Your search keyword '"Andrea M. Atherton"' showing total 24 results

1. Initial symptom presentation in young pediatric patients with classic pathogenic variants in the gene: Data from the Fabry MOPPet study

Author

Dawn A. Laney, Morgan F. Houde, Allison Foley, Dawn S. Peck, Andrea M. Atherton, Tomi L. Toler, Linda Manwaring, Keirsa Nimmons, Dorothy K. Grange, Christine Kidwell, Bryce A. Heese, Myrl D. Holida, and Christiane Auray-Blais

Subjects

Endocrinology, Endocrinology, Diabetes and Metabolism, Genetics, Molecular Biology, Biochemistry

Published

2022

2. The Psychosocial Impact of Carrying a Debated Variant in the GLA Gene

Author

Emily C. Lisi, Sarah Macklin, Elizabeth F. Smith, Dawn Laney, and Andrea M. Atherton

Subjects

Adult, Male, 0301 basic medicine, medicine.medical_specialty, media_common.quotation_subject, Genetic counseling, 030105 genetics & heredity, 03 medical and health sciences, Neonatal Screening, 0302 clinical medicine, Gla gene, medicine, Humans, Clinical significance, Genetic Testing, Genetics (clinical), media_common, business.industry, Public health, Infant, Newborn, medicine.disease, Fabry disease, Human genetics, Feeling, alpha-Galactosidase, Mutation, Fabry Disease, Female, business, Psychosocial, Social psychology, 030217 neurology & neurosurgery, Clinical psychology

Abstract

The clinical significance of the c.427G>A (p.A143T) variant in GLA is a topic of debate within the lysosomal storage disease community. A review of the literature and published case reports found the clinical impact of the variant to range from classic Fabry symptoms to healthy unaffected males with normal alpha- galactosidase enzyme levels, leaving clinicians unsure of how to manage these individuals. As the number of states testing for Fabry disease on their newborn screening panel has increased, more people with this variant are being identified. The goal of this project was to learn how the uncertainty surrounding the clinical significance of the p.A143T variant affects those with this change. A self-response questionnaire was developed to explore this topic. In addition to evaluating participant feelings, the questionnaire explored individuals' beliefs regarding the pathogenicity of the variant. Results suggest that people have diverse feelings regarding reclassification of the p.A143T variant. Around half of those surveyed reported feeling frustrated by the lack of clear information. Despite the ambiguity regarding the health consequences of this variant, many participants felt that knowing this result helps guide medical management.

Published

2017

3. Longitudinal change in the urinary biomarkers of young pediatric patients with pathogenic variants in the gene: Data from the MOPPet study

Author

Eric W. Hall, Tomi L. Toler, Myrl Holida, Bruce A. Heese, Keirsa Nimmons, Dawn Laney, Dorothy K. Grange, Dawn Peck, Christy F. Kidwell, Christiane Auray-Blais, Andrea M. Atherton, Elizabeth Vengoechea, Linda Manwaring, and Morgan F. Simmons

Subjects

Endocrinology, Gla gene, business.industry, Endocrinology, Diabetes and Metabolism, Immunology, Genetics, Medicine, Urinary biomarkers, business, Molecular Biology, Biochemistry

Published

2020

4. Pathogenic variants in KPTN gene identified by clinical whole-genome sequencing

Author

Ahmed Abdelmoity, Bryce Heese, Neil A. Miller, Emily G. Farrow, Lee Zellmer, Carol J Saunders, Andrea M. Atherton, Kailash Pawar, Sarah E Soden, and Isabelle Thiffault

Subjects

Genetic heterogeneity, business.industry, Macrocephaly, Context (language use), General Medicine, Status epilepticus, Compound heterozygosity, medicine.disease, Bioinformatics, Exon, Epilepsy, Gene duplication, medicine, medicine.symptom, business

Abstract

Status epilepticus is not rare in critically ill intensive care unit patients, but its diagnosis is often delayed or missed. The mortality for convulsive status epilepticus is dependent on the underlying aetiologies and the age of the patients and thus varies from study to study. In this context, effective molecular diagnosis in a pediatric patient with a genetically heterogeneous phenotype is essential. Homozygous or compound heterozygous variants in KPTN have been recently associated with a syndrome typified by macrocephaly, neurodevelopmental delay, and seizures. We describe a comprehensive investigation of a 9-yr-old male patient who was admitted to the intensive care unit, with focal epilepsy, static encephalopathy, autism spectrum disorder, and macrocephaly of unknown etiology, who died of status epilepticus. Clinical whole-genome sequencing revealed compound heterozygous variants in the KPTN gene. The first variant is a previously characterized 18-bp in-frame duplication (c.714_731dup) in exon 8, resulting in the protein change p.Met241_Gln246dup. The second variant, c.394 + 1G > A, affects the splice junction of exon 3. These results are consistent with a diagnosis of autosomal recessive KPTN-related disease. This is the fourth clinical report for KPTN deficiency, providing further evidence of a wider range of severity.

