via HIV-1 derived lentiviral vectors into fibroblasts from MPS IVA patients. After transduction, we determined GALNS enzymatic activity, lysosomal mass change, and autophagy pathway impairment. Additionally, we computationally assessed the effect of mutations over the enzyme-substrate interaction and phenotypic effects. The results showed that the co-transduction of MPS IVA fibroblasts with GALNS and SUMF1 cDNAs led to a significant increase in GALNS enzyme activity and a reduction of lysosomal mass. We show that patient-specific differences in cellular response are directly associated with the set of mutations on each patient. Lastly, we present new evidence supporting autophagy impairment in MPS IVA due to the presence and changes in autophagy proteins in treated MPS IVA fibroblasts. Our results offer new evidence that demonstrate the potential of lentiviral vectors as a strategy to correct GALNS deficiency.

Design and applications of gene therapy vectors for mucopolysaccharidosis in Colombia.

The authors briefly describe their work in the construction of viral derived vectors for the use in gene therapy of muchopolysaccharide storage diseases (MPS), especially in Morquio A syndrome. The motivations to undertake that line of research about twenty years ago was the belief that gene therapy was the most plausible treatment for monogenic diseases due to the transient effect and its difficulty to reach bone tissue of the only effective treatment in use, the enzyme replacement therapy. The strategy used to increase the bone targeting was to include in the vectors an aspartic acid octapeptide that increases their affinity for the oppositely charged hydroxyapatite molecule of bone. It is also discussed the difficulties to do front line research in many developing countries, due to the extended belief that their research money should be mainly devoted to projects that render solutions in a very short time. However, the authors argue in favor of doing research in gene therapy, because it is proving to be the solution for many monogenic diseases, and therefore there is a need of people with good command of GT all over the world, in order to make good use of that therapy especially for ex-vivo treatments.

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

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.

Advances in the Development of Pharmacological Chaperones for the Mucopolysaccharidoses.

The mucopolysaccharidoses (MPS) are a group of 11 lysosomal storage diseases (LSDs) produced by mutations in the enzymes involved in the lysosomal catabolism of glycosaminoglycans. Most of the mutations affecting these enzymes may lead to changes in processing, folding, glycosylation, pH stability, protein aggregation, and defective transport to the lysosomes. It this sense, it has been proposed that the use of small molecules, called pharmacological chaperones (PCs), can restore the folding, trafficking, and biological activity of mutated enzymes. PCs have the advantages of wide tissue distribution, potential oral administration, lower production cost, and fewer issues of immunogenicity than enzyme replacement therapy. In this paper, we will review the advances in the identification and characterization of PCs for the MPS. These molecules have been described for MPS II, IVA, and IVB, showing a mutation-dependent enhancement of the mutated enzymes. Although the results show the potential of this strategy, further studies should focus in the development of disease-specific cellular models that allow a proper screening and evaluation of PCs. In addition, in vivo evaluation, both pre-clinical and clinical, should be performed, before they can become a real therapeutic strategy for the treatment of MPS patients.

Cytogenetic biomonitoring in mucopolyssacharosis I, II and IV patients treated with enzyme replacement therapy.

BACKGROUND AND OBJECTIVES: The aim of this study was to evaluate genotoxicity and mutagenicity in peripheral blood and buccal mucosal cells in mucopolysaccharidosis (MPS) I, II or VI patients. METHODS: A total of 12 patients with MPS type I, II and VI attended at the Institute of Genetics and Inborn Errors of Metabolism treated with enzyme replacement therapy (ERT) and 10 healthy control volunteers were included in this study. Mechanically exfoliated cells from cheek mucosa (left and right side) were used to micronucleus test and single cell gel (comet) assay in peripheral blood cells. RESULTS: The results of this study detected the presence of genetic damage in peripheral blood for all individuals with MPS treated with ERT, regardless of type of MPS as depicted by tail moment results. In addition, an increased number of micronucleated cells were found in buccal cells of MPS type II patients. It was also observed an increase of other nuclear alterations closely related to cytotoxicity as depicted by the frequency of pyknosis, karyolysis and karyorrhexis in buccal mucosa cells of MPS VI patients (p < 0.05). CONCLUSION: Taken together, such results demonstrate that metabolic alterations induced by the enzymatic deficiency characteristic of MPS associated with ERT therapy can induce genotoxicity and mutagenicity in peripheral blood and buccal mucosa cells, respectively. This effect appears to be more pronounced to MPS II.

