Your search keyword '"Kimiyo Raymond"' showing total 124 results

1. Congenital disorder of glycosylation caused by starting site-specific variant in syntaxin-5

Author

Peter T. A. Linders, Eveline C. F. Gerretsen, Angel Ashikov, Mari-Anne Vals, Rinse de Boer, Natalia H. Revelo, Richard Arts, Melissa Baerenfaenger, Fokje Zijlstra, Karin Huijben, Kimiyo Raymond, Kai Muru, Olga Fjodorova, Sander Pajusalu, Katrin Õunap, Martin ter Beest, Dirk Lefeber, and Geert van den Bogaart

Subjects

Science

Abstract

Mutations in genes critical for proper intra-Golgi transport can cause human syndromes due to defects in glycosylation of proteins. Here, the authors identify a human variant of Syntaxin-5 that causes fatal multisystem disease and mislocalization of glycosyltransferases due to altered Golgi transport.

Published

2021

2. The low excretor phenotype of glutaric acidemia type I is a source of false negative newborn screening results and challenging diagnoses

Author

Adam J. Guenzel, Patricia L. Hall, Anna I. Scott, Christina Lam, Irene J. Chang, Jenny Thies, Carlos R. Ferreira, Pavel Pichurin, William Laxen, Kimiyo Raymond, Dimitar K. Gavrilov, Devin Oglesbee, Piero Rinaldo, Dietrich Matern, and Silvia Tortorelli

Subjects

glutaric acidemia, glutarylcarnitine, glutaryl‐CoA dehydrogenase, low excretor, newborn screening, Diseases of the endocrine glands. Clinical endocrinology, RC648-665, Genetics, QH426-470

Abstract

Abstract Background Glutaric acidemia type I (GA1) is an organic acidemia that is often unrecognized in the newborn period until patients suffer an acute encephalopathic crisis, which can be mistaken for nonaccidental trauma. Presymptomatic identification of GA1 patients is possible by newborn screening (NBS). However, the biochemical “low‐excretor” (LE) phenotype with nearly normal levels of disease metabolites can be overlooked, which may result in untreated disease and irreversible neurological sequelae. The LE phenotype is also a potential source of false negative (FN) NBS results that merits further investigation. Methods Samples from six LE GA1 patients were analyzed by biochemical and molecular methods and newborn screen outcomes were retrospectively investigated. Results Five LE GA1 patients were identified that had normal NBS results and three of these presented clinically with GA1 symptoms. One additional symptomatic patient was identified who did not undergo screening. Semiquantitative urine organic acid analysis was consistent with a GA1 diagnosis in two (33%) of the six patients, while plasma glutarylcarnitine was elevated in four (67%) of the six and urine glutarylcarnitine was elevated in four (80%) of five patients. Five GCDH variants were identified in these patients; three of which have not been previously linked to the biochemical LE phenotype. Conclusions The data presented here raise awareness of potential FN NBS results for LE GA1 patients. The LE phenotype is not protective against adverse clinical outcomes, and the possibility of FN NBS results calls for high vigilance amongst clinicians, even in the setting of a normal NBS result.

Published

2021

3. Familial variability of cerebrotendinous xanthomatosis lacking typical biochemical findings

Author

Adam J. Guenzel, Andrea DeBarber, Kimiyo Raymond, and Radhika Dhamija

Subjects

cerebrotendinous xanthomatosis (CTX), cholestanol, genotype‐phenotype correlation, spinal xanthomatosis, sterols, xanthomas, Diseases of the endocrine glands. Clinical endocrinology, RC648-665, Genetics, QH426-470

Abstract

Abstract Cerebrotendinous xanthomatosis (CTX) is a rare autosomal recessive disorder of bile acid synthesis caused by pathogenic variants in the CYP27A1 gene encoding the mitochondrial enzyme sterol 27‐hydroxylase. Patients with CTX can present with a wide range of symptoms, but most often have evidence of tendon xanthomas along with possible cataracts, atherosclerosis, or neurological dysfunction. Regardless of clinical phenotype, CTX patients typically exhibit levels of cholestanol and bile acid precursors in the circulation that are many fold increased over normal control concentrations. Here we report two siblings, one with the rare spinal xanthomatosis phenotype and the other with a very mild form of CTX manifesting as minor tendon xanthomatosis and gastrointestinal complaints who both carry compound heterozygous variants in CYP27A1: NM_000784.3: c.410G > A (p.Arg137Gln) and c.1183C > T (p.Arg395Cys). However, biochemical analysis of these patients revealed normal levels of serum cholestanol and relatively mild elevations of the bile acid precursors 7α‐hydroxy‐4‐cholesten‐3‐one and 7α,12α‐dihydroxy‐4‐cholesten‐3‐one. The atypical biochemical presentation of these cases represents a diagnostic challenge for a disorder once thought to have a sensitive biomarker in cholestanol and highlight the need for thorough investigation of patients with symptomatology consistent with CTX that includes bile acid precursor biochemical testing and molecular analysis.

Published

2021

4. Liver manifestations in a cohort of 39 patients with congenital disorders of glycosylation: pin-pointing the characteristics of liver injury and proposing recommendations for follow-up

Author

Rodrigo Tzovenos Starosta, Suzanne Boyer, Shawn Tahata, Kimiyo Raymond, Hee Eun Lee, Lynne A. Wolfe, Christina Lam, Andrew C. Edmondson, Ida Vanessa Doederlein Schwartz, and Eva Morava

Subjects

CDG, Liver injury, Phosphomannomutase-2, Liver fibrosis, Cirrhosis, Phenotyping, Medicine

Abstract

Abstract Background The congenital disorders of glycosylation (CDG) are a heterogeneous group of rare metabolic diseases with multi-system involvement. The liver phenotype of CDG varies not only according to the specific disorder, but also from patient to patient. In this study, we sought to identify common patterns of liver injury among patients with a broad spectrum of CDG, and to provide recommendations for follow-up in clinical practice. Methods Patients were enrolled in the Frontiers in Congenital Disorders of Glycosylation natural history study. We analyzed clinical history, molecular genetics, serum markers of liver injury, liver ultrasonography and transient elastography, liver histopathology (when available), and clinical scores of 39 patients with 16 different CDG types (PMM2-CDG, n = 19), with a median age of 7 years (range: 10 months to 65 years). For patients with disorders which are treatable by specific interventions, we have added a description of liver parameters on treatment. Results Our principal findings are (1) there is a clear pattern in the evolution of the hepatocellular injury markers alanine aminotransferase and aspartate aminotransferase according to age, especially in PMM2-CDG patients but also in other CDG-I, and that the cholangiocellular injury marker gamma-glutamyltransferase is not elevated in most patients, pointing to an exclusive hepatocellular origin of injury; (2) there is a dissociation between liver ultrasound and transient elastography regarding signs of liver fibrosis; (3) histopathological findings in liver tissue of PMM2-CDG patients include cytoplasmic glycogen deposits; and (4) most CDG types show more than one type of liver injury. Conclusions Based on these findings, we recommend that all CDG patients have regular systematic, comprehensive screening for liver disease, including physical examination (for hepatomegaly and signs of liver failure), laboratory tests (serum alanine aminotransferase and aspartate aminotransferase), liver ultrasound (for steatosis and liver tumors), and liver elastography (for fibrosis).

Published

2021

5. NGLY1 Deficiency: A Rare Newly Described Condition with a Typical Presentation

Author

Ivana Dabaj, Bénédicte Sudrié-Arnaud, François Lecoquierre, Kimiyo Raymond, Franklin Ducatez, Anne-Marie Guerrot, Sarah Snanoudj, Sophie Coutant, Pascale Saugier-Veber, Stéphane Marret, Gaël Nicolas, Abdellah Tebani, and Soumeya Bekri

Subjects

NGLY1-CDDG, NGLY1, congenital disorder of deglycosylation, hypolacrimia, alacrimia, movement disorder, Science

Abstract

NGLY1 deficiency is the first recognized autosomal recessive disorder of N-linked deglycosylation (NGLY1-CDDG). This severe multisystemic disease is still poorly known and, to date, most cases have been diagnosed through whole exome or genome sequencing. The aim of this study is to provide the clinical, biochemical and molecular description of the first NGLY1-CDDG patient from France along with a literature review. The index case presented with developmental delay, acquired microcephaly, hypotonia, alacrimia, feeding difficulty, and dysmorphic features. Given the complex clinical picture and the multisystemic involvement, a trio-based exome sequencing was conducted and urine oligosaccharides were assessed using mass spectrometry. The exome sequencing revealed a novel variant in the NGLY1 gene in a homozygous state. NGLY1 deficiency was confirmed by the identification of the Neu5Ac1Hex1GlcNAc1-Asn oligosaccharide in the urine of the patient. Literature review revealed the association of some key clinical and biological features such as global developmental delay—hypertransaminasemia, movement disorders, feeding difficulties and alacrima/hypolacrima.

Published

2021

6. ATP6AP1 deficiency causes an immunodeficiency with hepatopathy, cognitive impairment and abnormal protein glycosylation

Author

Eric J. R. Jansen, Sharita Timal, Margret Ryan, Angel Ashikov, Monique van Scherpenzeel, Laurie A. Graham, Hanna Mandel, Alexander Hoischen, Theodore C. Iancu, Kimiyo Raymond, Gerry Steenbergen, Christian Gilissen, Karin Huijben, Nick H. M. van Bakel, Yusuke Maeda, Richard J. Rodenburg, Maciej Adamowicz, Ellen Crushell, Hans Koenen, Darius Adams, Julia Vodopiutz, Susanne Greber-Platzer, Thomas Müller, Gregor Dueckers, Eva Morava, Jolanta Sykut-Cegielska, Gerard J. M. Martens, Ron A. Wevers, Tim Niehues, Martijn A. Huynen, Joris A. Veltman, Tom H. Stevens, and Dirk J. Lefeber

Subjects

Science

Abstract

Here, Dirk Lefeber and colleagues identify functional mutations in ATP6AP1 encoding Ac45. The authors show that Ac45 is the functional ortholog of yeast V-ATPase assembly factor Voa1 and provide evidence for tissue-specific Ac45 processing, associated with the clinical phenotype of immunodeficiency, hepatopathy, and neurocognitive abnormalities.

Published

2016

7. The Combined Impact of CLIR Post-Analytical Tools and Second Tier Testing on the Performance of Newborn Screening for Disorders of Propionate, Methionine, and Cobalamin Metabolism

Author

Dimitar K. Gavrilov, Amy L. Piazza, Gisele Pino, Coleman Turgeon, Dietrich Matern, Devin Oglesbee, Kimiyo Raymond, Silvia Tortorelli, and Piero Rinaldo

Subjects

Collaborative Laboratory Integrated Reports (CLIR), false positive rate, newborn screening (NBS), second tier test (2TT), Pediatrics, RJ1-570

Abstract

The expansion of the recommend uniform screening panel to include more than 50 primary and secondary target conditions has resulted in a substantial increase of false positive results. As an alternative to subjective manipulation of cutoff values and overutilization of molecular testing, here we describe the performance outcome of an algorithm for disorders of methionine, cobalamin, and propionate metabolism that includes: (1) first tier screening inclusive of the broadest available spectrum of markers measured by tandem mass spectrometry; (2) integration of all results into a score of likelihood of disease for each target condition calculated by post-analytical interpretive tools created byCollaborative Laboratory Integrated Reports (CLIR), a multivariate pattern recognition software; and (3) further evaluation of abnormal scores by a second tier test measuring homocysteine, methylmalonic acid, and methylcitric acid. This approach can consistently reduce false positive rates to a

Published

2020

8. Incorporation of Second-Tier Biomarker Testing Improves the Specificity of Newborn Screening for Mucopolysaccharidosis Type I

Author

Dawn S. Peck, Jean M. Lacey, Amy L. White, Gisele Pino, April L. Studinski, Rachel Fisher, Ayesha Ahmad, Linda Spencer, Sarah Viall, Natalie Shallow, Amy Siemon, J. Austin Hamm, Brianna K. Murray, Kelly L. Jones, Dimitar Gavrilov, Devin Oglesbee, Kimiyo Raymond, Dietrich Matern, Piero Rinaldo, and Silvia Tortorelli

Subjects

newborn screening, mps i, second-tier testing, gags, biomarkers, postanalytical interpretation, Pediatrics, RJ1-570

Abstract

Enzyme-based newborn screening for Mucopolysaccharidosis type I (MPS I) has a high false-positive rate due to the prevalence of pseudodeficiency alleles, often resulting in unnecessary and costly follow up. The glycosaminoglycans (GAGs), dermatan sulfate (DS) and heparan sulfate (HS) are both substrates for α-l-iduronidase (IDUA). These GAGs are elevated in patients with MPS I and have been shown to be promising biomarkers for both primary and second-tier testing. Since February 2016, we have measured DS and HS in 1213 specimens submitted on infants at risk for MPS I based on newborn screening. Molecular correlation was available for 157 of the tested cases. Samples from infants with MPS I confirmed by IDUA molecular analysis all had significantly elevated levels of DS and HS compared to those with confirmed pseudodeficiency and/or heterozygosity. Analysis of our testing population and correlation with molecular results identified few discrepant outcomes and uncovered no evidence of false-negative cases. We have demonstrated that blood spot GAGs analysis accurately discriminates between patients with confirmed MPS I and false-positive cases due to pseudodeficiency or heterozygosity and increases the specificity of newborn screening for MPS I.