Published

2020

5. Ethical Considerations When Including Lysosomal Storage Disorders in Newborn Screening Programs

Author

Catherine Walsh Vockley and Andrea M. Atherton

Subjects

medicine.medical_specialty, Newborn screening, business.industry, Public health, Lysosomal storage disorders, General Medicine, Disease, Disease control, Review article, Mucopolysaccharidosis type I, Family medicine, medicine, Parental consent, business

Abstract

There is essentially unanimous agreement that newborn screening saves lives. Nevertheless, newborn screening—rated as one of the top 10 successes in public health in the first decade of the twenty-first century by the Centers for Disease Control and Prevention (Koppaka in JAMA 306(5):484–487, 2003)—faces multiple challenges, including questions about how conditions are added to the list of disorders for which screening is done in each state, about the need for parental consent for use of dried blood spots after screening, and the roles of parents in expansion of newborn screening. Such questions figure prominently in controversy surrounding Pennsylvania’s recent passage of House Bill1654, also called Hannah’s Law, which institutes newborn screening and follow-up for 6 lysosomal storage disorders including Krabbe, Fabry, Pompe, Niemann–Pick, types A and B, Gaucher diseases, and mucopolysaccharidosis type I, also called Hurler disease. This review article provides an historical perspective on newborn screening including discussion of how conditions came to be added to the Recommended Uniform Screening Panel, and an overview of current issues and concerns for key stakeholders including parents, healthcare providers, laboratorians, and legislators.

Published

2015

6. The Role of Genetic Counseling in Pompe Disease After Patients Are Identified Through Newborn Screening

Author

Debra L. Day-Salvatore and Andrea M. Atherton

Subjects

0301 basic medicine, medicine.medical_specialty, Genetic counseling, MEDLINE, Prenatal diagnosis, Genetic Counseling, Disease, 030105 genetics & heredity, 03 medical and health sciences, Neonatal Screening, Prenatal Diagnosis, Glycogen storage disease type II, Health care, medicine, Humans, Genetic Testing, Psychiatry, Genetic testing, Newborn screening, medicine.diagnostic_test, business.industry, Glycogen Storage Disease Type II, Infant, Newborn, medicine.disease, Family medicine, Pediatrics, Perinatology and Child Health, business

Abstract

An important part of the coordinated care by experienced health care teams for all Pompe disease patients, whether diagnosed through newborn screening (NBS), clinical diagnosis, or prenatal diagnosis, is genetic counseling. Genetic counseling helps families better understand medical recommendations and options presented by the patient’s health care team so they can make informed decisions. In addition to providing important information about the inheritance and genetic risks, genetic counseling also provides information about Pompe disease and available treatments and resources and should be offered to families with an affected child and all adults diagnosed with Pompe disease. Although the need for genetic counseling after a positive newborn screen for Pompe disease is recognized, the role that genetic counseling plays for both families of affected patients and health care teams is not fully understood. Consistent best genetic counseling practices also are lacking. The guidance in this article in the “Newborn Screening, Diagnosis, and Treatment for Pompe Disease” supplement is derived from expert consensus from the Pompe Disease Newborn Screening Working Group. It is intended to help guide genetic counseling efforts and provide a clear understanding of the role for families or carriers of Pompe disease identified through NBS; explain special considerations (eg, diagnosis of late-onset Pompe disease before the appearance of symptoms) and the impact and implications associated with a diagnosis (eg, determination of genetic risk and carrier status and preconception counseling); and provide health care teams caring for patients with a framework for a standardized approach to genetic counseling for patients and at-risk family members.

