Advances in the diagnosis and treatment of phosphomannomutase 2 deficiency / 中国当代儿科杂志

Phosphomannomutase 2 deficiency is the most common form of N-glycosylation disorders and is also known as phosphomannomutase 2-congenital disorder of glycosylation (PMM2-CDG). It is an autosomal recessive disease with multi-system involvements and is caused by mutations in the PMM2 gene (OMIM: 601785), with varying severities in individuals. At present, there is still no specific therapy for PMM2-CDG, and early identification, early diagnosis, and early treatment can effectively prolong the life span of pediatric patients. This article reviews the advances in the diagnosis and treatment of PMM2-CDG.

Analysis of SLC35A2 gene variant in a child with congenital disorder of glycosylation type IIm / 中华医学遗传学杂志

OBJECTIVE@#To investigate the clinical features and SLC35A2 variant of a case of congenital disorder of glycosylation type IIm (CDG-IIm), and to identify the possible causes of the disease.@*METHODS@#Trio-whole exome sequencing (WES) was used to analyze the gene variant of the children and their parents. The suspicious gene variants were screened for Sanger verification and the bioinformatics prediction was used to analyze the hazard of variant.@*RESULTS@#The clinical manifestations of the child were epilepsy, global growth retardation, nystagmus, myocarditis and other symptoms. MRI showed brain dysplasia such as wide frontal temporal sulcus and subarachnoid space on both sides. Echocardiography showed left ventricular wall thickening and patent foramen ovale. According to the results of gene detection, there was a heterozygous missense variant c.335C>A (p.Thr112Lys) in SLC35A2 gene. The parents were wild-type at this locus, which was a de novo variant. At the same time, there was no report of this variant in the relevant literature, which was a novel variant in SLC35A2 gene. According to the genetic variant guidelines of American College of Medical Genetics and Genomics, SLC35A2 gene c.335C>A (p.Thr112Lys) variant was predicted to be likely pathogenic (PS2+PM2+PP3).@*CONCLUSION@#The variant of SLC35A2 gene c.335C>A(p.Thr112Lys) may be the cause of the disease in the child.

Transferrin isoelectric focusing for the investigation of congenital disorders of glycosylation: analysis of a ten-year experience in a Brazilian center / Isoeletrofocalização da transferrina para investigação das doenças congênitasda glicosilação: análise de dez anos de experiência de um centro brasileiro

Abstract Objectives: To characterize cases of suspected congenital disorders of glycosylation (CDG) investigated in a laboratory in southern Brazil using the transferrin isoelectric focusing TfIEF test from 2008 to 2017. Method: Observational, cross-sectional, retrospective study. The laboratory records of 1,546 individuals (median age = 36 months, 25-75 IQR = 10-108; males = 810) submitted to the TfIEF test during the period were reviewed. Results: Fifty-one individuals (3%) had an altered TfIEF pattern (5 ± 2.8 cases/year; median age = 24 months, 25-75 IQR = 11-57 months; males = 27, 53%). For 14 of them, data on diagnosis conclusion were available (classic galactosemia = 4; hereditary fructose intolerance = 4; peroxisomal diseases = 2; PMM2-CDG = 2; MPDU1-CDG = 1; SLC35A2-CDG = 1).Comparing the cases with the normal and altered TfIEF patterns, there was a higher prevalence of altered cases in the age group from 11 months to 3 years. There was an increase in the likelihood of change in TfIEF, especially in the presence of inverted nipples or liver disease. Conclusions: The data suggest that the investigation of a case with suspected CDG is a complex problem, being aggravated by the existence of other IEMs (inborn errors of metabolism) associated with altered TfIEF pattern and lack of access to confirmatory tests. The presence of inverted nipples and liver disease, especially in individuals aged 11 months to 3 years, should suggest the need for TfIEF investigation.