Published

2020

9. Contributors

Author

Gathi, Abraham, primary, Sun-Young, Ahn, additional, Rasheda, Amin, additional, Anne L., Angiolillo, additional, Rami A., Ballout, additional, Khadija, Belhassan, additional, Michael J., Bennett, additional, Julie, Berg, additional, Ajay, Bhatia, additional, Janetta, Bryksin, additional, Carlos, Castillo-Pinto, additional, Amaziah, Coleman, additional, Ferdinand, Coste, additional, Jeffrey G., Dawson, additional, Edgard E., Delvin, additional, Yaser, Diab, additional, Dennis J., Dietzen, additional, Marc T., DiSabella, additional, Andrew C., Edmondson, additional, Michael, Edzards, additional, Thomas, Ferkol, additional, Gabriela (Paula), Finkielstain, additional, Mary E., Fournier, additional, Andrea, Gaedigk, additional, Uttam, Garg, additional, Sarah K., Garwood, additional, Emily L., Gill, additional, Jorge L., Granadillo, additional, Michael F., Guerrera, additional, Shannon, Haymond, additional, Paul S., Hiers, additional, Alyssa, James, additional, Janis M., Stoll, additional, Jill D., Jacobson, additional, Andrew, Janowski, additional, Smita, Jha, additional, Patricia M., Jones, additional, Jami L., Josefson, additional, Randall K., Julian, additional, Lawrence, Jung, additional, Sakil, Kulkarni, additional, Finza, Latif, additional, Courtney, Lawrence, additional, Van, Leung-Pineda, additional, Fabien, Magne, additional, Stephen R., Master, additional, Emily Riehm, Meier, additional, Deborah, Merke, additional, Asha, Moudgil, additional, Khushbu, Patel, additional, Wendy M., Paul, additional, Rowena, Punzalan, additional, Scott, Raskin, additional, Kimiyo, Raymond, additional, Alan T., Remaley, additional, Mary, Revenis, additional, Adelaide, Robb, additional, Stephen M., Roper, additional, Blachy J. Dávila, Saldaña, additional, Maryam, Salehi, additional, Tracy L., Sandritter, additional, Hemant, Sharma, additional, Troy, Tenney, additional, Silvia, Tortorelli, additional, Akshaya, Vachharajani, additional, Guy, Van Vliet, additional, Amy L., White, additional, William E., Winter, additional, and Edward C.C., Wong, additional

Published

2021

10. Defining the mild variant of leukocyte adhesion deficiency type <scp>II</scp> ( <scp>SLC35C1</scp> ‐congenital disorder of glycosylation) and response to <scp>l</scp> ‐fucose therapy: Insights from two new families and review of the literature

Author

Shawn Tahata, Kimiyo Raymond, Marie Quade, Sara Barnes, Suzanne Boyer, Stacy League, Attila Kumanovics, Roshini Abraham, Eapen Jacob, Prem Menon, and Eva Morava

Subjects

Genetics, Genetics (clinical)

Published

2022

11. Sorbitol Is a Severity Biomarker for <scp>PMM2‐CDG</scp> with Therapeutic Implications

Author

Kimiyo Raymond, William Brucker, Anna N. Ligezka, Austin Larson, David Cassiman, Devin Oglesbee, Tamas Kozicz, Kishore Garapati, Renee M. McGovern, Ethan O. Perlstein, Wasantha Ranatunga, Christina Lam, Silvia Radenkovic, Mayank Saraswat, Joel M. Reid, Graeme Preston, Karthik Muthusamy, Christin Johnsen, Andrew C. Edmondson, Wirginia Krzysciak, Bart Ghesquière, Eva Morava, Saadet Mercimek-Andrews, Hitoshi Yanaihara, Akhilesh Pandey, and Peter Witters

Subjects

Adult, Male, congenital, hereditary, and neonatal diseases and abnormalities, Glycosylation, Diabetic neuropathy, Adolescent, Rhodanine, Urinary system, Pharmacology, Article, Young Adult, chemistry.chemical_compound, Congenital Disorders of Glycosylation, sorbitol, Humans, Sorbitol, Medicine, Enzyme Inhibitors, Child, Epalrestat, Aged, therapy, PMM, business.industry, Patient Acuity, Infant, Middle Aged, Prognosis, medicine.disease, Aldose reductase inhibitor, Glycoproteomics, Peripheral neuropathy, Neurology, chemistry, Phosphotransferases (Phosphomutases), Child, Preschool, Thiazolidines, Biomarker (medicine), Female, Neurology (clinical), business, glycosylation, CDG, Biomarkers, medicine.drug

Abstract

OBJECTIVE: Epalrestat, an aldose reductase inhibitor increases phosphomannomutase (PMM) enzyme activity in a PMM2-congenital disorders of glycosylation (CDG) worm model. Epalrestat also decreases sorbitol level in diabetic neuropathy. We evaluated the genetic, biochemical, and clinical characteristics, including the Nijmegen Progression CDG Rating Scale (NPCRS), urine polyol levels and fibroblast glycoproteomics in patients with PMM2-CDG. METHODS: We performed PMM enzyme measurements, multiplexed proteomics, and glycoproteomics in PMM2-deficient fibroblasts before and after epalrestat treatment. Safety and efficacy of 0.8 mg/kg/day oral epalrestat were studied in a child with PMM2-CDG for 12 months. RESULTS: PMM enzyme activity increased post-epalrestat treatment. Compared with controls, 24% of glycopeptides had reduced abundance in PMM2-deficient fibroblasts, 46% of which improved upon treatment. Total protein N-glycosylation improved upon epalrestat treatment bringing overall glycosylation toward the control fibroblasts' glycosylation profile. Sorbitol levels were increased in the urine of 74% of patients with PMM2-CDG and correlated with the presence of peripheral neuropathy, and CDG severity rating scale. In the child with PMM2-CDG on epalrestat treatment, ataxia scores improved together with significant growth improvement. Urinary sorbitol levels nearly normalized in 3 months and blood transferrin glycosylation normalized in 6 months. INTERPRETATION: Epalrestat improved PMM enzyme activity, N-glycosylation, and glycosylation biomarkers in vitro. Leveraging cellular glycoproteome assessment, we provided a systems-level view of treatment efficacy and discovered potential novel biosignatures of therapy response. Epalrestat was well-tolerated and led to significant clinical improvements in the first pediatric patient with PMM2-CDG treated with epalrestat. We also propose urinary sorbitol as a novel biomarker for disease severity and treatment response in future clinical trials in PMM2-CDG. ANN NEUROL 20219999:n/a-n/a. ispartof: ANNALS OF NEUROLOGY vol:90 issue:6 pages:887-900 ispartof: location:United States status: published

Published

2021

12. Expanding the phenotype, genotype and biochemical knowledge of <scp>ALG3‐CDG</scp>

Author

Eissa Faqeih, Jennifer Friedman, Hudson H. Freeze, Kierstin N Keller, Miao He, Earnest James Paul Daniel, Jie Chen, Hind Alsharhan, Eniko K. Pivnick, Christina Lam, Nicole Engelhardt, Amal Alhashem, Michael J. Bamshad, Deborah A. Nickerson, Pengfei Liu, Kimiyo Raymond, Pamela A Mazzeo, Jill A. Rosenfeld, Bobby G. Ng, and Andrew C. Edmondson

Subjects

Adult, Male, congenital, hereditary, and neonatal diseases and abnormalities, Glycan, Microcephaly, Adolescent, Genotype, Bioinformatics, Mannosyltransferases, Article, Young Adult, Epilepsy, Congenital Disorders of Glycosylation, Genetics, medicine, Humans, Endocrine system, Genetics (clinical), Immunodeficiency, biology, Neural tube defect, business.industry, Infant, Newborn, Neural tube, Infant, medicine.disease, Hypotonia, carbohydrates (lipids), Phenotype, medicine.anatomical_structure, Child, Preschool, biology.protein, Female, medicine.symptom, business

Abstract

Congenital disorders of glycosylation (CDGs) are a continuously expanding group of monogenic disorders of glycoprotein and glycolipid biosynthesis that cause multisystem diseases. Individuals with ALG3-CDG frequently exhibit severe neurological involvement (epilepsy, microcephaly, and hypotonia), ocular anomalies, dysmorphic features, skeletal anomalies, and feeding difficulties. We present 10 unreported individuals diagnosed with ALG3-CDG based on molecular and biochemical testing with 11 novel variants in ALG3, bringing the total to 40 reported individuals. In addition to the typical multisystem disease seen in ALG3-CDG, we expand the symptomatology of ALG3-CDG to now include endocrine abnormalities, neural tube defects, mild aortic root dilatation, immunodeficiency, and renal anomalies. N-glycan analyses of these individuals showed combined deficiencies of hybrid glycans and glycan extension beyond Man(5)GlcNAc(2) consistent with their truncated lipid-linked precursor oligosaccharides. This spectrum of N-glycan changes is unique to ALG3-CDG. These expanded features of ALG3-CDG facilitate diagnosis and suggest that optimal management should include baseline endocrine, renal, cardiac, and immunological evaluation at the time of diagnosis and with ongoing monitoring.

Published

2021

13. Immune dysfunction in <scp>MGAT2‐CDG</scp> : A clinical report and review of the literature

Author

Anita E. Beck, Piero Rinaldo, Sheri A. Poskanzer, Matthew J. Schultz, Christina Lam, Kris Liedtke, Silvia Tortorelli, James T. Bennett, Irene J. Chang, Jenny Thies, Noemi Vidal-Folch, Eric J. Allenspach, Coleman T. Turgeon, Devin Oglesbee, Kimiyo Raymond, Dimitar Gavrilov, and Dietrich Matern

Subjects

0301 basic medicine, congenital, hereditary, and neonatal diseases and abnormalities, Glycosylation, business.industry, Lymphocyte, 030105 genetics & heredity, medicine.disease, Article, Hypotonia, Hypogammaglobulinemia, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, medicine.anatomical_structure, Immune system, chemistry, Antigen, Immunology, Genetics, medicine, medicine.symptom, business, Congenital disorder of glycosylation, Genetics (clinical), Immunodeficiency

Abstract

Glycosylation is a critical post/peri-translational modification required for the appropriate development and function of the immune system. As an example, abnormalities in glycosylation can cause antibody deficiency and reduced lymphocyte signaling, although the phenotype can be complex given the diverse roles of glycosylation. Human MGAT2 encodes N-acetylglucosaminyltransferase II, which is a critical enzyme in the processing of oligomannose to complex N-glycans. Complex N-glycans are essential for immune system functionality, but only one individual with MGAT2-CDG has been described to have an abnormal immunologic evaluation. MGAT2-CDG (CDG-IIa) is a congenital disorder of glycosylation (CDG) associated with profound global developmental disability, hypotonia, early onset epilepsy, and other multisystem manifestations. Here, we report a 4-year old female with MGAT2-CDG due to a novel homozygous pathogenic variant in MGAT2, a 4-base pair deletion, c.1006_1009delGACA. In addition to clinical features previously described in MGAT2-CDG, she experienced episodic asystole, persistent hypogammaglobulinemia, and defective ex vivo mitogen and antigen proliferative responses, but intact specific vaccine antibody titers. Her infection history has been mild despite the testing abnormalities. We compare this patient to the 15 previously reported patients in the literature, thus expanding both the genotypic and phenotypic spectrum for MGAT2-CDG.

Published

2020

14. Laboratory monitoring of patients with hereditary tyrosinemia type I

Author

Rani H. Singh, Matthew J. Schultz, Gisele Pino, Piero Rinaldo, Brian C. Netzel, Kimiyo Raymond, Silvia Tortorelli, Devin Oglesbee, Dietrich Matern, Wendy E. Smith, and Dimitar Gavrilov

Subjects

Adult, Male, 0301 basic medicine, Analyte, Adolescent, Nitisinone, Endocrinology, Diabetes and Metabolism, 030105 genetics & heredity, Biochemistry, Specimen Handling, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Liquid chromatography–mass spectrometry, Genetics, medicine, Humans, Amino Acids, Child, Molecular Biology, Aged, Aged, 80 and over, Newborn screening, Chromatography, Cyclohexanones, Tyrosinemias, business.industry, Selected reaction monitoring, Infant, Newborn, Infant, Middle Aged, Reference Standards, Prognosis, Heptanoates, Hereditary tyrosinemia, Specimen collection, Succinylacetone, Case-Control Studies, Child, Preschool, Nitrobenzoates, Female, Laboratories, business, Biomarkers, 030217 neurology & neurosurgery, Follow-Up Studies, medicine.drug

Abstract

Background The prognosis of patients with Hereditary Tyrosinemia Type 1 (HT-1) has greatly improved with early detection through newborn screening and the introduction of nitisinone (NTBC) therapy. A recent guideline calls for periodic monitoring of biochemical markers and NTBC levels to tailor treatment; however, this is currently only achieved through a combination of clinical laboratory tests. We developed a multiplexed assay measuring relevant amino acids, succinylacetone (SUAC), and NTBC in dried blood spots (DBS) to facilitate treatment monitoring. Methods Tyrosine, phenylalanine, methionine, NTBC and SUAC were eluted from DBS with methanol containing internal standards for each analyte and analyzed by liquid chromatography tandem mass spectrometry over 6.5 min in the multiple reaction monitoring positive mode. Results Pre-analytical and analytical factors were studied and demonstrated a reliable assay. Chromatography resolved an unknown substance that falsely elevates SUAC concentrations and was present in all samples. To establish control and disease ranges, the method was applied to DBS collected from controls (n = 284) and affected patients before (n = 2) and after initiation of treatment (n = 29). In the treated patients SUAC concentrations were within the normal range over a wide range of NTBC levels. Conclusions This assay enables combined, accurate measurement of revelevant metabolites and NTBC in order to simplify treatment monitoring of patients with HT-1. In addition, the use of DBS allows for specimen collection at home to facilitate more standardization in relation to drug and dietary treatment.