Published

2017

7. Diagnosis of mitochondrial disorders by concomitant next-generation sequencing of the exome and mitochondrial genome

Author

Darrell L. Dinwiddie, Stephen F. Kingsmore, Carol J. Saunders, Emily G. Farrow, Laurie D. Smith, Andrea M. Atherton, Meghan Strenk, Neil A. Miller, and Sarah E Soden

Subjects

Heterozygote, Mitochondrial DNA, Mitochondrial Diseases, Ubiquinone, Mitochondrial disease, Lactic academia, CoQ10 deficiency, Mitochondrial complex I, Human mitochondrial genetics, Article, Mitochondrial genome, MT-ATP6, Molecular diagnostics, Genetics, medicine, Humans, Exome, Exome sequencing, Homoplasmy, Electron Transport Complex I, Muscle Weakness, biology, Sequence Analysis, RNA, Infant, Newborn, Genetic Variation, High-Throughput Nucleotide Sequencing, Infant, Inborn error of metabolism, Sequence Analysis, DNA, medicine.disease, Leigh syndrome, Mitochondria, Pedigree, Molecular Diagnostic Techniques, Child, Preschool, Genome, Mitochondrial, Next-generation sequencing, biology.protein, Ataxia, Female, Leigh Disease, Coenzyme Q10 deficiency

Abstract

Mitochondrial diseases are notoriously difficult to diagnose due to extreme locus and allelic heterogeneity, with both nuclear and mitochondrial genomes potentially liable. Using exome sequencing we demonstrate the ability to rapidly and cost effectively evaluate both the nuclear and mitochondrial genomes to obtain a molecular diagnosis for four patients with three distinct mitochondrial disorders. One patient was found to have Leigh syndrome due to a mutation in MT-ATP6, two affected siblings were discovered to be compound heterozygous for mutations in the NDUFV1 gene, which causes mitochondrial complex I deficiency, and one patient was found to have coenzyme Q10 deficiency due to compound heterozygous mutations in COQ2. In all cases conventional diagnostic testing failed to identify a molecular diagnosis. We suggest that additional studies should be conducted to evaluate exome sequencing as a primary diagnostic test for mitochondrial diseases, including those due to mtDNA mutations.

Published

2013

8. Exome Sequencing Reveals De Novo Germline Mutation of the Mammalian Target of Rapamycin (MTOR) in a Patient with Megalencephaly and Intractable Seizures

Author

Darrell L. Dinwiddie, Laurie D. Smith, Ahmed Abdelmoity, Emily G. Farrow, Carol J Saunders, Stephen F. Kingsmore, Sarah E Soden, Andrea M. Atherton, and Neil A. Miller

Subjects

Hemimegalencephaly, Epilepsy, Germline mutation, Mutation (genetic algorithm), medicine, Megalencephaly, Biology, Bioinformatics, medicine.disease, Exome, Exome sequencing, Germline

Abstract

A de novo somatic mutation in the mammalian target of rapamycin (MTOR) has previously been described in one patient with hemimegalencephaly and epilepsy. Here, we present a case of a young girl with megalencephaly and intractable seizures who was found to have an MTOR mutation in multiple cell lineages (p.Cys1483Phe) and, therefore, presumed to be of germline origin. The mutation was detected in peripheral blood DNA by exome sequencing of the patient and her parents, substantiating the utility of this approach for detection of clinically relevant de novo variations.

Published

2013

9. HSP and deafness: Neurocristopathy caused by a novel mosaic

Author

Sandra, Donkervoort, Diana, Bharucha-Goebel, Pomi, Yun, Ying, Hu, Payam, Mohassel, Ahmet, Hoke, Wadih M, Zein, Daniel, Ezzo, Andrea M, Atherton, Ann C, Modrcin, Majed, Dasouki, A Reghan, Foley, and Carsten G, Bönnemann

Subjects

Article

Abstract

Objective: To identify the underlying genetic cause in 2 sisters affected with progressive lower extremity spasticity, neuropathy, and early-onset deafness. Methods: Whole-exome sequencing was performed, and segregation testing of variants was investigated using targeted Sanger sequencing. An inherited paternal mosaic mutation was further evaluated through quantitative analysis of the ratio of mutant vs wild-type allele in genomic DNA from various tissues, including blood, dermal fibroblasts, and saliva. Results: A novel heterozygous nonsense mutation (c.1140C>A; p.Y380X) in SOX10 was identified in the affected sisters. Paternal mosaicism was suspected based on a small chromatogram peak, which was less than the heterozygous peak of the mutated allele. Consistent with mosaicism, the mosaic paternal samples had notable variability in the ratio of mutant vs wild-type allele in various tissues (compared with the fully heterozygous daughter), with the highest paternal mutant levels in saliva (32.7%) and lowest in dermal fibroblasts (13.9%). Targeted clinical re-examination of the father revealed a sensorimotor neuropathy that was previously clinically unrecognized. Conclusions: These findings expand the phenotypic spectrum of SOX10-related neurocristopathy. Mutations in SOX10 should be considered in patients presenting with a complicated form of hereditary spastic paraplegia that includes neuropathy and deafness. Diagnostic workup may be complicated, as SOX10 mutations can present in a mosaic state, with a mild clinical manifestation.