Identification of a novel missense mutation in Brazilian patient with a severe form of mucopolysaccharidosis type IVA.

Mucopolysaccharidosis type IVA (MPS IVA) or Morquio syndrome type A is an autosomal recessive disease caused by deficiency of the lysosomal enzyme N-acetylgalactosamine-6-sulfatase (GALNS). We report molecular characterization of a patient who presents the new missense mutation p.C165Y in homozygosis. Bioinformatics analysis predicted this mutation as being probably pathogenic. To evaluate the possibility that this alteration was a polymorphism we tested 100 alleles and all the results were negative. These findings together with the observation that this alteration is not present in controls, suggest that it is a disease-causing mutation, which was correlated with the severe phenotype observed in our patient. We conclude that molecular analysis of the GALNS gene, in addition to enzyme assays, is important for diagnosis and contributes to the better understanding of the relationship between genotype and phenotype, which is important as enzyme replacement therapy (ERT) will soon become available and treatment decisions will have to be take in such cases.

Genetic studies in a cluster of mucopolysaccharidosis type VI patients in Northeast Brazil.

Mucopolysaccharidosis type VI (MPS VI, Maroteaux-Lamy syndrome) is a lysosomal storage disease caused by deficiency of arylsulphatase B. The incidence of MPS VI is very low, usually less than 1 case for every 1,000,000 newborns. In Northeast Brazil we identified in the county of Monte Santo (52,360 inhabitants) thirteen patients with MPS VI. The aim of this work was to identify the mutation(s) present in these patients and analyze intragenic SNPs to define possible haplotypes. The 13 MPS VI patients were found to be homozygous for the p.H178L mutation. All patients have the same haplotype for the intragenic SNPs. Based on current data, the prevalence of MPS VI in this region is estimated as 1:5,000 newborns. These results, together with pedigree analysis, strongly suggest a founder effect accounting for the high frequency of p.H178L mutation in this area. This reinforces the need of a comprehensive community genetics program for this area.

Adeno-associated virus gene transfer in Morquio A disease - effect of promoters and sulfatase-modifying factor 1.

Mucopolysaccharidosis (MPS) IVA is an autosomal recessive disorder caused by deficiency of the lysosomal enzyme N-acetylgalatosamine-6-sulfate sulfatase (GALNS), which leads to the accumulation of keratan sulfate and chondroitin 6-sulfate, mainly in bone. To explore the possibility of gene therapy for Morquio A disease, we transduced the GALNS gene into HEK293 cells, human MPS IVA fibroblasts and murine MPS IVA chondrocytes by using adeno-associated virus (AAV)-based vectors, which carry human GALNS cDNA. The effects of the promoter and the cotransduction with the sulfatase-modifying factor 1 gene (SUMF1) on GALNS activity levels was evaluated. Downregulation of the cytomegalovirus (CMV) immediate early enhancer/promoter was not observed for 10 days post-transduction. The eukaryotic promoters induced equal or higher levels of GALNS activity than those induced by the CMV promoter in HEK293 cells. Transduction of human MPS IVA fibroblasts induced GALNS activity levels that were 15-54% of those of normal human fibroblasts, whereas in transduced murine MPS IVA chondrocytes, the enzyme activities increased up to 70% of normal levels. Cotransduction with SUMF1 vector yielded an additional four-fold increase in enzyme activity, although the level of elevation depended on the transduced cell type. These findings suggest the potential application of AAV vectors for the treatment of Morquio A disease, depending on the combined choice of transduced cell type, selection of promoter, and cotransduction of SUMF1.