Published

2020

15. The critical role of psychosine in screening, diagnosis, and monitoring of Krabbe disease

Author

Joanne Kurtzberg, Vinod K. Prasad, Adam J. Guenzel, Coleman T. Turgeon, Joan E. Pellegrino, Gisele Pino, Kimiyo Raymond, Amy L. White, Maria L. Escolar, Rachel Hickey, Devin Oglesbee, Dawn Peck, Piero Rinaldo, Ai Sakonju, Margie A. Ream, Silvia Tortorelli, Joseph J. Orsini, Natalie M. Shallow, April Studinski, Michael H. Gelb, Dimitar Gavrilov, Kim K. Nickander, Maria Laura Duque Lasio, and Dietrich Matern

Subjects

0301 basic medicine, Newborn screening, business.industry, Galactocerebrosidase, Infant, Newborn, Psychosine, Disease, 030105 genetics & heredity, medicine.disease, Leukodystrophy, Globoid Cell, Dried blood spot, 03 medical and health sciences, Neonatal Screening, 030104 developmental biology, Pseudodeficiency alleles, Immunology, Krabbe disease, Humans, Medicine, Biomarker (medicine), Dried Blood Spot Testing, business, Genetics (clinical), Galactosylceramidase

Abstract

Newborn screening (NBS) for Krabbe disease (KD) is performed by measurement of galactocerebrosidase (GALC) activity as the primary test. This revealed that GALC activity has poor specificity for KD. Psychosine (PSY) was proposed as a disease marker useful to reduce the false positive rate for NBS and for disease monitoring. We report a highly sensitive PSY assay that allows identification of KD patients with minimal PSY elevations. PSY was extracted from dried blood spots or erythrocytes with methanol containing d5-PSY as internal standard, and measured by liquid chromatography–tandem mass spectrometry. Analysis of PSY in samples from controls (N = 209), GALC pseudodeficiency carriers (N = 55), GALC pathogenic variant carriers (N = 27), patients with infantile KD (N = 26), and patients with late-onset KD (N = 11) allowed for the development of an effective laboratory screening and diagnostic algorithm. Additional longitudinal measurements were used to track therapeutic efficacy of hematopoietic stem cell transplantion (HSCT). This study supports PSY quantitation as a critical component of NBS for KD. It helps to differentiate infantile from later onset KD variants, as well as from GALC variant and pseudodeficiency carriers. Additionally, this study provides further data that PSY measurement can be useful to monitor KD progression before and after treatment.

Published

2020

16. Multiplex testing for the screening of lysosomal storage disease in urine: Sulfatides and glycosaminoglycan profiles in 40 cases of sulfatiduria

Author

Dietrich Matern, Kimiyo Raymond, Kim K. Nickander, Devin Oglesbee, Piero Rinaldo, Jean M. Lacey, April Studinski, Silvia Tortorelli, Amy M White, Maira Burin, Gisele Pino, Erin Conboy, Sara Minnich, Roberto Giugliani, Dimitar Gavrilov, and Dawn Peck

Subjects

Adult, Male, 0301 basic medicine, Adolescent, Endocrinology, Diabetes and Metabolism, Urine, 030105 genetics & heredity, Tandem mass spectrometry, Mass spectrometry, Biochemistry, Glycosaminoglycan, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Mucolipidoses, Tandem Mass Spectrometry, Multiple sulfatase deficiency, Genetics, medicine, Lysosomal storage disease, Humans, Multiplex, Child, Molecular Biology, Glycosaminoglycans, Retrospective Studies, Sulfoglycosphingolipids, Chemistry, Infant, Middle Aged, medicine.disease, High-Throughput Screening Assays, Lysosomal Storage Diseases, Child, Preschool, Female, Differential diagnosis, Algorithms, Biomarkers, 030217 neurology & neurosurgery, Chromatography, Liquid

Abstract

Purpose To describe an efficient and effective multiplex screening strategy for sulfatide degradation disorders and mucolipidosis type II/III (MLII/III) using 3 mL of urine. Methods Glycosaminoglycans were analyzed by liquid chromatography-tandem mass spectrometry. Matrix assisted laser desorption/ionization-time of flight tandem mass spectrometry was used to identify free oligosaccharides and identify 22 ceramide trihexosides and 23 sulfatides, which are integrated by 670 calculated ratios. Collaborative Laboratory Integrated Reports (CLIR; https://clir.mayo.edu ) was used for post-analytical interpretation of the complex metabolite profile and to aid in the differential diagnosis of abnormal results. Results Multiplex analysis was performed on 25 sulfatiduria case samples and compiled with retrospective data from an additional 15 cases revealing unique patterns of biomarkers for each disorder of sulfatide degradation (MLD, MSD, and Saposin B deficiency) and for MLII/III, thus allowing the formulation of a novel algorithm for the biochemical diagnosis of these disorders. Conclusions Comprehensive and integrated urine screening could be very effective in the initial workup of patients suspected of having a lysosomal disorder as it covers disorders of sulfatide degradation and narrows down the differential diagnosis in patients with elevated glycosaminoglycans.

Published

2020

17. Mutations in the V-ATPase Assembly Factor VMA21 Cause a Congenital Disorder of Glycosylation With Autophagic Liver Disease

Author

Elzbieta Czarnowska, Magda Cannata Serio, Pavel Pichurin, Sharita Timal, Jos C. Jansen, Hannu Kalimo, Adriaan G. Holleboom, Can Ficicioglu, Margret Ryan, Johan W. Jonker, Richard J. Rodenburg, Linda Hasadsri, Angel Ashikov, Christian Gilissen, Miao He, W. Alfredo Ríos-Ocampo, Matias Simons, Lars E. Larsen, Dirk Lefeber, Berge A. Minassian, Alessandra Rugierri, Joris A. Veltman, Tom H. Stevens, Gwenn Le Meur, Eva Morava, Piotr Socha, Kimiyo Raymond, Laurie A. Graham, Vascular Medicine, ACS - Diabetes & metabolism, AGEM - Amsterdam Gastroenterology Endocrinology Metabolism, Faculteit Medische Wetenschappen/UMCG, Medicum, Department of Pathology, University of Helsinki, and HUS Helsinki and Uusimaa Hospital District

Subjects

Male, 0301 basic medicine, Biopsy, DNA Mutational Analysis, chemistry.chemical_compound, Steatohepatitis/Metabolic Liver Disease, Congenital Disorders of Glycosylation, 0302 clinical medicine, Lipid droplet, Nonalcoholic fatty liver disease, Cells, Cultured, Chemistry, Liver Diseases, CHOLESTEROL, Metabolic Disorders Radboud Institute for Molecular Life Sciences [Radboudumc 6], Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], Pedigree, 3. Good health, Cell biology, DEFICIENCY, Liver, 030211 gastroenterology & hepatology, Original Article, Erratum, ENZYMES, Adult, Vacuolar Proton-Translocating ATPases, X-LINKED MYOPATHY, Primary Cell Culture, Mutation, Missense, ENDOPLASMIC-RETICULUM, Abnormal protein glycosylation, 03 medical and health sciences, All institutes and research themes of the Radboud University Medical Center, Autophagy, medicine, Humans, VACUOLAR MEMBRANE, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Hepatology, Cholesterol, Endoplasmic reticulum, Original Articles, Fibroblasts, medicine.disease, TRANSPORT, 030104 developmental biology, 3121 General medicine, internal medicine and other clinical medicine, Unfolded protein response, Steatosis, Congenital disorder of glycosylation, GOLGI HOMEOSTASIS

Abstract

Background and Aims Vacuolar H+-ATP complex (V-ATPase) is a multisubunit protein complex required for acidification of intracellular compartments. At least five different factors are known to be essential for its assembly in the endoplasmic reticulum (ER). Genetic defects in four of these V-ATPase assembly factors show overlapping clinical features, including steatotic liver disease and mild hypercholesterolemia. An exception is the assembly factor vacuolar ATPase assembly integral membrane protein (VMA21), whose X-linked mutations lead to autophagic myopathy.Approach and Results Here, we report pathogenic variants in VMA21 in male patients with abnormal protein glycosylation that result in mild cholestasis, chronic elevation of aminotransferases, elevation of (low-density lipoprotein) cholesterol and steatosis in hepatocytes. We also show that the VMA21 variants lead to V-ATPase misassembly and dysfunction. As a consequence, lysosomal acidification and degradation of phagocytosed materials are impaired, causing lipid droplet (LD) accumulation in autolysosomes. Moreover, VMA21 deficiency triggers ER stress and sequestration of unesterified cholesterol in lysosomes, thereby activating the sterol response element-binding protein-mediated cholesterol synthesis pathways.Conclusions Together, our data suggest that impaired lipophagy, ER stress, and increased cholesterol synthesis lead to LD accumulation and hepatic steatosis. V-ATPase assembly defects are thus a form of hereditary liver disease with implications for the pathogenesis of nonalcoholic fatty liver disease.

Published

2020

18. Defining the mild variant of leukocyte adhesion deficiency type II (SLC35C1-congenital disorder of glycosylation) and response to l-fucose therapy: Insights from two new families and review of the literature

Author

Shawn, Tahata, Kimiyo, Raymond, Marie, Quade, Sara, Barnes, Suzanne, Boyer, Stacy, League, Attila, Kumanovics, Roshini, Abraham, Eapen, Jacob, Prem, Menon, and Eva, Morava

Subjects

Congenital Disorders of Glycosylation, Glycosylation, Monosaccharide Transport Proteins, Leukocyte-Adhesion Deficiency Syndrome, Leukocytes, Humans, Fucose

Abstract

Leukocyte adhesion deficiency type II (LAD II, also known as SLC35C1-congenital disorder of glycosylation) is an autosomal recessive disorder characterized by growth and cognitive impairment, peripheral neutrophilia, recurrent infections, and the Bombay blood phenotype. A subset of patients with a milder presentation has been described with short stature and developmental delay but minimal immune and hematologic features. Some patients with LAD II benefit from oral fucose therapy, though this has not been previously studied in patients with milder disease. In this study, we describe two new patients from separate families with the milder variant of LAD II and review the published literature on this rare disorder. We demonstrate improvement in speech and cognition, CD15 expression, and core fucosylation of serum glycoproteins after 27 months of oral fucose supplementation in one patient. These patients further support the stratification of this disorder into distinct subtypes, a classical severe and an attenuated variant, and provide preliminary evidence of benefit of fucose therapy in the latter group.

Published

2021

19. The synergy of multiplex testing to screen for lysosomal disorders (LD)

Author

Gisele Pino, Kim Nickander, April Studinski, Dawn Peck, Amy White, Jean Lacey, Dimitar Gavrilov, Devin Oglesbee, Silvia Tortorelli, Dietrich Matern, and Kimiyo Raymond

Subjects

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

Published

2022

20. Outcomes of newborn screening for Krabbe disease and their impact on selecting an effective screening approach

Author

Amy L. White, Dimitar Gavrilov, Gisele Pino, Devin Oglesbee, Dawn Peck, Kimiyo Raymond, April Studinski, Silvia Tortorelli, and Dietrich Matern

Subjects

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

Published

2022

21. Defective glycosylation and multisystem abnormalities characterize the primary immunodeficiency XMEN disease

Author

Musa Karakukcu, Ratnadeep Mukherjee, Lynne A. Wolfe, Aaron Morawski, Lixin Zheng, Niraj C. Patel, Samuel D. Chauvin, Helen F. Matthews, Brian Sellers, Julio C. Orrego-Arango, Tingyan He, Susan Price, Alexandre G. R. Day, Pankaj Mehta, Les R. Folio, Giulia Notarangelo, Jordan S. Orange, James T. Anibal, Evan M. Masutani, Pam Angelus, Chrysi Kanellopoulou, Claudia M. Trujillo-Vargas, Sally Hunsberger, David E. Kleiner, Suk See De Ravin, Jenna R.E. Bergerson, Michael J. Lenardo, Devika Kapuria, Matthew Biancalana, Gulbu Uzel, Mami Matsuda-Lennikov, Sebastian Gutierrez-Hincapie, Alex George, Camilo Toro, Jeffrey I. Cohen, Juan Zou, Ivan K. Chinn, Juan C. Ravell, Ping Jiang, Harry L. Malech, William A. Gahl, Ekrem Unal, Grégoire Altan-Bonnet, Matthias Mann, Kyle Binder, Turkan Patiroglu, Stefania Pittaluga, Astin Powers, Helen C. Su, Kimiyo Raymond, Marc G. Ghany, Sally J. Deeb, José Luis Franco, and V. Koneti Rao