Published

2016

10. Mucopolysaccharidosis Type I Newborn Screening: Best Practices for Diagnosis and Management

Author

Janet A. Thomas, Joseph Muenzer, Debra L. Day-Salvatore, C. Ronald Scott, Lorne A. Clarke, Paige Kaplan, Andrea M. Atherton, David W. Stockton, Barbara K. Burton, and Nancy D. Leslie

Subjects

0301 basic medicine, Pediatrics, medicine.medical_specialty, Best practice, Mucopolysaccharidosis I, 03 medical and health sciences, Mucopolysaccharidosis type I, 0302 clinical medicine, Neonatal Screening, Clinical Protocols, medicine, Humans, Pediatrics, Perinatology, and Child Health, Newborn screening, α l iduronidase, business.industry, Infant, Newborn, Enzyme replacement therapy, 030104 developmental biology, Pediatrics, Perinatology and Child Health, Immunology, Practice Guidelines as Topic, business, 030217 neurology & neurosurgery, Algorithms

Published

2016

11. A Systematic Approach to Implementing Monogenic Genomic Medicine: Genotype-Driven Diagnosis of Genetic Diseases

Author

J. Steve Leeder, Darrell L. Dinwiddie, Carol J Saunders, Sarah E Soden, Laurie D. Smith, Neil A. Miller, Andrea M. Atherton, Stephen F. Kingsmore, and Noor Abu Alnadi

Subjects

Whole genome sequencing, Genetics, Aprataxin, Mutation, Genetic heterogeneity, business.industry, Genomics, Disease, medicine.disease_cause, medicine.disease, Bioinformatics, Genotype, medicine, business, Cutis laxa

Abstract

Genomic medicine is an emerging paradigm for disease diagnosis and management that incorporates individual genome sequence information based on and identified by next-generation sequencing. Here we report on the initial experience in implementing genomic medicine for inherited diseases in a large children’s hospital. In two families, next-generation sequencing identified molecular diagnoses that had not been disclosed by years of traditional diagnostic tests. Two sisters with progressive ataxia were found to have a mutation in aprataxin gene (APTX c.717G > A, p.Trp239X) and were treated with oral Coenzyme Q10. Two brothers with intellectual disability, dysmorphic features, doughy skin, and truncal obesity were found to have autosomal recessive cutis laxa caused by mutations in pyrroline-5-carboxylate reductase, type 1 (PYCR1 c.120_121delCA). Pediatric genomic medicine appears to enable early diagnosis of inherited diseases that feature clinical or genetic heterogeneity and it may allow for targeted treatment. We discuss several bottlenecks to improving care though genomic medicine, as well as potential solutions.

Published

2012

12. 3‐Hydroxyisobutyrate aciduria and mutations in the ALDH6A1 gene coding for methylmalonate semialdehyde dehydrogenase

Author

Uttam Garg, David Scott, Laurie D. Smith, Andrea M. Atherton, Jörn Oliver Sass, C. Geoffrey Woods, Melanie Walter, and Julian P.H. Shield

Subjects

Male, DNA Mutational Analysis, Mutation, Missense, Respiratory chain, Hydroxybutyrates, Dehydrogenase, Biology, medicine.disease_cause, Organic aciduria, Consanguinity, Exon, Genetics, medicine, Humans, Missense mutation, Amino Acid Metabolism, Inborn Errors, Gene, Genetics (clinical), Mutation, Methylmalonate-Semialdehyde Dehydrogenase (Acylating), Homozygote, Infant, Newborn, Infant, Sequence Analysis, DNA, Fibroblasts, Mutation testing, Female