[Construction of an adenoassociated, viral derived, expression vector to correct the genetic defect in Morquio A disease]. / Construcción de un vector de expresión derivado de virus adenoasociados para corregir in vitro el defecto genético de la enfermedad de Morquio A.

INTRODUCTION: Mucopolysaccharidosis IVA (Morquio A) is caused by a deficiency of N-acetylgalactosamine-6-sulphate-sulphatase, a lysosomal enzyme required for the stepwise degradation of keratan-sulfate and chondroitin-6-sulfate. A deficiency in this enzyme results in an accumulation of glycosaminoglycans in several tissues. Currently, no effective therapies exist and only supportive measures are used to treat some manifestations of the disease. An ideal therapy is one that can be administrated early in life, has low mortality, and leads to long-term expression of the enzyme. Gene therapy emerges as a potential alternative to correct the genetic defect in MPS IVA. OBJECTIVE: Adenoassociated virus-derived expression vectors (AAV) were constructed to correct in vitro the enzyme deficiency in mucopolysaccharidosis IVA. MATERIALS AND METHODS: Adenoasociated virus-derived vectors containing the human GALNS gene and driven by the citomegalivirus immedited-early promoter were constructed using a free-adenoviral protocol. HEK293 cells and human skin Morquio A fibroblasts were transfected with the recombinat vectors. Enzyme activity was measured in cells 24 and 48 hours post-transfection. RESULTS: Free-adenovirus recombinant AAV vectors were obtained with titres up to 2.08x1010 capsids/mL. HEK293 cells and Morquio A fibroblasts transfected with vectors showed GALNS activity up to 3.05 nmoles/mg/h 48 hours post-transfection. CONCLUSION: The AAV mediated the in vitro expression of GALNS enzyme in the transfected cells. These results are the first step towards a gene therapy alternative to Morquio A disease using adenoassociated virus-derived vectors.

Construcción de un vector de expresión derivado de virus adenoasociados para corregir in vitro el defecto genético de la enfermedad de Morquio A / Construction of an adenoassociated, viral derived, expression vector to correct the genetic defect in Morquio A disease

Introducción. La mucopolisacaridosis IV A (Morquio A) es una enfermedad de depósito lisosómico causada por la deficiencia en la actividad de la enzima N-acetil-galactosamina- 6-sulfato-sulfatasa que produce la acumulación intralisosómica de queratán y condroitín-6-sulfato. Hasta el momento, su manejo es paliativo, por lo que las investigaciones se han enfocado en establecer una terapia que pueda aplicarse tempranamente y garantice la expresión estable de la enzima. En este sentido, la terapia génica se presenta como una de las potenciales alternativas terapéuticas para corregir el defecto genético en la mucopolisacaridosis IV A. Objetivo. Construir vectores de expresión derivados de virus adenoasociados para corregir in vitro la deficiencia enzimática en la mucopolisacaridosis IV A. Materiales y métodos. Se produjeron vectores derivados de virus adenoasociados que portaban el gen humano de la enzima N-acetil-galactosamina-6-sulfato-sulfatasa dirigido por el promotor temprano del citomegalovirus humano, empleando un sistema libre de adenovirus. Se transfectaron células HEK293 y fibroblastos humanos Morquio A con los virus recombinantes, y se determinó la actividad enzimática en el lisado celular a las 24 y 48 horas después de la transfección. Resultados. Se obtuvieron virus adenoasociados recombinantes, libres de adenovirus, con títulos hasta de 2,08 x 1010 cápsides/ml. Tanto en células HEK293 como en fibroblastos Morquio A transfectados, se obtuvieron actividades enzimáticas hasta de 3,05 nmoles/mg por hora, 48 horas después de la transfección. Conclusión. Los virus recombinantes producidos expresaron in vitro la enzima GALNS en las células transfectadas. Estos resultados constituyen el paso inicial para el desarrollo de una terapia génica para la enfermedad de Morquio A empleando vectores derivados de virus adenoasociados.