Subjects

Male, 0301 basic medicine, Glycosylation, Lymphoma, Immunology, XMEN disease, Naive B cell, CD4-CD8 Ratio, Glycobiology, CD38, X-Linked Combined Immunodeficiency Diseases, Autoimmune Disease, Medical and Health Sciences, 03 medical and health sciences, Rare Diseases, 0302 clinical medicine, Antigens, CD, Clinical Research, immune system diseases, hemic and lymphatic diseases, medicine, Humans, 2.1 Biological and endogenous factors, Antigens, Aetiology, Dysgammaglobulinemia, Cation Transport Proteins, B cell, Immunodeficiency, Cancer, business.industry, Autoimmune Lymphoproliferative Syndrome, Hematology, General Medicine, medicine.disease, NKG2D, CD, 030104 developmental biology, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Commentary, Female, Proteoglycans, business, Magnesium Deficiency, Congenital disorder of glycosylation, Genetic diseases

Abstract

X-linked immunodeficiency with magnesium defect, EBV infection, and neoplasia (XMEN) disease are caused by deficiency of the magnesium transporter 1 (MAGT1) gene. We studied 23 patients with XMEN, 8 of whom were EBV naive. We observed lymphadenopathy (LAD), cytopenias, liver disease, cavum septum pellucidum (CSP), and increased CD4-CD8-B220-TCRαβ+ T cells (αβDNTs), in addition to the previously described features of an inverted CD4/CD8 ratio, CD4+ T lymphocytopenia, increased B cells, dysgammaglobulinemia, and decreased expression of the natural killer group 2, member D (NKG2D) receptor. EBV-associated B cell malignancies occurred frequently in EBV-infected patients. We studied patients with XMEN and patients with autoimmune lymphoproliferative syndrome (ALPS) by deep immunophenotyping (32 immune markers) using time-of-flight mass cytometry (CyTOF). Our analysis revealed that the abundance of 2 populations of naive B cells (CD20+CD27-CD22+IgM+HLA-DR+CXCR5+CXCR4++CD10+CD38+ and CD20+CD27-CD22+IgM+HLA-DR+CXCR5+CXCR4+CD10-CD38-) could differentially classify XMEN, ALPS, and healthy individuals. We also performed glycoproteomics analysis on T lymphocytes and show that XMEN disease is a congenital disorder of glycosylation that affects a restricted subset of glycoproteins. Transfection of MAGT1 mRNA enabled us to rescue proteins with defective glycosylation. Together, these data provide new clinical and pathophysiological foundations with important ramifications for the diagnosis and treatment of XMEN disease.

Published

2019

22. Developmental delay, coarse facial features, and epilepsy in a patient with EXT2 gene variants

Author

Deborah L. Renaud, Sarah Ewing, Eric W. Klee, Aditi Gupta, Kimiyo Raymond, Linda Hasadsri, and Ralitza H. Gavrilova

Subjects

medicine.medical_specialty, Neurology, NDST1, lcsh:Medicine, Case Report, Case Reports, 030204 cardiovascular system & hematology, Gene mutation, Bioinformatics, Compound heterozygosity, whole exome sequencing, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, medicine, genetics, Exome sequencing, lcsh:R5-920, business.industry, Coarse facial features, neurology, lcsh:R, Macrocephaly, EXT2, General Medicine, medicine.disease, 030220 oncology & carcinogenesis, Autism, medicine.symptom, business, lcsh:Medicine (General)

Abstract

Key Clinical Message We report a patient with developmental delay, autism, epilepsy, macrocephaly, facial dysmorphism, gastrointestinal, and behavioral issues due to EXT2 compound heterozygous likely pathogenic variants. This case report expands the EXT2 gene mutation database and the clinical spectrum of patients with deficiencies in the heparan sulfate pathway.

Published

2019

23. A mutation in SLC37A4 causes a dominantly inherited congenital disorder of glycosylation characterized by liver dysfunction

Author

Michael Kulik, Deepti M. Warad, Nathalie Seta, Mathieu Fiore, Anne Dell, Sandrine Vuillaumier-Barrot, Zhi-Jie Xia, Tadahiro Kumagai, Hudson H. Freeze, François Fenaille, Katherine Mcgoogan, Kimiyo Raymond, Mindy Porterfield, Thierry Dupré, Marie-Christine Vergnes-Boiteux, Deborah A. Nickerson, Michael Tiemeyer, Sophie Cholet, Michael J. Bamshad, Caroline Michot, Arnaud Bruneel, Tiffany Pascreau, Heather Flanagan-Steet, Shannon M. Wagner, Stuart M. Haslam, Bobby G. Ng, Delphine Borgel, Paulina Sosicka, Stephen Dalton, Richard Steet, Yohann Huguenin, Annie Harroche, Sanford Burnham Prebys Medical Discovery Institute, Médicaments et Technologies pour la Santé (MTS), Université Paris-Saclay-Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), CHU Necker - Enfants Malades [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Centre de recherche sur l'Inflammation (CRI (UMR_S_1149 / ERL_8252 / U1149)), Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université Paris Cité (UPCité), AP-HP - Hôpital Bichat - Claude Bernard [Paris], University of Georgia [USA], University of Washington [Seattle], CHU Bordeaux [Bordeaux], Imperial College London, Nemours Children's Specialty Care, Jacksonville, FL., Hémostase, Inflammation, Thrombose (HITH - U1176 Inserm - CHU Bicêtre), Institut National de la Santé et de la Recherche Médicale (INSERM)-AP-HP Hôpital Bicêtre (Le Kremlin-Bicêtre)-Université Paris-Saclay, Mayo Clinic [Rochester], The Greenwood Genetic Center, INSERM UMR S1193, Fondation Maladies Rares (FMR) WES-20160717, Commissariat à l'Energie Atomique et aux Energies Alternatives, R01DK99551, ANR-11-INBS-0010,METABOHUB,Développement d'une infrastructure française distribuée pour la métabolomique dédiée à l'innovation(2011), European Project: 643578,H2020,H2020-HCO-2014,E-Rare-3(2014), and Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université de Paris (UP)

Subjects

0301 basic medicine, Adult, Male, Glycosylation, Monosaccharide Transport Proteins, glycosylation, Phosphatase, Biology, medicine.disease_cause, Endoplasmic Reticulum, Antiporters, Article, coagulopathy, 03 medical and health sciences, symbols.namesake, chemistry.chemical_compound, 0302 clinical medicine, Congenital Disorders of Glycosylation, Mutant protein, Genetics, medicine, Humans, Child, Genetics (clinical), Genes, Dominant, Mutation, [SDV.GEN]Life Sciences [q-bio]/Genetics, Glycogen, Golgi pH, Endoplasmic reticulum, Liver Diseases, congenital disordes of glycosylation, Infant, Newborn, Infant, Golgi apparatus, Fibroblasts, medicine.disease, Molecular biology, Pedigree, 030104 developmental biology, chemistry, Child, Preschool, symbols, Female, Congenital disorder of glycosylation, exome sequencing, 030217 neurology & neurosurgery

Abstract

International audience; SLC37A4 encodes an endoplasmic reticulum (ER)-localized multitransmembrane protein required for transporting glucose-6-phosphate (Glc-6P) into the ER. Once transported into the ER, Glc-6P is subsequently hydrolyzed by tissue-specific phosphatases to glucose and inorganic phosphate during times of glucose depletion. Pathogenic variants in SLC37A4 cause an established recessive disorder known as glycogen storage disorder 1b characterized by liver and kidney dysfunction with neutropenia. We report seven individuals who presented with liver dysfunction multifactorial coagulation deficiency and cardiac issues and were heterozygous for the same variant, c.1267C>T (p.Arg423*), in SLC37A4; the affected individuals were from four unrelated families. Serum samples from affected individuals showed profound accumulation of both high mannose and hybrid type N-glycans, while N-glycans in fibroblasts and undifferentiated iPSC were normal. Due to the liver-specific nature of this disorder, we generated a CRISPR base-edited hepatoma cell line harboring the c.1267C>T (p.Arg423*) variant. These cells replicated the secreted abnormalities seen in serum N-glycosylation, and a portion of the mutant protein appears to relocate to a distinct, non-Golgi compartment, possibly ER exit sites. These cells also show a gene dosage-dependent alteration in the Golgi morphology and reduced intraluminal pH that may account for the altered glycosylation. In summary, we identify a recurrent mutation in SLC37A4 that causes a dominantly inherited congenital disorder of glycosylation characterized by coagulopathy and liver dysfunction with abnormal serum N-glycans.

Published

2021

24. A new D-galactose treatment monitoring index for PGM1-CDG

Author

Dietrich Matern, Devin Oglesbee, Kimiyo Raymond, Piero Rinaldo, Dimitar Gavrilov, April Studinski, Silvia Radenkovic, Eva Morava, Ester Perales-Clemente, Kristen Liedtke, and Silvia Tortorelli

Subjects

Adult, Male, congenital, hereditary, and neonatal diseases and abnormalities, medicine.medical_specialty, Glycan, Glycosylation, Glycogenolysis, Mass Spectrometry, Cohort Studies, 03 medical and health sciences, chemistry.chemical_compound, Young Adult, Internal medicine, PGM1, Genetics, medicine, Humans, Child, Genetics (clinical), 030304 developmental biology, Glycoproteins, chemistry.chemical_classification, 0303 health sciences, Glycogen, biology, Dose-Response Relationship, Drug, 030305 genetics & heredity, Galactose, Infant, medicine.disease, Glycogen Storage Disease, Endocrinology, chemistry, Phosphoglucomutase, Glycogenesis, Transferrin, Child, Preschool, biology.protein, Female, Drug Monitoring, Congenital disorder of glycosylation, Biomarkers

Abstract

Phosphoglucomutase 1 (PGM1) catalyzes the interconversion of glucose-6-phosphate to glucose-1-phosphate and is a key enzyme of glycolysis, glycogenesis, and glycogenolysis. PGM1 deficiency (OMIM: 614921) was initially defined as a glycogen storage disorder (type XIV), and later re-classified as a PGM1-congenital disorder of glycosylation (PGM1-CDG). Serum transferrin (Tf) glycan isoform analysis by liquid chromatography-mass spectrometry (LC-MS) is used as a primary diagnostic screen tool, and reveals a very unique CDG profile described as a mixture of CDG-type I and CDG-type II patterns. Oral d-galactose supplementation shows significant clinical and metabolic improvements, which are indicated by the Tf glycan isoform normalization over time in patients with PGM1-CDG. Thus, there is a need for biomarkers to guide d-galactose dosage in patients in order to maintain effective and safe drug levels. Here, we present a simplified algorithm called PGM1-CDG Treatment Monitoring Index (PGM1-TMI) for assessing the response of PGM1-CDG patients to d-galactose supplementation. For our single-center cohort of 16 PGM1-CDG patients, the Tf glycan profile analysis provided the biochemical diagnosis in all of them. In addition, the PGM1-TMI was reduced in PGM1-CDG patients under d-galactose supplementation as compared with their corresponding values before treatment, indicating that glycosylation proceeds towards normalization. PGM1-TMI allows tracking Tf glycan isoform normalization over time when the patients are on d-galactose supplementation.

Published

2021

25. ALG13 X-linked intellectual disability: New variants, glycosylation analysis, and expanded phenotypes

Author

Wallid Deb, Elizabeth Jones, Earnest James Paul Daniel, Jie Chen, Bobby G. Ng, Dong Li, David J. Amor, Elizabeth J. Bhoj, Miao He, Michael C. Kruer, John Christodoulou, Hudson H. Freeze, Tyhiesia Donald, Sheng Chih Jin, Richard Webster, Kaya Bilguvar, Kimiyo Raymond, Andrew K. Sobering, Hind Alsharhan, Arend H. Werners, Andrew C. Edmondson, Somayeh Bakhtiari, Marie Vincent, Benjamin Cogné, Grace Vassallo, and Katherine Yearwood

Subjects

Male, Glycosylation, X-linked intellectual disability, Carbohydrate deficient transferrin, Biology, N-Acetylglucosaminyltransferases, Article, chemistry.chemical_compound, Congenital Disorders of Glycosylation, Intellectual Disability, Intellectual disability, Genetics, medicine, Humans, Genetics (clinical), Exome sequencing, chemistry.chemical_classification, Transferrin, Genetic Variation, medicine.disease, Phenotype, carbohydrates (lipids), chemistry, Female, Congenital disorder of glycosylation

Abstract

Pathogenic variants in ALG13 (ALG13 UDP-N-acetylglucosaminyltransferase subunit) cause an X-linked congenital disorder of glycosylation (ALG13-CDG) where individuals have variable clinical phenotypes that include developmental delay, intellectual disability, infantile spasms, and epileptic encephalopathy. Girls with a recurrent de novo c.3013C>T; p.(Asn107Ser) variant have normal transferrin glycosylation. Using a highly sensitive, semi-quantitative flow injection-electrospray ionization-quadrupole time-of-flight mass spectrometry (ESI-QTOF/MS) N-glycan assay, we report subtle abnormalities in N-glycans that normally account for

Published

2021

26. Spontaneous improvement of carbohydrate-deficient transferrin in PMM2-CDG without mannose observed in CDG natural history study