Resumo Objetivos: Caracterizar os casos com suspeita de CDG investigados em laboratório do sul do Brasil pelo exame de IEFTF de 2008 a 2017. Metodologia: Estudo observacional, transversal, retrospectivo. Foram revisadas as fichas laboratoriais de 1.546 indivíduos (mediana de idade = 36 meses, IQ 25-75 = 10-108; sexo masculino = 810) que fizeram o exame de IEFTF no período. Resultados: Cinquenta e um indivíduos (3%) apresentaram padrão alterado na IEFTF (5 ± 2,8 casos/ano; mediana de idade = 24 meses, IQ 25-75 = 11-57 meses; sexo masculino = 27, 53%). Para 14 deles, estavam disponíveis dados sobre a conclusão do diagnóstico (galactosemia clássica = 4; intolerância hereditária à frutose = 4; doenças peroxissomais = 2; PMM2-CDG = 2; MPDU1-CDG = 1; SLC35A2-CDG = 1). Comparando os casos com padrão normal e alterado na IEFTF, houve maior prevalência de casos alterados na faixa etária de 11 meses a 3 anos. Verificou-se um aumento na probabilidade de alteração na IEFTF principalmente na presença de mamilos invertidos ou de hepatopatia. Conclusões: Os nossos dados sugerem que a investigação de um caso com suspeita de CDG é complexa, é agravada pela existência de outros EIM associados a padrão alterado na IEFTF e pela falta de acesso a exames confirmatórios. A presença principalmente de mamilos invertidos e de hepatopatia em indivíduos na faixa etária de 11 meses a 3 anos deve sugerir a necessidade de investigação por IEFTF.

Prenatal presentation of a rare genetic disorder: a clinical, autopsy and molecular correlation

Walker Warburg syndrome (WWS) lies at the severe end of the spectrum of the congenital muscular dystrophies. WWS is a congenital disorder of the O-glycosylation that disrupts in the post-translation modification of dystroglycan proteins. WWS is characterized by the involvement of the central nervous system and rarely by multisystem involvement. Next-generation sequencing discovered that multiple genes are associated with this disorder. FKTN is the rarest cause of WWS. We describe a clinical-autopsy report of a molecularly- confirmed WWS case presenting with ventriculomegaly, agenesis of the corpus callosum with a novel phenotype of Dandy-Walker malformation and unilateral multi-cystic kidney. The whole-exome sequencing confirmed a homozygous variant (c.411C>A) in the FKTN gene with a premature termination codon. This case emphasizes the importance of detailed postnatal phenotyping through an autopsy in any pregnancy with antenatally identified malformations. Obstetricians, pediatricians as well as fetal medicine experts need to counsel the parents and focus on preserving the appropriate sample for genetic testing. WWS, though rare deserves testing especially in the presence of positive family history. Dandy-Walker malformation is a novel feature and expands the phenotypic spectrum.

Método microespectrofotométrico para la determinación de valores de referencia de la fosfomanosa isomerasa / A Microspectrophotometric Method for the Determination of Reference Values of Phosphomannose Isomerase / Método microespectrofotométrico para determinar valores de referência da fosfomanose isomerase

Resumen: Los desórdenes congénitos de glicosilación son un conjunto de defectos genéticos de tipo multisistémico que afectan la función de la proteína. Se han descrito cerca de 75 enfermedades desde sus primeros estudios. En el presente estudio se desarrolló un método microespectrofotométrico para el diagnóstico de la enzima citosólica fosfomanosa isomerasa EC 5.3.1.8 (PMI), se analizaron 32 muestras de individuos con rango de edad de 0,6 a 27 años y se estableció el intervalo y el valor de referencia de actividad enzimática específica. Este estudio permitirá iniciar el diagnóstico de pacientes deficientes de la PMI de forma temprana y oportuna, lo cual la convierte en una posible enzima candidata para pruebas de tamizaje neonatal, ya que esta patología tiene un tratamiento fácil y de bajo costo, que consiste en la suplementación de manosa en forma oral. El diagnóstico clínico de este desorden metabólico beneficiará al paciente y a su familia al mejorar su calidad de vida, como también al sistema de salud colombiano.

Abstract: Congenital glycosylation disorders are a set of multi-systemic genetic defects affecting protein function. About 75 diseases have been described since early studies. This study developed a microspectrophotometric method for the diagnosis of the cytosolic enzyme phosphomannose isomerase (PMI) (EC 5.3.1.8), analyzed 32 samples of individuals ranging between 0.6 and 27 years old, and established the interval and reference value of specific enzyme activity. This study will allow early and timely diagnosis of PMI deficient patients, which makes this enzyme a potential candidate for neonatal screening tests since this pathology has an easy, low-cost treatment (oral administration of mannose supplements). Clinical diagnosis of this metabolic disorder will benefit the patient and his family by improving his quality of life, as well as the Colombian healthcare system.