Abstract

3-hydroxyisobutyric aciduria is an organic aciduria with a poorly understood biochemical basis. It has previously been assumed that deficiency of 3-hydroxyisobutyrate dehydrogenase (HIBADH) in the valine catabolic pathway is the underlying enzyme defect, but more recent evidence makes it likely that individuals with 3-hydroxyisobutyryic aciduria represent a heterogeneous group with different underlying mechanisms, including respiratory chain defects or deficiency of methylmalonate semialdehyde dehydrogenase. However, to date methylmalonate semialdehyde dehydrogenase deficiency has only been demonstrated at the gene level for a single individual. We present two unrelated patients who presented with developmental delay and increased urinary concentrations of 3-hydroxyisobutyric acid. Both children were products of consanguineous unions and were of European or Pakistani descent. One patient developed a febrile illness and subsequently died from a hepatoencephalopathy at 2 years of age. Further studies were initiated and included tests of the HIBADH enzyme in fibroblast homogenates, which yielded normal activities. Sequencing of the ALDH6A1 gene (encoding methylmalonate semialdehyde dehydrogenase) suggested homozygosity for the missense mutation c.785 C > A (S262Y) in exon 7 which was not found in 210 control alleles. Mutation analysis of the ALDH6A1 gene of the second patient confirmed the presence of a different missense mutation, c.184 C > T (P62S), which was also identified in 1/530 control chromosomes. Both mutations affect highly evolutionarily conserved amino acids of the methylmalonate semialdehyde dehydrogenase protein. Mutation analysis in the ALDH6A1 gene can reveal a cause of 3-hydroxyisobutyric aciduria, which may present with only slightly increased urinary levels of 3-hydroxyisobutyric acid, if a patient is metabolically stable.

Published

2011

13. A prospective, multicenter pilot study of Fabry disease clinical and biochemical findings in young pediatric patients: The MOPPet baseline data

Author

Dawn Peck, Linda Manwaring, Myrl Holida, Christine F. Kidwell, Tomi L. Toler, Morgan F. Simmons, Christiane Auray-Blais, Allison Foley, Bruce A. Heese, Andrea M. Atherton, Eric W. Hall, Elizabeth D. Smith, Anne K. Clark, Dorothy K. Grange, and Dawn Laney

Subjects

Pediatrics, medicine.medical_specialty, Endocrinology, business.industry, Endocrinology, Diabetes and Metabolism, Genetics, Medicine, Baseline data, business, medicine.disease, Molecular Biology, Biochemistry, Fabry disease

Published

2018

14. HSP and deafness

Author

Carsten G. Bönnemann, Ying Hu, Diana Bharucha-Goebel, Andrea M. Atherton, Sandra Donkervoort, Ahmet Hoke, Payam Mohassel, Ann C. Modrcin, Daniel Ezzo, Majed Dasouki, Pomi Yun, Wadih M. Zein, and A. Reghan Foley

Subjects

0301 basic medicine, Genetics, Sanger sequencing, Neurocristopathy, Mutation, Hereditary spastic paraplegia, Nonsense mutation, Mutant, Biology, medicine.disease_cause, medicine.disease, Phenotype, 03 medical and health sciences, symbols.namesake, 030104 developmental biology, 0302 clinical medicine, symbols, medicine, Neurology (clinical), Allele, 030217 neurology & neurosurgery, Genetics (clinical)

Abstract

Objective:To identify the underlying genetic cause in 2 sisters affected with progressive lower extremity spasticity, neuropathy, and early-onset deafness.Methods:Whole-exome sequencing was performed, and segregation testing of variants was investigated using targeted Sanger sequencing. An inherited paternal mosaic mutation was further evaluated through quantitative analysis of the ratio of mutant vs wild-type allele in genomic DNA from various tissues, including blood, dermal fibroblasts, and saliva.Results:A novel heterozygous nonsense mutation (c.1140C>A; p.Y380X) in SOX10 was identified in the affected sisters. Paternal mosaicism was suspected based on a small chromatogram peak, which was less than the heterozygous peak of the mutated allele. Consistent with mosaicism, the mosaic paternal samples had notable variability in the ratio of mutant vs wild-type allele in various tissues (compared with the fully heterozygous daughter), with the highest paternal mutant levels in saliva (32.7%) and lowest in dermal fibroblasts (13.9%). Targeted clinical re-examination of the father revealed a sensorimotor neuropathy that was previously clinically unrecognized.Conclusions:These findings expand the phenotypic spectrum of SOX10-related neurocristopathy. Mutations in SOX10 should be considered in patients presenting with a complicated form of hereditary spastic paraplegia that includes neuropathy and deafness. Diagnostic workup may be complicated, as SOX10 mutations can present in a mosaic state, with a mild clinical manifestation.

