Sukirthini Balendran-Braun, Ursula Vinatzer, Sandra Liebmann-Reindl, Manuela Lux, Petra Oliva, Stefaan Sansen, Thomas Mechtler, David C. Kasper, Berthold Streubel
{"title":"对 30,000 多名疑似庞贝氏症症状患者的 GAA 进行生化和基因检测","authors":"Sukirthini Balendran-Braun, Ursula Vinatzer, Sandra Liebmann-Reindl, Manuela Lux, Petra Oliva, Stefaan Sansen, Thomas Mechtler, David C. Kasper, Berthold Streubel","doi":"10.1155/2024/6248437","DOIUrl":null,"url":null,"abstract":"<p>Pompe disease (PD) is a rare autosomal recessive lysosomal disorder caused by loss-of-function of the <i>α</i>-glucosidase (<i>GAA</i>) gene. The deficient GAA enzyme activity may result in potential life-threatening muscle weakness, thus requiring a rapid diagnosis to initiate therapeutic interventions. In this large retrospective study, we analyzed 30.836 PD suspect samples from 57 countries using a two-step approach utilizing dried blood spots (DBSs): biochemical testing of GAA activity followed by complementary genetic sequencing of <i>GAA</i> in biochemically conspicuous cases. Of these 30.836 samples, 2% (<i>n</i> = 639) were excluded; accordingly, this study consisted of 30.193 cases. Biochemical testing of GAA enzyme activity showed normal values in 28.354 (93.90%) and enzyme activity below the cut-off in 1843 (6.10%) cases. These biochemically suspicious cases were genetically analyzed. We identified 723 Pompe cases with 283 different <i>GAA</i> alterations, and 98 variants have been unpublished so far. The most common variant was the splice variant c.-32-13T>G (IVS1). Looking at the IVS1-genotype, the majority was compound heterozygous (<i>n</i> = 169) and identified in late-onset cases (<i>n</i> = 162). Comparison of early- versus late-onset cases to evaluate whether certain genotypes correlate with the age of onset revealed that homozygosity was predominantly found in infantile (85.65%) and compound heterozygosity in late-onset (76.9%) cases. Analysis of homozygous cases revealed 61% nonsense variants in the early stages and 87% missense variants in the late stages. Mapping of disease-associated (homozygous) missense variants to functional GAA protein domains showed that missense variants were found throughout GAA, but we identified enrichment in the catalytic domain. A strict genotype–phenotype correlation cannot be established; nevertheless, a phenotypic implication of some <i>GAA</i> variants could be drawn (e.g., c.896T>C/p.L299P, c.2015G>A/p.R672Q, and c.-32-13T>G). The combined enzyme activity and genetic testing from DBS cards can reliably identify PD and significantly accelerate diagnosis. We identified new genetic variants that contribute to the spectrum of pathogenic variants of the <i>GAA</i> gene.</p>","PeriodicalId":3,"journal":{"name":"ACS Applied Electronic Materials","volume":null,"pages":null},"PeriodicalIF":4.3000,"publicationDate":"2024-10-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1155/2024/6248437","citationCount":"0","resultStr":"{\"title\":\"Biochemical and Genetic Testing of GAA in Over 30.000 Symptomatic Patients Suspected to Be Affected With Pompe Disease\",\"authors\":\"Sukirthini Balendran-Braun, Ursula Vinatzer, Sandra Liebmann-Reindl, Manuela Lux, Petra Oliva, Stefaan Sansen, Thomas Mechtler, David C. Kasper, Berthold Streubel\",\"doi\":\"10.1155/2024/6248437\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Pompe disease (PD) is a rare autosomal recessive lysosomal disorder caused by loss-of-function of the <i>α</i>-glucosidase (<i>GAA</i>) gene. The deficient GAA enzyme activity may result in potential life-threatening muscle weakness, thus requiring a rapid diagnosis to initiate therapeutic interventions. In this large retrospective study, we analyzed 30.836 PD suspect samples from 57 countries using a two-step approach utilizing dried blood spots (DBSs): biochemical testing of GAA activity followed by complementary genetic sequencing of <i>GAA</i> in biochemically conspicuous cases. Of these 30.836 samples, 2% (<i>n</i> = 639) were excluded; accordingly, this study consisted of 30.193 cases. Biochemical testing of GAA enzyme activity showed normal values in 28.354 (93.90%) and enzyme activity below the cut-off in 1843 (6.10%) cases. These biochemically suspicious cases were genetically analyzed. We identified 723 Pompe cases with 283 different <i>GAA</i> alterations, and 98 variants have been unpublished so far. The most common variant was the splice variant c.