Author

Kimiyo Raymond, Miao He, Christina Lam, Eva Morava, Marc C. Patterson, Hudson H. Freeze, Peter Witters, Christin Johnsen, and Andrew C. Edmondson

Subjects

congenital, hereditary, and neonatal diseases and abnormalities, Glycosylation, Phosphomannomutase 2, Carbohydrate deficient transferrin, lcsh:Medicine, Mannose, Bioinformatics, PMM2-CDG, law.invention, chemistry.chemical_compound, Natural history study, Congenital Disorders of Glycosylation, Randomized controlled trial, law, Medicine, Humans, Pharmacology (medical), Congenital disorders of glycosylation, Prospective Studies, Letter to the Editor, Genetics (clinical), chemistry.chemical_classification, business.industry, lcsh:R, Transferrin, General Medicine, Biomarker, Clinical trial, chemistry, Phosphotransferases (Phosphomutases), Dietary Supplements, Biomarker (medicine), business

Abstract

A recent report on long-term dietary mannose supplementation in phosphomannomutase 2 deficiency (PMM2-CDG) claimed improved glycosylation and called for double-blind randomized study of the dietary supplement in PMM2-CDG patients. A lack of efficacy of short-term mannose supplementation in multiple prior reports challenge this study’s conclusions. Additionally, some CDG types have previously been reported to demonstrate spontaneous improvement in glycosylated biomarkers, including transferrin. We have likewise observed improvements in transferrin glycosylation without mannose supplementation. This observation questions the reliability of transferrin as a therapeutic outcome measure in clinical trials for PMM2-CDG. We are concerned that renewed focus on mannose therapy in PMM2-CDG will detract from clinical trials of more promising therapies. Approaches to increase efficiency of clinical trials and ultimately improve patients’ lives requires prospective natural history studies and identification of reliable biomarkers linked to clinical outcomes in CDG. Collaborations with patients and families are essential to identifying meaningful study outcomes. Supplementary Information The online version contains supplementary material available at 10.1186/s13023-021-01751-2.

Published

2021

27. NGLY1 Deficiency: A Rare Newly Described Condition with a Typical Presentation

Author

Kimiyo Raymond, Sarah Snanoudj, Anne-Marie Guerrot, François Lecoquierre, Sophie Coutant, Ivana Dabaj, Soumeya Bekri, Stéphane Marret, Gaël Nicolas, Bénédicte Sudrié-Arnaud, Abdellah Tebani, Franklin Ducatez, and Pascale Saugier-Veber

Subjects

0301 basic medicine, Microcephaly, Pediatrics, medicine.medical_specialty, elevated transaminases, Movement disorders, congenital disorder of deglycosylation, Case Report, Disease, 030105 genetics & heredity, Alacrima, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Medicine, NGLY1, hypotonia, alacrimia, lcsh:Science, Index case, Exome, Ecology, Evolution, Behavior and Systematics, Exome sequencing, business.industry, Paleontology, medicine.disease, Hypotonia, developmental delay, 030104 developmental biology, Space and Planetary Science, lcsh:Q, movement disorder, medicine.symptom, business, NGLY1-CDDG, hypolacrimia

Abstract

NGLY1 deficiency is the first recognized autosomal recessive disorder of N-linked deglycosylation (NGLY1-CDDG). This severe multisystemic disease is still poorly known and, to date, most cases have been diagnosed through whole exome or genome sequencing. The aim of this study is to provide the clinical, biochemical and molecular description of the first NGLY1-CDDG patient from France along with a literature review. The index case presented with developmental delay, acquired microcephaly, hypotonia, alacrimia, feeding difficulty, and dysmorphic features. Given the complex clinical picture and the multisystemic involvement, a trio-based exome sequencing was conducted and urine oligosaccharides were assessed using mass spectrometry. The exome sequencing revealed a novel variant in the NGLY1 gene in a homozygous state. NGLY1 deficiency was confirmed by the identification of the Neu5Ac1Hex1GlcNAc1-Asn oligosaccharide in the urine of the patient. Literature review revealed the association of some key clinical and biological features such as global developmental delay—hypertransaminasemia, movement disorders, feeding difficulties and alacrima/hypolacrima.

Published

2021

28. International consensus guidelines for phosphoglucomutase 1 deficiency (PGM1‐CDG ): Diagnosis, follow‐up, and management

Author

Jaak Jaeken, Kristina Falkenstein, Carlos Ferreira, Andrew C. Edmondson, Paula A. Videira, Joy Lee, David Coman, Rita Barone, Tomas Honzik, Vanessa dos Reis Ferreira, Frederic Tort, Rita Francisco, Anna Cechova, Christina Lam, Mari Anne Vals, Hudson H. Freeze, Dorinda Marques-da-Silva, Nicol C. Voermans, Ruqaiah Altassan, Małgorzata Seroczyńska, Daisy Rymen, Dulce Quelhas, Carlota Pascoal, Sarah Donoghue, Peter Witters, Eva Morava, Donna M. Krasnewich, Jolanta Sykut-Cegielska, Sandra Brasil, Dirk Lefeber, Stephanie Grunewald, Christian Thiel, Mercedes Serrano, Agata Fiumara, Silvia Radenkovic, and Kimiyo Raymond

Subjects

Adult, Pediatrics, medicine.medical_specialty, congenital, hereditary, and neonatal diseases and abnormalities, Consensus, International Cooperation, Cardiomyopathy, Hypoglycemia, Article, d-galactose, congenital disorder of glycosylation, 03 medical and health sciences, Muscular Diseases, phosphoglucomutase 1 deficiency, PGM1, Health care, Genetics, medicine, Glycogen storage disease, Humans, management guidelines, Genetics (clinical), 030304 developmental biology, 0303 health sciences, business.industry, 030305 genetics & heredity, PGM1-CDG, Genetic disorder, Disease Management, Galactose, Infant, medicine.disease, Glycogen Storage Disease, Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], Cleft Palate, Liver function, business, Cardiomyopathies, Congenital disorder of glycosylation

Abstract

Phosphoglucomutase 1 (PGM1) deficiency is a rare genetic disorder that affects glycogen metabolism, glycolysis, and protein glycosylation. Previously known as GSD XIV, it was recently reclassified as a congenital disorder of glycosylation, PGM1-CDG. PGM1-CDG usually manifests as a multisystem disease. Most patients present as infants with cleft palate, liver function abnormalities and hypoglycemia, but some patients present in adulthood with isolated muscle involvement. Some patients develop life-threatening cardiomyopathy. Unlike most other CDG, PGM1-CDG has an effective treatment option, d-galactose, which has been shown to improve many of the patients' symptoms. Therefore, early diagnosis and initiation of treatment for PGM1-CDG patients are crucial decisions. In this article, our group of international experts suggests diagnostic, follow-up, and management guidelines for PGM1-CDG. These guidelines are based on the best available evidence-based data and experts' opinions aiming to provide a practical resource for health care providers to facilitate successful diagnosis and optimal management of PGM1-CDG patients. ispartof: Journal Of Inherited Metabolic Disease vol:s44 issue:1 pages:148-163 ispartof: location:United States status: published

Published

2021

29. Congenital disorder of glycosylation caused by starting site-specific variant in syntaxin-5

Author

Olga Fjodorova, Natalia H. Revelo, Eveline C F Gerretsen, Richard Arts, Kimiyo Raymond, Fokje Zijlstra, Martin ter Beest, Karin Huijben, Rinse de Boer, Angel Ashikov, Katrin Õunap, Mari-Anne Vals, Kai Muru, Geert van den Bogaart, Melissa Baerenfaenger, Peter T. A. Linders, Dirk Lefeber, Sander Pajusalu, Molecular Cell Biology, and Molecular Immunology

Subjects

Gene isoform, Glycosylation, Cancer development and immune defence Radboud Institute for Molecular Life Sciences [Radboudumc 2], Science, Amino Acid Motifs, Glycobiology, Golgi Apparatus, General Physics and Astronomy, STX5, Article, General Biochemistry, Genetics and Molecular Biology, Congenital Abnormalities, Abnormal glycosylation, 03 medical and health sciences, chemistry.chemical_compound, symbols.namesake, All institutes and research themes of the Radboud University Medical Center, 0302 clinical medicine, Golgi, medicine, Humans, Protein Isoforms, Secretory pathway, 030304 developmental biology, 0303 health sciences, Multidisciplinary, Methionine, Qa-SNARE Proteins, Chemistry, General Chemistry, Fibroblasts, Golgi apparatus, Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], medicine.disease, 3. Good health, Cell biology, Protein Transport, Mechanisms of disease, Protein Biosynthesis, Mutation, symbols, Congenital disorder of glycosylation, 030217 neurology & neurosurgery

Abstract

The SNARE (soluble N-ethylmaleimide-sensitive factor attachment protein receptor) protein syntaxin-5 (Stx5) is essential for Golgi transport. In humans, the STX5 mRNA encodes two protein isoforms, Stx5 Long (Stx5L) from the first starting methionine and Stx5 Short (Stx5S) from an alternative starting methionine at position 55. In this study, we identify a human disorder caused by a single missense substitution in the second starting methionine (p.M55V), resulting in complete loss of the short isoform. Patients suffer from an early fatal multisystem disease, including severe liver disease, skeletal abnormalities and abnormal glycosylation. Primary human dermal fibroblasts isolated from these patients show defective glycosylation, altered Golgi morphology as measured by electron microscopy, mislocalization of glycosyltransferases, and compromised ER-Golgi trafficking. Measurements of cognate binding SNAREs, based on biotin-synchronizable forms of Stx5 (the RUSH system) and Förster resonance energy transfer (FRET), revealed that the short isoform of Stx5 is essential for intra-Golgi transport. Alternative starting codons of Stx5 are thus linked to human disease, demonstrating that the site of translation initiation is an important new layer of regulating protein trafficking., Mutations in genes critical for proper intra-Golgi transport can cause human syndromes due to defects in glycosylation of proteins. Here, the authors identify a human variant of Syntaxin-5 that causes fatal multisystem disease and mislocalization of glycosyltransferases due to altered Golgi transport.

Published

2021

30. FLAVIN ADENOSINE DINUCLEOTIDE SYNTHASE DEFICIENCY AN ATYPICAL CLINICAL PRESENTATION WITH A PUZZLING BIOCHEMICAL DERANGEMENT

Author

Zinandre Stander, Zineb Ammous, Jody Werker, April Studinski, Silvia Tortorelli, Dietrich Matern, Matthew Schultz, Kimiyo Raymond, Devin Oglesbee, and Dimitar Gavrilov

Subjects

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

Published

2022

31. A Comparative Effectiveness Study of Newborn Screening Methods for Four Lysosomal Storage Disorders

Author

Amber McDonald, Devin Oglesbee, Ramanath Majumdar, Charles A. Kroll, Fred Lorey, Grazia Isaya, Hao Tang, Piero Rinaldo, Dimitar Gavrilov, Karen A. Sanders, Kimiyo Raymond, Jean M. Lacey, Silvia Tortorelli, Robert J. Currier, Dietrich Matern, Coleman T. Turgeon, Justin N. Tucker, and John J. Hopwood

Subjects

0301 basic medicine, microfluidics, Lysosomal storage disorders, Computational biology, Gaucher disease, 030105 genetics & heredity, Article, 03 medical and health sciences, Mucopolysaccharidosis type I, 0302 clinical medicine, Immunology and Microbiology (miscellaneous), tandem mass spectrometry, Medicine, post-analytical interpretation, Multiplex, immunoassay, Newborn screening, Fabry disease, medicine.diagnostic_test, business.industry, newborn screening, Molecular genetic testing, mucopolysaccharidosis type I, lcsh:RJ1-570, Obstetrics and Gynecology, Pompe disease, lcsh:Pediatrics, bioinformatics, medicine.disease, Dried blood spot, Immunoassay, Pediatrics, Perinatology and Child Health, business, 030217 neurology & neurosurgery

Abstract

Newborn screening for one or more lysosomal disorders has been implemented in several US states, Japan and Taiwan by multiplexed enzyme assays using either tandem mass spectrometry or digital microfluidics. Another multiplex assay making use of immunocapture technology has also been proposed. To investigate the potential variability in performance of these analytical approaches, we implemented three high-throughput screening assays for the simultaneous screening for four lysosomal disorders: Fabry disease, Gaucher disease, mucopolysaccharidosis type I, and Pompe disease. These assays were tested in a prospective comparative effectiveness study using nearly 100,000 residual newborn dried blood spot specimens. In addition, 2nd tier enzyme assays and confirmatory molecular genetic testing were employed. Post-analytical interpretive tools were created using the software Collaborative Laboratory Integrated Reports (CLIR) to determine its ability to improve the performance of each assay vs. the traditional result interpretation based on analyte-specific reference ranges and cutoffs. This study showed that all three platforms have high sensitivity, and the application of CLIR tools markedly improves the performance of each platform while reducing the need for 2nd tier testing by 66% to 95%. Moreover, the addition of disease-specific biochemical 2nd tier tests ensures the lowest false positive rates and the highest positive predictive values for any platform.