Published

2017

15. Effectiveness of exome and genome sequencing guided by acuity of illness for diagnosis of neurodevelopmental disorders

Author

Laurel K. Willig, Ann C. Modrcin, Zhaohui Ye, Nicole P. Safina, Darrell L. Dinwiddie, Aaron Noll, Carol J Saunders, Xuan Yuan, Josh E Petrikin, Sarah S. Nyp, Robert A. Brodsky, Britton Zuccarelli, Mitchell Creed, Jean Baptiste LePichon, Neil A. Miller, Laurie D. Smith, Isabelle Thiffault, Lee Zellmer, Suzanne Herd, Andrea M. Atherton, Sarah E Soden, Bryce A. Heese, Ahmed Abdelmoity, Greyson P Twist, Emily G. Farrow, Stephen F. Kingsmore, and Ingrid A. Larson

Subjects

Male, Pediatrics, medicine.medical_specialty, Developmental Disabilities, DNA Mutational Analysis, Newly diagnosed, Biology, Diagnostic evaluation, Bioinformatics, Article, DNA sequencing, Ambulatory care, medicine, Humans, Exome, Genetic Predisposition to Disease, Symptom onset, Medical diagnosis, Clinical care, Child, Genome, Base Sequence, Genome, Human, Infant, Health Care Costs, Sequence Analysis, DNA, General Medicine, Phenotype, Molecular Diagnostic Techniques, Child, Preschool, Mutation, Female

Abstract

Neurodevelopmental disorders (NDDs) affect more than 3% of children and are attributable to single-gene mutations at more than 1000 loci. Traditional methods yield molecular diagnoses in less than one-half of children with NDD. Whole-genome sequencing (WGS) and whole-exome sequencing (WES) can enable diagnosis of NDD, but their clinical and cost-effectiveness are unknown. One hundred families with 119 children affected by NDD received diagnostic WGS and/or WES of parent-child trios, wherein the sequencing approach was guided by acuity of illness. Forty-five percent received molecular diagnoses. An accelerated sequencing modality, rapid WGS, yielded diagnoses in 73% of families with acutely ill children (11 of 15). Forty percent of families with children with nonacute NDD, followed in ambulatory care clinics (34 of 85), received diagnoses: 33 by WES and 1 by staged WES then WGS. The cost of prior negative tests in the nonacute patients was $19,100 per family, suggesting sequencing to be cost-effective at up to $7640 per family. A change in clinical care or impression of the pathophysiology was reported in 49% of newly diagnosed families. If WES or WGS had been performed at symptom onset, genomic diagnoses may have been made 77 months earlier than occurred in this study. It is suggested that initial diagnostic evaluation of children with NDD should include trio WGS or WES, with extension of accelerated sequencing modalities to high-acuity patients.

Published

2014

16. CLPB variants associated with autosomal-recessive mitochondrial disorder with cataract, neutropenia, epilepsy, and methylglutaconic aciduria

Author

Neil A. Miller, Carol J Saunders, Laurie D. Smith, Mette Christensen, Emily G. Farrow, Flemming Wibrand, Stephen F. Kingsmore, Elsebet Ostergaard, Peter Bross, Andrea M. Atherton, Isabelle Thiffault, and Kirstine Ravn

Subjects

Male, Mitochondrial Diseases, Neutropenia, Greenland, Molecular Sequence Data, Mutation, Missense, Genes, Recessive, Biology, Cataract, Epilepsy, Fatal Outcome, Report, Genetics, medicine, Missense mutation, Humans, Genetics(clinical), Abnormalities, Multiple, Exome, Genetics (clinical), Exome sequencing, Movement Disorders, Base Sequence, Genetic heterogeneity, Infant, Newborn, Brain, Infant, Endopeptidase Clp, Sequence Analysis, DNA, Fibroblasts, Disease gene identification, medicine.disease, Liver, Codon, Nonsense, Child, Preschool, Female, Atrophy, CLPB, Metabolism, Inborn Errors

Abstract

3-methylglutaconic aciduria (3-MGA-uria) is a nonspecific finding associated with mitochondrial dysfunction, including defects of oxidative phosphorylation. 3-MGA-uria is classified into five groups, of which one, type IV, is genetically heterogeneous. Here we report five children with a form of type IV 3-MGA-uria characterized by cataracts, severe psychomotor regression during febrile episodes, epilepsy, neutropenia with frequent infections, and death in early childhood. Four of the individuals were of Greenlandic descent, and one was North American, of Northern European and Asian descent. Through a combination of homozygosity mapping in the Greenlandic individuals and exome sequencing in the North American, we identified biallelic variants in the caseinolytic peptidase B homolog (CLPB). The causative variants included one missense variant, c.803C>T (p.Thr268Met), and two nonsense variants, c.961A>T (p.Lys321(∗)) and c.1249C>T (p.Arg417(∗)). The level of CLPB protein was markedly decreased in fibroblasts and liver of affected individuals. CLPB is proposed to function as a mitochondrial chaperone involved in disaggregation of misfolded proteins, resulting from stress such as heat denaturation.