Resumo: Os defeitos congénitos de glicosilação são um conjunto de defeitos genéticos de tipo mul-tissistêmico que afetam a função da proteína. Foram descritas 75 doenças desde seus primeiros estudos. Neste estudo, foi desenvolvido um método microespectrofotométrico para diagnosticar a enzima citosólica fosfomanose isomerase EC 5.3.1.8 (PMI); foram analisadas 32 amostras de indivíduos entre 0,6 e 27 anos e estabelecidos o intervalo e o valor de referência de atividade enzimática específica. Este estudo permitirá iniciar o diagnóstico de pacientes deficientes da PMI de forma precoce e oportuna, o que a converte em uma possível enzima candidata para testes genéticos de rastreio pré-natal, já que essa patologia tem um tratamento fácil e de baixo custo, que consiste na suplementação de manose por via oral. O diagnóstico clínico desse defeito metabólico beneficiará o paciente e sua família ao melhorar a qualidade de vida e o sistema de saúde colombiano.

Analysis of PMM2 gene variant in an infant with congenital disorders of glycosylation type 1a / 中华医学遗传学杂志

OBJECTIVE@#To identify potential mutation of PMM2 gene in an infant with congenital disorders of glycosylation type 1a (CDG-1a).@*METHODS@#Genomic DNA was extracted from peripheral blood sample of the patient. All coding exons (exons 1-8) and splicing sites of the PMM2 gene were amplified with PCR. Potential variants were detected by direct sequencing of the PCR products and comparing the results against the ESP and SNP human gene databases. A protein BLAST system was employed to analyze cross-species conservation of the variants amino acid. A PubMed BLAST CD-search system was employed to identify functional domains damaged by variants of the PMM2 gene. Impact of potential variants was analyzed using software including PolyPhen-2 SIFT and Mutation Taster. Whole exome sequencing was used to identify additional variants of the PMM2 gene which may explain the condition of the patient.@*RESULTS@#The child was found to carry compound heterozygous variants (c.458_462delTAAGA and c.395T>C) of the PMM2 gene, which were inherited respectively from his father and mother. The c.458_462delTAAGA has not been reported previously and may result in disruption of 10 functional domains within the PMM2 protein. The c.395T>C mutation has been recorded by a SNP database with frequency unknown. Both mutations were predicted as "probably damaging". Whole exome sequencing has identified no additional disease-causing variant which can explain the patient's condition.@*CONCLUSION@#The patient's condition may be attributed to the compound heterozygous variants c.458_462delTAAGA and c.395T>C of the PMM2 gene. Above results has facilitated molecular diagnosis for the patient.

Clinical and genetic analysis for two children with congenital disturbance of glycosylation with PMM2 gene mutations / 中华儿科杂志

<p><b>OBJECTIVE</b>To analyze the clinical and PMM2 gene mutation features of congenital disturbance of glycosylation caused by PMM2 gene mutation (PMM2-CDG, previously known as CDG 1a).</p><p><b>METHOD</b>The clinical data of two Chinese patients who were clinically diagnosed as PMM2-CDG at neurology department of Beijing Children's Hospital in 2012 were retrospectively collected. The gene mutations were identified by Sanger sequencing.</p><p><b>RESULT</b>Both patients were female, aged 1 year and 1 month and 8 months respectively. The main clinical features of the two cases were developmental delay after birth, chronic diarrhea and metabolic acidosis, associated with elevated serum transaminases, and decreased antithrombin III activity. Physical examination showed esotropia, inverted nipples, and abnormal subcutaneous fat pads. The cranial MRI showed cerebellar atrophy. Both cases were treated with occupational therapy, physical therapy and speech therapy. The development was gradually improved but also delayed as compared with normal peers during follow-up for more than 3 years. Genetic analysis showed that patient 1 was compound heterozygous for c. 422G>A(p.Arg141His), which was reported for known pathogenic mutation, and c. 669C>A(p.Asp223Glu), was a new mutation. The patient 2 showed compound heterozygous mutation for c. 634A>G (p.Met212Val)and c. 713G>C(p.Arg238Pro), which were both new mutations.</p><p><b>CONCLUSION</b>PMM2-CDG is a rare metabolic disease, and the diagnosis should be considered in a child with developmental delay, elevated serum transaminases, decreased antithrombin III activity, inverted nipples, abnormal subcutaneous fat pads, esotropia, and cerebellar atrophy on MRI. It can be confirmed by PMM2 gene analysis.</p>