Published

2020

32. Novel congenital disorder of O-linked glycosylation caused by GALNT2 loss of function

Author

Elena Gardella, Damir Musaev, Cecilia Vitali, Emanuele Agolini, Sumeet A. Khetarpal, Kimiyo Raymond, Daniel J. Rader, Camilla Gøbel Madsen, Valentina Stanley, Antonio Novelli, Andrew C. Edmondson, W. Timothy O'Brien, Heiko Reutter, John Hintze, Kristen Liedtke, Mahmoud Y. Issa, Lars Hansen, Christina Fenger, Kevin Rostasy, Rami Abou Jamra, Maha S. Zaki, Francesca Romana Lepri, Ulla E. Petäjä-Repo, Joseph G. Gleeson, Rikke S. Møller, Silvana Briuglia, Katrine T. Schjoldager, Lorenzo Sinibaldi, Viola Alesi, Guido Rubboli, Raffaella Cusmai, and Monica Zilmer

Subjects

0301 basic medicine, Male, medicine.medical_specialty, Glycosylation, Adolescent, Congenital disorders of glycosylation, O-glycosylation, GALNT2, Apolipoprotein C-III glycosylation, HDL-cholesterol, Developmental Disabilities, Biology, 03 medical and health sciences, chemistry.chemical_compound, Mice, Young Adult, 0302 clinical medicine, Loss of Function Mutation, Internal medicine, medicine, Animals, Humans, Congenital disorders of glycosylation, Global developmental delay, Child, O-glycosylation, Apolipoprotein C-III, Original Articles, medicine.disease, HDL-cholesterol, Pedigree, Rats, Developmental disorder, 030104 developmental biology, Endocrinology, chemistry, GALNT2, Child, Preschool, O-linked glycosylation, Apolipoprotein C-III glycosylation, N-Acetylgalactosaminyltransferases, Apolipoprotein C3, lipids (amino acids, peptides, and proteins), Female, Neurology (clinical), Congenital disorder of glycosylation, Lipid glycosylation, 030217 neurology & neurosurgery, Congenital disorder

Abstract

Congenital disorders of glycosylation are a growing group of rare genetic disorders caused by deficient protein and lipid glycosylation. Here, we report the clinical, biochemical, and molecular features of seven patients from four families with GALNT2-congenital disorder of glycosylation (GALNT2-CDG), an O-linked glycosylation disorder. GALNT2 encodes the Golgi-localized polypeptide N-acetyl-d-galactosamine-transferase 2 isoenzyme. GALNT2 is widely expressed in most cell types and directs initiation of mucin-type protein O-glycosylation. All patients showed loss of O-glycosylation of apolipoprotein C-III, a non-redundant substrate for GALNT2. Patients with GALNT2-CDG generally exhibit a syndrome characterized by global developmental delay, intellectual disability with language deficit, autistic features, behavioural abnormalities, epilepsy, chronic insomnia, white matter changes on brain MRI, dysmorphic features, decreased stature, and decreased high density lipoprotein cholesterol levels. Rodent (mouse and rat) models of GALNT2-CDG recapitulated much of the human phenotype, including poor growth and neurodevelopmental abnormalities. In behavioural studies, GALNT2-CDG mice demonstrated cerebellar motor deficits, decreased sociability, and impaired sensory integration and processing. The multisystem nature of phenotypes in patients and rodent models of GALNT2-CDG suggest that there are multiple non-redundant protein substrates of GALNT2 in various tissues, including brain, which are critical to normal growth and development.

Published

2020

33. Congenital disorder of glycosylation caused by starting site-specific variant in syntaxin-5

Author

Geert van den Bogaart, Karin Huijben, Katrin Õunap, Olga Fjodorova, Eveline C F Gerretsen, Natalia H. Revelo, Fokje Zijlstra, Richard Arts, Mari-Anne Vals, Kimiyo Raymond, Dirk Lefeber, Angel Ashikov, Sander Pajusalu, Peter T. A. Linders, Kai Muru, Martin ter Beest, and Melissa Baerenfaenger

Subjects

Gene isoform, Methionine, Glycosylation, Chemistry, Golgi apparatus, STX5, medicine.disease, Cell biology, Abnormal glycosylation, symbols.namesake, chemistry.chemical_compound, symbols, medicine, Missense mutation, Congenital disorder of glycosylation

Abstract

The SNARE (soluble N-ethylmaleimide-sensitive factor attachment protein receptor) protein syntaxin-5 (Stx5) is essential for Golgi transport. In humans, theSTX5mRNA encodes two protein isoforms, Stx5 Long (Stx5L) from the first starting methionine and Stx5 Short (Stx5S) from an alternative starting methionine at position 55. In this study, we identify a human disorder caused by a single missense substitution in the second starting methionine (p.M55V), resulting in complete loss of the short isoform. Patients suffer from an early fatal multisystem disease, including severe liver disease, skeletal abnormalities and abnormal glycosylation. Primary human dermal fibroblasts isolated from these patients show defective glycosylation, altered Golgi morphology as measured by electron microscopy, mislocalization of glycosyltransferases, and compromised ER-Golgi trafficking. Measurements of cognate binding SNAREs, based on biotin-synchronizable forms of Stx5 (the RUSH system) and Förster resonance energy transfer (FRET), revealed that the short isoform of Stx5 is essential for intra-Golgi transport. Alternative starting codons of Stx5 are thus linked to human disease, demonstrating that the site of translation initiation is an important new layer of regulating protein trafficking.

Published

2020

34. Bosch-Boonstra-Schaaf optic atrophy syndrome (BBSOAS) initially diagnosed as ALG6-CDG: Functional evidence for benignity of the ALG6 c.391TC (p.Tyr131His) variant and further expanding the BBSOAS phenotype

Author

Rodrigo Tzovenos Starosta, Eva Morava, Filippo Vairo, Jessica M. Tarnowski, Graeme Preston, and Kimiyo Raymond

Subjects

Adult, Pathology, medicine.medical_specialty, Ataxia, Glycosylation, Autism Spectrum Disorder, Atrophy, Congenital Disorders of Glycosylation, Optic Atrophies, Hereditary, Intellectual Disability, Exome Sequencing, Genetics, medicine, Humans, Enteropathy, Genetic Predisposition to Disease, Genetic Testing, Genetics (clinical), Exome sequencing, Genetic Association Studies, Genetic testing, Epilepsy, medicine.diagnostic_test, business.industry, Protein losing enteropathy, Membrane Proteins, General Medicine, medicine.disease, Optic Atrophy, Phenotype, Autism spectrum disorder, Glucosyltransferases, Mutation, Female, Differential diagnosis, medicine.symptom, business

Abstract

Bosch-Boonstra-Schaaf optic atrophy syndrome (BBSOAS) is a recently described autosomal dominant syndrome of developmental delay, cortical vision loss with optic nerve atrophy, epilepsy, and autism spectrum disorder. Due to its many overlapping features with congenital disorders of glycosylation (CDG), the differential diagnosis between these disorders may be difficult and relies on molecular genetic testing. We report on a 31-year-old female initially diagnosed with ALG6-CDG based on glycosylation abnormalities on transferrin isoelectrofocusing and targeted genetic testing, and later diagnosed with BBSOAS by whole-exome sequencing (WES). Functional studies on cultured fibroblasts including Western blotting and RT-qPCR, as well as mass spectrometry of glycosylated transferrin and MALDI-TOF glycan analysis in serum, demonstrated normal glycosylation in this patient. In this report, we extend the phenotype of BBSOAS with ataxia and protein-losing enteropathy. This case is illustrative of the utility of whole exome sequencing in the diagnostic odyssey, and the potential pitfalls of relying on focused genetic testing results for diagnosis of conditions with complex overlapping phenotypes.

Published

2020

35. Author response for 'B4GALT1‐CDG: Expansion of the phenotypic and molecular spectrum and review of the literature'

Author

Carlos Ferreira, Arie Koifman, Kimiyo Raymond, N. Hadar, Ohad Wormser, Iris Noyman, Guy Hazan, A. Abu Quider, Ohad S. Birk, Orna Staretz-Chacham, and Iris Morag

Subjects

Evolutionary biology, Biology, Spectrum (topology), Phenotype

Published

2020

36. B4GALT1-congenital disorders of glycosylation: Expansion of the phenotypic and molecular spectrum and review of the literature

Author

Carlos Ferreira, Arie Koifman, Ohad Wormser, Orna Staretz-Chacham, Noam Hadar, Ohad S. Birk, Iris Noyman, Abed Abu Quider, Iris Morag, Kimiyo Raymond, and Guy Hazan

Subjects

0301 basic medicine, Male, Glycosylation, Nephrotic Syndrome, Hypertension, Pulmonary, Disease, 030105 genetics & heredity, 03 medical and health sciences, chemistry.chemical_compound, Congenital Disorders of Glycosylation, Seizures, Intellectual Disability, Intellectual disability, Genetics, medicine, Humans, Genetics (clinical), Cholestasis, business.industry, Homozygote, Infant, Newborn, Infant, medicine.disease, Disease gene identification, Galactosyltransferases, Phenotype, Pancytopenia, Thrombocytopenia, Pedigree, 030104 developmental biology, chemistry, Mutation, business, Congenital disorder of glycosylation, Nephrotic syndrome

Abstract

A congenital disorder of glycosylation due to biallelic mutations in B4GALT1 has been previously reported in only three patients with two different mutations. Through homozygosity mapping followed by segregation analysis in an extended pedigree, we identified three additional patients homozygous for a novel mutation in B4GALT1, expanding the phenotypic spectrum of the disease. The patients showed a uniform clinical presentation with intellectual disability, marked pancytopenia requiring chronic management, and novel features including pulmonary hypertension and nephrotic syndrome. Notably, affected individuals exhibited a moderate elevation of Man3GlcNAc4Fuc1 on serum N-glycan analysis, yet two of the patients had a normal pattern of transferrin glycosylation in repeated analysis. The novel mutation is the third disease-causing variant described in B4GALT1, and the first one within its transmembrane domain.

Published

2020

37. Incorporation of Second-Tier Biomarker Testing Improves the Specificity of Newborn Screening for Mucopolysaccharidosis Type I

Author

Jean M. Lacey, Sarah Viall, Dawn Peck, Amy Siemon, Brianna K. Murray, Amy L. White, J. Austin Hamm, Dietrich Matern, Linda Spencer, Devin Oglesbee, Dimitar Gavrilov, Piero Rinaldo, Kimiyo Raymond, Ayesha Ahmad, Silvia Tortorelli, Gisele Pino, Rachel Fisher, Natalie Shallow, April Studinski, and Kelly L. Jones

Subjects

0301 basic medicine, MPS I, medicine.medical_specialty, Population, 030105 genetics & heredity, Gastroenterology, Dermatan sulfate, Article, Loss of heterozygosity, 03 medical and health sciences, chemistry.chemical_compound, Mucopolysaccharidosis type I, 0302 clinical medicine, Immunology and Microbiology (miscellaneous), second-tier testing, Internal medicine, Medicine, education, skin and connective tissue diseases, GAGs, Newborn screening, education.field_of_study, business.industry, newborn screening, lcsh:RJ1-570, Obstetrics and Gynecology, nutritional and metabolic diseases, biomarkers, lcsh:Pediatrics, Heparan sulfate, postanalytical interpretation, carbohydrates (lipids), chemistry, Pediatrics, Perinatology and Child Health, Pseudodeficiency alleles, Biomarker (medicine), business, 030217 neurology & neurosurgery

Abstract

Enzyme-based newborn screening for Mucopolysaccharidosis type I (MPS I) has a high false-positive rate due to the prevalence of pseudodeficiency alleles, often resulting in unnecessary and costly follow up. The glycosaminoglycans (GAGs), dermatan sulfate (DS) and heparan sulfate (HS) are both substrates for &alpha, l-iduronidase (IDUA). These GAGs are elevated in patients with MPS I and have been shown to be promising biomarkers for both primary and second-tier testing. Since February 2016, we have measured DS and HS in 1213 specimens submitted on infants at risk for MPS I based on newborn screening. Molecular correlation was available for 157 of the tested cases. Samples from infants with MPS I confirmed by IDUA molecular analysis all had significantly elevated levels of DS and HS compared to those with confirmed pseudodeficiency and/or heterozygosity. Analysis of our testing population and correlation with molecular results identified few discrepant outcomes and uncovered no evidence of false-negative cases. We have demonstrated that blood spot GAGs analysis accurately discriminates between patients with confirmed MPS I and false-positive cases due to pseudodeficiency or heterozygosity and increases the specificity of newborn screening for MPS I.

Published

2020

38. Defining a new immune deficiency syndrome: MAN2B2-CDG

Author

Luigi D. Notarangelo, Julie E. Niemela, Kerry Dobbs, Sunnie Wong, Jan Verheijen, Gerard T. Berry, Uimook Choi, Marita Bosticardo, Miao He, Hasan Al-Dhekri, Jared H. Rowe, Lauren A. Henderson, Melissa M. Hazen, Sung-Yun Pai, Anne Marie Comeau, Sergio D. Rosenzweig, Enrica Calzoni, Erin Janssen, Eva Morava, Jennifer Stoddard, Yasuhiro Yamazaki, Kimiyo Raymond, and Ottavia M. Delmonte

Subjects

0301 basic medicine, Glycosylation, business.industry, Extramural, Immunology, Immune dysregulation, medicine.disease_cause, Immune deficiency syndrome, Article, carbohydrates (lipids), 03 medical and health sciences, chemistry.chemical_compound, Transduction (genetics), 030104 developmental biology, 0302 clinical medicine, chemistry, Mannosylation, Immunology and Allergy, Medicine, In patient, business, 030217 neurology & neurosurgery

Abstract

Summary We describe the first case of MAN2B2 deficiency in a patient with immune dysregulation, developmental delay, and stroke. Altered mannosylation profile was restored in patient cells upon transduction of wild-type MAN2B2.