Published

2014

17. Fabry disease in infancy and early childhood: a systematic literature review

Author

Dawn Peck, Robert J. Hopkin, William R. Wilcox, Suma P. Shankar, Dawn Laney, Dorothy K. Grange, Katherine M. Christensen, Andrea M. Atherton, and Linda Manwaring

Subjects

Pediatrics, medicine.medical_specialty, Referral, Population, Disease, Biology, Neonatal Screening, Prenatal Diagnosis, medicine, Humans, Early childhood, education, Genetics (clinical), Retrospective Studies, Newborn screening, education.field_of_study, Age Factors, Infant, Newborn, Infant, Retrospective cohort study, medicine.disease, Fabry disease, Systematic review, Phenotype, Child, Preschool, Immunology, Fabry Disease

Abstract

Fabry disease is a pan-ethnic, progressive, X-linked genetic disorder that commonly presents in childhood and is caused by deficient activity of the lysosomal enzyme alpha-galactosidaseA (α-gal A). Symptoms of Fabry disease in the pediatric population are well described for patients over five years of age; however, data are limited for infancy and early childhood. The purpose of this article is to delineate the age of detection for specific Fabry symptoms in early childhood. A systematic retrospective analysis of PubMed indexed, peer-reviewed publications and case reports in the pediatric Fabry population was performed to review symptoms in patients reported before 5 years of age. The most frequently reported symptom in all age groups under 5 years was acroparesthesias/neuropathic pain, reported in 9 children, ranging in age from 2.0-4.0 years. Also notable is the frequency of gastrointestinal issues reported in 6 children aged 1.0-4.1 years of age. This article finds clear evidence that symptoms can occur in early childhood, before age 5 years. Given early presenting symptoms and the ability to monitor these disease hallmarks, a timely referral to a medical geneticist or other specialty clinician experienced in managing children with Fabry disease is strongly indicated. Genet Med 17 5, 323–330.

Published

2014

18. Newborn screening for Fabry disease: Is the A143T allele a pathogenic mutation or a pseudodeficiency allele?

Author

Robert J. Desnick, Dawn Peck, Kayla Smith, Bryce Heese, Marwan Shinawi, Jami Kiesling, Linda Manwaring, Andrea M. Atherton, Katherine M. Christensen, Esperanza Font-Montgomery, Dorothy K. Grange, Richard Hillman, and Dana Doheny

Subjects

Genetics, Newborn screening, Pathogenic mutation, business.industry, Endocrinology, Diabetes and Metabolism, medicine.disease, Biochemistry, Fabry disease, Endocrinology, Pseudodeficiency alleles, medicine, Allele, business, Molecular Biology

Published

2015

19. Examining the psychosocial impact of carrying the p.A143T variant in the GLA gene

Author

Dawn Laney, Sarah Macklin, Katherine M. Christensen, Dawn Peck, Andrea M. Atherton, and Linda Manwaring

Subjects

Genetics, Endocrinology, Gla gene, business.industry, Endocrinology, Diabetes and Metabolism, Medicine, business, Molecular Biology, Biochemistry, Psychosocial

Published

2016

20. Guidelines for the Diagnosis and Management of Infants with MPS I Identified through Newborn Screening

Author

Janet A. Thomas, Nancy D. Leslie, Barbara K. Burton, Joseph Muenzer, C. Ronald Scott, Lorne A. Clarke, Paige Kaplan, David W. Stockton, Debra L. Day-Salvatore, and Andrea M. Atherton

Subjects

03 medical and health sciences, Pediatrics, medicine.medical_specialty, Newborn screening, 0302 clinical medicine, business.industry, 030225 pediatrics, Pediatrics, Perinatology and Child Health, Medicine, 030212 general & internal medicine, business

Published

2016

21. Maternal serum screening and 22q11.2 deletion syndrome

Author

Holly H. Ardinger, Janda D. Buchholz, Molly M. Lund, Michael L. Begleiter, and Andrea M. Atherton