-32-13T>G (IVS1). Looking at the IVS1-genotype, the majority was compound heterozygous (<i>n</i> = 169) and identified in late-onset cases (<i>n</i> = 162). Comparison of early- versus late-onset cases to evaluate whether certain genotypes correlate with the age of onset revealed that homozygosity was predominantly found in infantile (85.65%) and compound heterozygosity in late-onset (76.9%) cases. Analysis of homozygous cases revealed 61% nonsense variants in the early stages and 87% missense variants in the late stages. Mapping of disease-associated (homozygous) missense variants to functional GAA protein domains showed that missense variants were found throughout GAA, but we identified enrichment in the catalytic domain. A strict genotype–phenotype correlation cannot be established; nevertheless, a phenotypic implication of some <i>GAA</i> variants could be drawn (e.g., c.896T>C/p.L299P, c.2015G>A/p.R672Q, and c.-32-13T>G). The combined enzyme activity and genetic testing from DBS cards can reliably identify PD and significantly accelerate diagnosis. 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Biochemical and Genetic Testing of GAA in Over 30.000 Symptomatic Patients Suspected to Be Affected With Pompe Disease
Pompe disease (PD) is a rare autosomal recessive lysosomal disorder caused by loss-of-function of the α-glucosidase (GAA) gene. The deficient GAA enzyme activity may result in potential life-threatening muscle weakness, thus requiring a rapid diagnosis to initiate therapeutic interventions. In this large retrospective study, we analyzed 30.836 PD suspect samples from 57 countries using a two-step approach utilizing dried blood spots (DBSs): biochemical testing of GAA activity followed by complementary genetic sequencing of GAA in biochemically conspicuous cases. Of these 30.836 samples, 2% (n = 639) were excluded; accordingly, this study consisted of 30.193 cases. Biochemical testing of GAA enzyme activity showed normal values in 28.354 (93.90%) and enzyme activity below the cut-off in 1843 (6.10%) cases. These biochemically suspicious cases were genetically analyzed. We identified 723 Pompe cases with 283 different GAA alterations, and 98 variants have been unpublished so far. The most common variant was the splice variant c.-32-13T>G (IVS1). Looking at the IVS1-genotype, the majority was compound heterozygous (n = 169) and identified in late-onset cases (n = 162). Comparison of early- versus late-onset cases to evaluate whether certain genotypes correlate with the age of onset revealed that homozygosity was predominantly found in infantile (85.65%) and compound heterozygosity in late-onset (76.9%) cases. Analysis of homozygous cases revealed 61% nonsense variants in the early stages and 87% missense variants in the late stages. Mapping of disease-associated (homozygous) missense variants to functional GAA protein domains showed that missense variants were found throughout GAA, but we identified enrichment in the catalytic domain. A strict genotype–phenotype correlation cannot be established; nevertheless, a phenotypic implication of some GAA variants could be drawn (e.g., c.896T>C/p.L299P, c.2015G>A/p.R672Q, and c.-32-13T>G). The combined enzyme activity and genetic testing from DBS cards can reliably identify PD and significantly accelerate diagnosis. We identified new genetic variants that contribute to the spectrum of pathogenic variants of the GAA gene.
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