Hiperinsulinismo na infância: quando apenas uma dosagem de insulina não é suficiente / Hyperinsulinism in infancy and childhood: when an insulin level is not always enough

INTRODUÇÃO: A hipoglicemia em bebês e crianças pode causar convulsões, atraso de desenvolvimento e dano cerebral permanente. O hiperinsulinismo (HI) é a causa mais comum de hipoglicemia, seja transitória ou permanente. A HI é caracterizada pela secreção inadequada de insulina, o que resulta em hipoglicemia persistente, de leve a grave. As diferentes formas de HI representam um grupo de doenças clínica, genética e morfologicamente heterogêneo. CONTEÚDO: Hiperinsulinismo congênito está associado às mutações de SUR-1 e Kir6.2, glucoquinase, glutamato desidrogenase, 3-hidroxiacil-CoA desidrogenase de cadeia curta e expressão ectópica de SLC16A1 na membrana plasmática das células beta. O HI pode estar associado ao estresse perinatal, como asfixia do nascimento, toxemia materna, prematuridade ou retardo do crescimento intra-uterino, resultando em hipoglicemia neonatal prolongada. Mimetismo de HI neonatal inclui pan-hipopituitarismo, hipoglicemia induzida por fármaco, insulinoma, anticorpos antiinsulina e estimuladores do receptor de insulina, síndrome de Beckwith-Wiedemann e distúrbios congênitos de glicosilação. Exames laboratoriais para HI podem incluir quantificação de glicose, insulina, β-hidroxibutirato, ácidos graxos, amônia e perfil de acilcarnitinas plasmáticos, além de ácidos orgânicos urinários. Os exames genéticos estão disponíveis em laboratórios comerciais para os genes sabidamente associados à hiperinsulinemia. Testes de resposta insulínica aguda (RIA) são úteis na caracterização fenotípica. Exames de imagem e histológicos também estão disponíveis para diagnosticar e classificar o HI. O objetivo do tratamento de crianças com HI é prevenir os danos cerebrais da hipoglicemia, mantendo níveis de glicose plasmática acima de 70mg/dl por terapia farmacológica ou cirúrgica. CONCLUSÃO:A terapêutica do HI requer abordagem multidisciplinar que inclui endocrinologistas pediátricos, radiologistas, cirurgiões e patologistas, os quais são treinados para diagnosticar..

BACKGROUND: Hypoglycemia in infants and children can lead to seizures, developmental delay, and permanent brain damage. Hyperinsulinism (HI) is the most common cause of both transient and permanent disorders of hypoglycemia. HI is characterized by dysregulated insulin secretion, which results in persistent mild to severe hypoglycemia. The various forms of HI represent a group of clinically, genetically, and morphologically heterogeneous disorders. CONTENT: Congenital hyperinsulinism is associated with mutations of SUR-1 and Kir6.2, glucokinase, glutamate dehydrogenase, short-chain 3-hydroxyacyl-CoA dehydrogenase, and ectopic expression of SLC16A1 on β-cell plasma membrane. Hyperinsulinism may be associated with perinatal stress such as birth asphyxia, maternal toxemia, prematurity or intrauterine growth retardation, resulting in prolonged neonatal hypoglycemia. Mimickers of hyperinsulinism include neonatal panhypopituitarism, drug-induced hypoglycemia, insulinoma, antiinsulin and insulin-receptor stimulating antibodies, Beckwith-Wiedemann Syndrome, and congenital glycosylation disorders. Laboratory testing for hyperinsulinism may include quantification of blood glucose, plasma insulin, plasma β-hydroxybutyrate, plasma fatty acids, plasma ammonia, plasma acylcarnitine profile and urine organic acids. Genetic testing is available at commercial laboratories for genes known to be associated with hyperinsulinism. Acute insulin response (AIR) tests are useful in phenotypic characterization. Imaging and histological tools are also available to diagnose and classify hyperinsulinism. The goal of treatment in infants with hyperinsulinism is to prevent brain damage from hypoglycemia by maintaining plasma glucose levels above 700 mg/l (70 mg/dl) through pharmacologic or surgical therapy. SUMMARY: The treatment of hyperinsulinism requires a multidisciplinary approach that includes pediatric endocrinologists, radiologists, surgeons, and pathologists who trained to diagnose...