Subjects

business.industry, Estriol, Chromosomes, Human, Pair 22, Trisomy, Syndrome, Immunology, Genetics, Medicine, Humans, Deletion syndrome, Abnormalities, Multiple, Chorionic Gonadotropin, beta Subunit, Human, Female, Inhibins, alpha-Fetoproteins, Chromosome Deletion, business, Serum screening, Chromosomes, Human, Pair 18, Genetics (clinical), Biomarkers, In Situ Hybridization

Published

2007

22. Fabry disease: The α-galactosidase A (GLA) c.427G>A (A143T) mutation, effect of the 5′-10C>T polymorphism

Author

Dana Doheny, Brenden Chen, Senkottuvelan Kadirvel, Andrea M. Atherton, Asha Singh, Chunli Yu, Rachel Montel, Robert J. Desnick, Beom Hee Lee, and Irina Nazarenko

Subjects

business.industry, Endocrinology, Diabetes and Metabolism, Mutation effect, medicine.disease, Biochemistry, Fabry disease, Molecular biology, Endocrinology, α galactosidase a, Polymorphism (materials science), Genetics, Medicine, business, Molecular Biology

Published

2015

23. The first two years of full population pilot newborn screening for lysosomal disorders: The Missouri experience

Author

Andrea M. Atherton, Dawn Peck, Esperanza Font-Montgomery, Jami Kiesling, Kayla Smith, Marwan Shinawi, Bryce Heese, Katherine M. Christensen, Dorothy K. Grange, Stephen R. Braddock, Patrick V. Hopkins, Sharmini Rogers, Richard Hillman, and Linda Manwaring

Subjects

education.field_of_study, Newborn screening, Pediatrics, medicine.medical_specialty, business.industry, Endocrinology, Diabetes and Metabolism, Population, Biochemistry, Endocrinology, Genetics, medicine, education, business, Molecular Biology

Published

2015

24. Ashkenazi Jewish genetic disease carrier screening

Author

Lee Z Mays, Michael L. Begleiter, Andrea M. Atherton, Molly M. Lund, Meghan E Strenk, and Janda L Buchholz

Subjects

medicine.medical_specialty, education.field_of_study, business.industry, Population, Ethnic group, Genetic disease carrier, Disease, Mucolipidosis IV, Family medicine, medicine, Ashkenazi Jewish, business, Carrier screening, education, Genetics (clinical), Medical genetics of Jews

Abstract

To the Editor: We read with interest and much concern the recent recommendation of the College regarding carrier screening in individuals of Ashkenazi Jewish (AJ) descent (Genet Med 2008;10: 54 –56). Specifically, we felt that Recommendation 4, “if only one member of a couple is of AJ background, testing should still be offered,” is quite problematic. As stated in the Guidelines, the cumulative probability of being a carrier for one of the conditions in the panel is between 20 and 25%. One in 4 or 1 in 5 couples where only one member is of AJ descent will be identified as at increased risk to have an affected child and offered testing for that specific condition for the non-AJ partner. The screening of the non-AJ partner for the mutations that occur in the AJ population is an exercise in unknown probabilities (Table 1). Since the frequency of those mutations that occur more often in the AJ population is unknown in non-AJ populations, there is no way to revise a couple’s risk after screening the non-AJ member for the AJ mutations. Counseling a couple that the non-AJ member does not carry any of the AJ mutations does not provide much solace (or information) regarding their risk for a child with one of the AJ genetic conditions. In the case of cystic fibrosis (where gene frequencies are known in various populations) and in the case of Tay-Sachs disease (where enzyme analysis is informative regardless of ethnicity) the Practice Guidelines do provide useful information that would aid a family in their decision-making process. Even without testing the non-AJ member, counselors can be reassuring to those couples where the AJ member is a carrier for Dysautonomia, Bloom syndrome, or Mucolipidosis IV, as these conditions are either extremely rare or unreported in non-AJ populations. So the question remaining (with the exception of cystic fibrosis and Tay-Sachs screening) is what do we accomplish by the implementation of these Guidelines in couples where only one member is of AJ descent? Michael L. Begleiter, MS, CGC Janda L. Buchholz, MS, CGC Andrea M. Atherton, MS, CGC Lee Z. Mays, MS, CGC Molly M. Lund, MS, CGC Meghan E. Strenk, MS Genetics, Dysmorphology and Metabolism, The Children’s Mercy Hospitals & Clinics, Kansas City, Missouri, The University of Missouri-Kansas City, School of Medicine, Kansas City, Missouri

Published

2008