Novel beta-galactosidase gene mutation p.W273R in a woman with mucopolysaccharidosis type IVB (Morquio B) and lack of response to in vitro chaperone treatment of her skin fibroblasts.

The patient is a 24-year-old woman who first came for consultation at age 10 years. Based on clinical phenotype and thin-layer chromatography of urinary oligosaccharides, peripheral leukocytes were sent for beta-galactosidase assay. This testing showed a deficiency in enzyme activity, and gene mutation analysis identified a previously reported mutation p.H281Y (875C > T) and a novel mutation p.W273R (817T > C). Unlike previously reported patients, mutant enzymes in this patient's cultured skin fibroblasts did not respond to treatment with a chaperone compound, N-octyl-4-epi-beta-valienamine.

Genetic landmarks through philately: Luís Morquio 1867-1935.

Morquio syndrome, also known as Mucopolysaccharidosis Type IV, is well known to pediatricians and geneticists, although it is rare. Many do not know much about the physician who first described this lysosomal disorder. In this brief review, the person and the disease are described, along with philatelic illustrations that have been issued to honor this famous Latin American medical hero.

Conferencia: En el Centenario de las dos primeras contribuciones latinoamericanas originales a la medicina universal: Enfermedad de Ayerza y Enfermedad de Morquio II / Conference: In the centenary of the two first original Latin American contributions to the universal medicine: Ayerzas disease and Morquio II disease

En el centenario (1901-2001) de las descripciones princeps de las dos primeras contribuciones originales latinoamericanas a la medicina universal se recuerda la hecha por Abel Ayerza (1861-1918) de los Cardíacos negros o Enfermedad de Ayerza. Se hace una breve síntesis de la historia de la individualización de dicha entidad dando las características esenciales del síndrome. A continuación se recuerda la descripción por Luis Morquio (1868-1935) del Bloqueo aurículoventricular completo congénito y familiar o Enfermedad de Morquio II. Se hace una síntesis de su individualización, su herencia autosómica dominante, su variedad etiológica, así como la historia de uno de los primeros casos descritos con implantación de marcapaso permanente con total éxito y excelente evolución hasta hoy. (AU)

A novel common missense mutation G301C in the N-acetylgalactosamine-6-sulfate sulfatase gene in mucopolysaccharidosis IVA.

Mucopolysaccharidosis IVA (MPS IVA) is an autosomal recessive lysosomal storage disorder caused by a genetic defect in N-acetylgalactosamine-6-sulfate sulfatase (GALNS). In previous studies, we have found two common mutations in Caucasians and Japanese, respectively. To characterize the mutational spectrum in various ethnic groups, mutations in the GALNS gene in Colombian MPS IVA patients were investigated, and genetic backgrounds were extensively analyzed to identify racial origin, based on mitochondrial DNA (mtDNA) lineages. Three novel missense mutations never identified previously in other populations and found in 16 out of 19 Colombian MPS IVA unrelated alleles account for 84.2% of the alleles in this study. The G301C and S162F mutations account for 68.4% and 10.5% of mutations, respectively, whereas the remaining F69V is limited to a single allele. The skewed prevalence of G301C in only Colombian patients and haplotype analysis by restriction fragment length polymorphisms in the GALNS gene suggest that G301C originated from a common ancestor. Investigation of the genetic background by means of mtDNA lineages indicate that all our patients are probably of native American descent.

Osteocondrodistrofia deformante (doença de Mórquio): estudo de uma família / Deforming osteochondrodystrophia (Morquio disease): study of a family

Relatam 3 casos de doença de Mórquio que ocorreram numa família. Säo analisados os achados clínicos e radiológicos, que, por si, podem levar ao diagnóstico sindrômico. É enfatizada a importância do conhecimento, pelo ortopedista, dessa síndrome, pois o diagnóstico, em relaçäo a outras mucopolissacaridoses, aconselha determinadas terapêuticas