Published

2020

39. Expanding the molecular and clinical phenotypes of FUT8-CDG

Author

Mohammad Ali Faghihi, Hudson H. Freeze, Kimiyo Raymond, Mohammad Silawi, Benjamin J. Halliday, Elise Brimble, Stephen P. Robertson, Parham Habibzadeh, Afsaneh Taghipour‐Sheshdeh, Hassan Dastsooz, Shima Bahram Jahan, Maura R.Z. Ruzhnikov, Bobby G. Ng, Mohammad Ali Farazi Fard, and Zahra Tabatabaei

Subjects

Male, Fucosyltransferase, Alpha (ethology), Intrauterine growth restriction, N-glycans, core fucosylation, Bioinformatics, Article, Mass Spectrometry, Whole Exome Sequencing, 03 medical and health sciences, Congenital Disorders of Glycosylation, congenital disorders of glycosylation, mass spectrometry, whole exome sequencing, Female, Fucose, Fucosyltransferases, Humans, Phenotype, Polysaccharides, Exome Sequencing, Genetics, Medicine, Genetics (clinical), Exome sequencing, Fucosylation, 030304 developmental biology, 0303 health sciences, biology, business.industry, 030305 genetics & heredity, Metabolic disorder, medicine.disease, biology.protein, Biomarker (medicine), business

Abstract

Pathogenic variants in the Golgi localised alpha 1,6 fucosyltransferase, FUT8, cause a rare inherited metabolic disorder known as FUT8-CDG. To date, only three affected individuals have been reported presenting with a constellation of symptoms including intrauterine growth restriction, severe delays in growth and development, other neurological impairments, significantly shortened limbs, respiratory complications, and shortened lifespan. Here, we report an additional four unrelated affected individuals homozygous for novel pathogenic variants in FUT8. Analysis of serum N-glycans revealed a complete lack of core fucosylation, an important diagnostic biomarker of FUT8-CDG. Our data expands both the molecular and clinical phenotypes of FUT8-CDG and highlights the importance of identifying a reliable biomarker for confirming potentially pathogenic variants.

Published

2020

40. eP038: A new biochemical assay to measure plasmalogens with CLIR disease differentiation

Author

Peter Wegwerth, Dimitar Gavrilov, Amy White, Dietrich Matern, Piero Rinaldo, Devin Oglesbee, Silvia Tortorelli, Kimiyo Raymond, Stephanie Stoway, and Perry Loken

Subjects

Genetics (clinical)

Published

2022

41. Comparison of psychosine analysis in dried blood spots and red blood cells from children with Krabbe disease

Author

Amy L. White, Maria L. Escolar, Dawn Peck, Gisele Pino, April Studinski, George E. Hoganson, Joanne Kurtzberg, Kimiyo Raymond, Dimitar Gavrilov, Devin Oglesbee, Silvia Tortorelli, and Dietrich Matern

Subjects

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

Published

2022

42. Multiplex Droplet Digital PCR Method Applicable to Newborn Screening, Carrier Status, and Assessment of Spinal Muscular Atrophy

Author

Dimitar Gavrilov, Silvia Tortorelli, Piero Rinaldo, Dietrich Matern, Kimiyo Raymond, Devin Oglesbee, and Noemi Vidal-Folch

Subjects

Male, 0301 basic medicine, Clinical Biochemistry, Population, SMN1, Real-Time Polymerase Chain Reaction, Autoantigens, Polymorphism, Single Nucleotide, Ribonuclease P, Muscular Atrophy, Spinal, 03 medical and health sciences, symbols.namesake, Neonatal Screening, 0302 clinical medicine, Reference Values, Humans, Medicine, Digital polymerase chain reaction, Multiplex, Multiplex ligation-dependent probe amplification, education, Sanger sequencing, education.field_of_study, business.industry, Genetic Carrier Screening, Biochemistry (medical), Infant, Newborn, Reproducibility of Results, Exons, Spinal muscular atrophy, SMA, medicine.disease, Survival of Motor Neuron 1 Protein, Molecular biology, nervous system diseases, Survival of Motor Neuron 2 Protein, 030104 developmental biology, symbols, Female, Dried Blood Spot Testing, business, Multiplex Polymerase Chain Reaction, 030217 neurology & neurosurgery

Abstract

BACKGROUND Spinal muscular atrophy (SMA) is a progressive neuromuscular disorder with neuronal degeneration leading to muscular atrophy and respiratory failure. SMA is frequently caused by homozygous deletions that include exon 7 of the survival motor neuron gene SMN1, and its clinical course is influenced by the copy number of a nearby 5q SMN1 paralog, SMN2. Multiple ligation probe amplification (MLPA) and real-time quantitative PCR (qPCR) can detect SMN1 deletions. Yet, qPCR needs normalization or standard curves, and MLPA demands DNA concentrations above those obtainable from dried blood spots (DBSs). We developed a multiplex, droplet digital PCR (ddPCR) method for the simultaneous detection of SMN1 deletions and SMN2 copy number variation in DBS and other tissues. An SMN1 Sanger sequencing process for DBS was also developed. METHODS SMN1, SMN2, and RPP30 concentrations were simultaneously measured with a Bio-Rad AutoDG and QX200 ddPCR system. A total of 1530 DBSs and 12 SMA patients were tested. RESULTS Population studies confirmed 1 to 5 SMN1 exon 7 copies detected in unaffected specimens, whereas patients with SMA revealed 0 SMN1 copies. Intraassay and interassay imprecisions were CONCLUSIONS This ddPCR method is sensitive, specific, and applicable to newborn screening and carrier status determination for SMA. It can also be incorporated with a parallel ddPCR T-cell excision circles assay for severe combined immunodeficiencies.

Published

2018

43. A Recurrent De Novo Heterozygous COG4 Substitution Leads to Saul-Wilson Syndrome, Disrupted Vesicular Trafficking, and Altered Proteoglycan Glycosylation

Author

Gen Nishimura, Tito Onyekweli, David A. Parry, Bernardo Blanco-Sánchez, Dawn L. Earl, Ganka Douglas, Clare V. Logan, Carlos Ferreira, Bobby G. Ng, Jeremy Wegner, Marte Gjøl Haug, Zöe Powis, Benjamin D. Solomon, Megan T. Cho, Ellen Macnamara, Lynne A. Wolfe, Ann Nordgren, Anna Hammarsjö, Melissa Gabriel, Zhi-Jie Xia, Angela L. Duker, Fulya Taylan, Kelly Radtke, Mariya Kozenko, Daniel R. Carvalho, Prashant Sharma, Hudson H. Freeze, Monte Westerfield, Kazuhiro Aoki, Michael B. Bober, Luis Rohena, Alvaro H Serrano Russi, Jennifer B. Phillips, Coleman T. Turgeon, Aurélie Clément, Giedre Grigelioniene, Tara E. Weixel, John A. Phillips, Rizwan Hamid, May Christine V. Malicdan, David H. Adams, George E. Tiller, Mariska Davids, Cynthia J. Tifft, Kimiyo Raymond, Andrew P. Jackson, Emma Tham, Hanne B Hove, Lauren Brick, Jakob Ek, Heiko Bratke, William G. Wilson, Michael Tiemeyer, and William A. Gahl

Subjects

Adult, Male, 0301 basic medicine, Heterozygote, Glycosylation, Decorin, Vesicular Transport Proteins, Golgi Apparatus, 030105 genetics & heredity, Endoplasmic Reticulum, Cell Line, Animals, Genetically Modified, Extracellular matrix, 03 medical and health sciences, symbols.namesake, chemistry.chemical_compound, Genetics, medicine, Animals, Humans, Child, Zebrafish, Genetics (clinical), biology, Infant, Heterozygote advantage, Fibroblasts, Golgi apparatus, medicine.disease, Molecular biology, Extracellular Matrix, Vesicular transport protein, Protein Transport, 030104 developmental biology, Amino Acid Substitution, Proteoglycan, chemistry, Child, Preschool, Fragile X Syndrome, biology.protein, symbols, Female, Proteoglycans, Primordial dwarfism

Abstract

The conserved oligomeric Golgi (COG) complex is involved in intracellular vesicular transport, and is composed of eight subunits distributed in two lobes, lobe A (COG1-4) and lobe B (COG5-8). We describe fourteen individuals with Saul-Wilson syndrome, a rare form of primordial dwarfism with characteristic facial and radiographic features. All affected subjects harbored heterozygous de novo variants in COG4, giving rise to the same recurrent amino acid substitution (p.Gly516Arg). Affected individuals' fibroblasts, whose COG4 mRNA and protein were not decreased, exhibited delayed anterograde vesicular trafficking from the ER to the Golgi and accelerated retrograde vesicular recycling from the Golgi to the ER. This altered steady-state equilibrium led to a decrease in Golgi volume, as well as morphologic abnormalities with collapse of the Golgi stacks. Despite these abnormalities of the Golgi apparatus, protein glycosylation in sera and fibroblasts from affected subjects was not notably altered, but decorin, a proteoglycan secreted into the extracellular matrix, showed altered Golgi-dependent glycosylation. In summary, we define a specific heterozygous COG4 substitution as the molecular basis of Saul-Wilson syndrome, a rare skeletal dysplasia distinct from biallelic COG4-CDG.

Published

2018

44. Integrating glycomics and genomics uncovers SLC10A7 as essential factor for bone mineralization by regulating post-Golgi protein transport and glycosylation

Author

Angel, Ashikov, Nurulamin, Abu Bakar, Xiao-Yan, Wen, Marco, Niemeijer, Glentino, Rodrigues Pinto Osorio, Koroboshka, Brand-Arzamendi, Linda, Hasadsri, Hana, Hansikova, Kimiyo, Raymond, Dorothée, Vicogne, Nina, Ondruskova, Marleen E H, Simon, Rolph, Pfundt, Sharita, Timal, Roel, Beumers, Christophe, Biot, Roel, Smeets, Marjan, Kersten, Karin, Huijben, Peter T A, Linders, Geert, van den Bogaart, Sacha A F T, van Hijum, Richard, Rodenburg, Lambertus P, van den Heuvel, Francjan, van Spronsen, Tomas, Honzik, Francois, Foulquier, Monique, van Scherpenzeel, Dirk J, Lefeber, Wamelink, Mirjam, Brunner, Han, Mundy, Helen, Michelakakis, Helen, van Hasselt, Peter, van de Kamp, Jiddeke, Martinelli, Diego, Morkrid, Lars, Brocke Holmefjord, Katja, Hertecant, Jozef, Alfadhel, Majid, Carpenter, Kevin, Te Water Naude, Johann, Center for Liver, Digestive and Metabolic Diseases (CLDM), Department of Medicine & Physiology , University of Toronto, First Faculty of Medicine, Charles University [Prague] (CU), Université Lille Nord de France (COMUE), University Medical Center [Utrecht], Department of Human Genetics, Radboud University Medical Center [Nijmegen], Unité de Catalyse et Chimie du Solide - UMR 8181 (UCCS), Centrale Lille Institut (CLIL)-Université d'Artois (UA)-Centrale Lille-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)-Université de Lille, Paediatrics, Beatrix Children's Hospital/University Medical Center Groningen, Unité de Glycobiologie Structurale et Fonctionnelle UMR 8576 (UGSF), Institut National de la Recherche Agronomique (INRA)-Université de Lille-Centre National de la Recherche Scientifique (CNRS), Charles University [Prague], Unité de Catalyse et de Chimie du Solide - UMR 8181 (UCCS), Université d'Artois (UA)-Ecole Centrale de Lille-Ecole Nationale Supérieure de Chimie de Lille (ENSCL)-Université de Lille-Centre National de la Recherche Scientifique (CNRS), Unité de Glycobiologie Structurale et Fonctionnelle - UMR 8576 (UGSF), Université de Lille-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Recherche Agronomique (INRA), Laboratory Medicine, AGEM - Endocrinology, metabolism and nutrition, AGEM - Inborn errors of metabolism, Amsterdam Neuroscience - Cellular & Molecular Mechanisms, NCA - Brain mechanisms in health and disease, Human genetics, Amsterdam Neuroscience - Complex Trait Genetics, Université d'Artois (UA)-Centrale Lille-Institut de Chimie du CNRS (INC)-Université de Lille-Centre National de la Recherche Scientifique (CNRS), and Université de Lille-Centre National de la Recherche Scientifique (CNRS)

Subjects

Male, 0301 basic medicine, N-GLYCAN, HOMEOSTASIS, Glycosylation, Cancer development and immune defence Radboud Institute for Molecular Life Sciences [Radboudumc 2], [SDV]Life Sciences [q-bio], lnfectious Diseases and Global Health Radboud Institute for Molecular Life Sciences [Radboudumc 4], Golgi Apparatus, Compound heterozygosity, DISEASE, Cohort Studies, Congenital Disorders of Glycosylation, Peptide-N4-(N-acetyl-beta-glucosaminyl) Asparagine Amidase, Missense mutation, Genetics(clinical), Exome, Glycomics, Zebrafish, ComputingMilieux_MISCELLANEOUS, Cells, Cultured, Genetics (clinical), Genetics & Heredity, chemistry.chemical_classification, SEVERE INTELLECTUAL DISABILITY, Symporters, biology, Metabolic Disorders Radboud Institute for Molecular Life Sciences [Radboudumc 6], Genomics, General Medicine, DEFECTS, Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], [SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Biomolecules [q-bio.BM], Pedigree, Cell biology, Transport protein, DEFICIENCY, Protein Transport, Phenotype, symbols, Female, ENAMEL, Life Sciences & Biomedicine, Adult, Biochemistry & Molecular Biology, DISORDERS, Organic Anion Transporters, Sodium-Dependent, PHENOTYPES, DIAGNOSIS, TRANSFERRIN, Young Adult, 03 medical and health sciences, symbols.namesake, All institutes and research themes of the Radboud University Medical Center, Calcification, Physiologic, Genetics, Animals, Humans, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, BIOSYNTHESIS, [SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Biochemistry [q-bio.BM], Molecular Biology, Bone Diseases, Developmental, Science & Technology, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], MUTATIONS, Infant, Heterozygote advantage, Fibroblasts, Golgi apparatus, biology.organism_classification, Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11], 030104 developmental biology, chemistry, Mutation, Glycoprotein

Abstract

Genomics methodologies have significantly improved elucidation of Mendelian disorders. The combination with high-throughput functional-omics technologies potentiates the identification and confirmation of causative genetic variants, especially in singleton families of recessive inheritance. In a cohort of 99 individuals with abnormal Golgi glycosylation, 47 of which being unsolved, glycomics profiling was performed of total plasma glycoproteins. Combination with whole-exome sequencing in 31 cases revealed a known genetic defect in 15 individuals. To identify additional genetic factors, hierarchical clustering of the plasma glycomics data was done, which indicated a subgroup of four patients that shared a unique glycomics signature of hybrid type N-glycans. In two siblings, compound heterozygous mutations were found in SLC10A7, a gene of unknown function in human. These included a missense mutation that disrupted transmembrane domain 4 and a mutation in a splice acceptor site resulting in skipping of exon 9. The two other individuals showed a complete loss of SLC10A7 mRNA. The patients' phenotype consisted of amelogenesis imperfecta, skeletal dysplasia, and decreased bone mineral density compatible with osteoporosis. The patients' phenotype was mirrored in SLC10A7 deficient zebrafish. Furthermore, alizarin red staining of calcium deposits in zebrafish morphants showed a strong reduction in bone mineralization. Cell biology studies in fibroblasts of affected individuals showed intracellular mislocalization of glycoproteins and a defect in post-Golgi transport of glycoproteins to the cell membrane. In contrast to yeast, human SLC10A7 localized to the Golgi. Our combined data indicate an important role for SLC10A7 in bone mineralization and transport of glycoproteins to the extracellular matrix. ispartof: HUMAN MOLECULAR GENETICS vol:27 issue:17 pages:3029-3045 ispartof: location:England status: published

Published

2018

45. Urine oligosaccharide screening by MALDI-TOF for the identification of NGLY1 deficiency

Author

Patricia L. Hall, Kimiyo Raymond, William A. Gahl, Carlos Ferreira, Lynne A. Wolfe, Hudson H. Freeze, Christina Lam, Gerard T. Berry, Kim K. Nickander, John J. Alexander, Caroline M. Watson, Jon D. Sharer, and Ghazia Asif

Subjects

Male, 0301 basic medicine, Analyte, Adolescent, Aspartylglucosaminuria, Endocrinology, Diabetes and Metabolism, Population, Oligosaccharides, Urine, Tandem mass spectrometry, Biochemistry, Young Adult, 03 medical and health sciences, Congenital Disorders of Glycosylation, Endocrinology, Tandem Mass Spectrometry, Genetics, medicine, Humans, Peptide-N4-(N-acetyl-beta-glucosaminyl) Asparagine Amidase, Child, education, NGLY1, Molecular Biology, Exome, chemistry.chemical_classification, education.field_of_study, business.industry, Infant, Oligosaccharide, medicine.disease, 030104 developmental biology, chemistry, Child, Preschool, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Immunology, Female, business, Biomarkers

Abstract

N-glycanase deficiency (NGLY1 deficiency, NGLY1-CDDG), the first autosomal recessive congenital disorder of N-linked deglycosylation (CDDG), is caused by pathogenic variants in NGLY1. The majority of affected individuals have been identified using exome or genome sequencing. To date, no reliable, clinically available biomarkers have been identified. Urine oligosaccharide analysis was included as part of a routine evaluation for possible biomarkers in patients with confirmed NGLY1-CDDG. During the qualitative review of oligosaccharide profiles by an experienced laboratory director an abnormal analyte with a proposed structure of Neu5Ac1Hex1GlcNAc1-Asn was identified in NGLY1-CDDG patient urine samples. The same species has been observed in profiles from individuals affected with aspartylglucosaminuria, although the complete spectra are not identical. Additional studies using tandem mass spectrometry confirmed the analyte's structure. In addition to the known NGLY1-CDDG patients identified by this analysis, a single case was identified in a population referred for clinical testing who subsequently had a diagnosis of NGLY1-CDDG confirmed by molecular testing. Urine oligosaccharide screening by MALDI-TOF MS can identify individuals with NGLY1-CDDG. In addition, this potential biomarker might also be used to monitor the effectiveness of therapeutic options as they become available.

Published

2018

46. Biallelic Mutations in FUT8 Cause a Congenital Disorder of Glycosylation with Defective Fucosylation

Author

David Kronn, Susan A. Berry, Eissa Faqeih, Sharon F. Suchy, Carlito B. Lebrilla, Hudson H. Freeze, Nandini Chandy, Deepali N. Shinde, Kelly Radtke, Kimiyo Raymond, Zöe Powis, Gege Xu, Ali Alasmari, Bobby G. Ng, and Joan Steyermark

Subjects

Male, 0301 basic medicine, Glycosylation, Messenger, medicine.disease_cause, Compound heterozygosity, Medical and Health Sciences, chemistry.chemical_compound, Exon, Fatal Outcome, Lectins, 2.1 Biological and endogenous factors, Aetiology, Child, Cells, Cultured, Genetics (clinical), Fucosylation, Pediatric, Genetics & Heredity, Mutation, Cultured, Biological Sciences, Fucosyltransferases, Child, Preschool, Female, Fucosyltransferase, Cells, Biology, 03 medical and health sciences, Polysaccharides, Clinical Research, Report, Genetics, medicine, Humans, RNA, Messenger, Preschool, Alleles, Loss function, Fucose, 030102 biochemistry & molecular biology, Fibroblasts, medicine.disease, Molecular biology, Alternative Splicing, 030104 developmental biology, chemistry, biology.protein, RNA, Congenital disorder of glycosylation

Abstract

Fucosyltransferase 8 (FUT8) encodes a Golgi-localized α1,6 fucosyltransferase that is essential for transferring the monosaccharide fucose into N-linked glycoproteins, a process known as "core fucosylation." Here we describe three unrelated individuals, who presented with intrauterine growth retardation, severe developmental and growth delays with shortened limbs, neurological impairments, and respiratory complications. Each underwent whole-exome sequencing and was found to carry pathogenic variants in FUT8. The first individual (consanguineous family) was homozygous for c.715C>T (p.Arg239∗), while the second (non-consanguineous family) was compound heterozygous for c.1009C>G (p.Arg337Gly) and a splice site variant c.1259+5G>T. The third individual (consanguineous family) was homozygous for a c.943C>T (p.Arg315∗). Splicing analysis confirmed the c.1259+5G>T resulted in expression of an abnormal FUT8 transcript lacking exon 9. Functional studies using primary fibroblasts from two affected individuals revealed a complete lack of FUT8 protein expression that ultimately resulted in substantial deficiencies in total core fucosylated N-glycans. Furthermore, serum samples from all three individuals showed a complete loss of core fucosylation. Here, we show that loss of function mutations in FUT8 cause a congenital disorder of glycosylation (FUT8-CDG) characterized by defective core fucosylation that phenotypically parallels some aspects of the Fut8-/- knockout mouse. Importantly, identification of additional affected individuals can be easily achieved through analysis of core fucosylation of N-glycans.

Published

2018

47. ALG8-CDG: new insights into an ultra-rare CDG

Author

Rita Barone, Nicole Engelhardt, Hudson H. Freeze, Christina Lam, Daniah Albokhari, Earnest James Paul Daniel, Miao He, Kimiyo Raymond, Bobby G. Ng, Andrew C. Edmondson, and Eva Morava-Kozicz

Subjects

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

Published

2021

48. How does plasma oxysterols analysis compare to fibroblast filipin staining for diagnosis of Niemann-Pick C disease?

Author

Devin Oglesbee, Kimiyo Raymond, Gisele Pino, Dawn Peck, Dietrich Matern, Sara Minnich, Amy L. White, Piero Rinaldo, Dimitar Gavrilov, April Studinski, Coleman T. Turgeon, and Silvia Tortorelli

Subjects

Pathology, medicine.medical_specialty, Chemistry, Endocrinology, Diabetes and Metabolism, Biochemistry, Filipin, Staining, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, Genetics, medicine, Fibroblast, Molecular Biology

Published

2021

49. Comparison of psychosine analysis in dried blood spots and red blood cells in Krabbe disease

Author

Joanne Kurtzberg, Vinod K. Prasad, Devin Oglesbee, Jennifer Rubin, April Studinski, Piero Rinaldo, Silvia Tortorelli, Martin G. Bialer, Laura Pisani, Kimiyo Raymond, Sharon Chen, Peter R. Baker, Alanna Strong, Amy L. White, Nicole Engelhardt, Rachel Hickey, Dietrich Matern, Joseph J. Orsini, George E. Hoganson, Leighann Sremba, Maria L. Escolar, Dawn Peck, Michael H. Gelb, Adam J. Guenzel, Dimitar Gavrilov, Jennifer Burton, Gisele Pino, and Coleman T. Turgeon

Subjects

Pathology, medicine.medical_specialty, Spots, Endocrinology, Diabetes and Metabolism, Biology, medicine.disease, Biochemistry, Endocrinology, Genetics, Krabbe disease, medicine, Psychosine, Dried blood, Molecular Biology

Published

2021

50. A Droplet Digital PCR Method for Severe Combined Immunodeficiency Newborn Screening

Author

Dietrich Matern, Kimiyo Raymond, Roshini S. Abraham, Piero Rinaldo, Devin Oglesbee, Dragana Milosevic, Ramanath Majumdar, Silvia Tortorelli, Dimitar Gavrilov, and Noemi Vidal-Folch

Subjects

Genetic Markers, Male, 0301 basic medicine, Receptors, Antigen, T-Cell, Real-Time Polymerase Chain Reaction, Sensitivity and Specificity, Workflow, Pathology and Forensic Medicine, 03 medical and health sciences, Neonatal Screening, Multiplex polymerase chain reaction, Humans, Medicine, Digital polymerase chain reaction, Multiplex, Lymphocytes, Severe combined immunodeficiency, Newborn screening, business.industry, Infant, Newborn, Infant, Reproducibility of Results, medicine.disease, Virology, Omenn syndrome, Transplantation, 030104 developmental biology, Real-time polymerase chain reaction, Case-Control Studies, Immunology, Molecular Medicine, Female, Severe Combined Immunodeficiency, business, Multiplex Polymerase Chain Reaction

Abstract

Severe combined immunodeficiency (SCID) benefits from early intervention via hematopoietic cell transplantation to reverse T-cell lymphopenia (TCL). Newborn screening (NBS) programs use T-cell receptor excision circle (TREC) levels to detect SCID. Real-time quantitative PCR is often performed to quantify TRECs in dried blood spots (DBSs) for NBS. Yet, real-time quantitative PCR has inefficiencies necessitating normalization, repeat analyses, or standard curves. To address these issues, we developed a multiplex, droplet digital PCR (ddPCR) method for measuring absolute TREC amounts in one DBS punch. TREC and RPP30 levels were simultaneously measured with a Bio-Rad AutoDG and QX200 ddPCR system. DBSs from 610 presumed-normal, 29 lymphocyte-profiled, and 10 clinically diagnosed infants (1 X-linked SCID, 1 RAG1 Omenn syndrome, and other conditions) were tested. Control infants showed 14 to 474 TREC copies/μL blood. SCID infants, and other TCL conditions, had ≤15 TREC copies/μL. The ddPCR lower limit of quantitation was 14 TREC copies/μL, and the limit of detection was 4 TREC copies/μL. Intra-assay and interassay imprecision was20% CV for DBSs at 54 to 60 TREC copies/μL. Testing 29 infants with known lymphocyte profiles resulted in a sensitivity of 88.9% and a specificity of 100% at TRECs20 copies/μL. We developed a multiplex ddPCR method for the absolute quantitation of DBS TRECs that can detect SCID and other TCL conditions associated with absent or low TRECs and validated this method for NBS.

Published

2017