Mannosyl‐oligosaccharide glucosidase – congenital disorder of glycosylation: A patient with novel variants

Ota, Mikito; Miyahara, Jun; Itano, Ayumi; Sugiura, Hiroshi; Ohki, Shigeru

doi:10.1111/ped.14110

Cited by 6 publications

(14 citation statements)

References 4 publications

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“…Seven individuals had a developmental and epileptic encephalopathy (DEE) characterised by frequent epileptiform activity with developmental regression or plateauing 28. EEG demonstrated typical DEE findings such as suppression-burst (P3 and P12), hypsarrhythmia (P6) and frequent multifocal epileptiform discharges as previously described 5 9–11. Seizure onset occured early, with seven probands having neonatal onset5 9–11 (online supplemental table S1).…”

Section: Discussionmentioning

confidence: 67%

“…Bi-allelic pathogenic variants in MOGS underlie MOGS-CDG, previously known as CDG-IIb (OMIM;606056), presenting with systemic manifestations and variable severity 5–11. Recently, there has been an increasing utilisation of next-generation sequencing for clinical application, but there is also a corresponding increase in the number of variants of unknown significance (VUS) that could not readily be subjected for functional validation, posing a challenge to clinicians in determining a precise diagnosis.…”

Section: Introductionmentioning

confidence: 99%

“…Thus, it is important to define molecular and biochemical tools that can solidify a diagnosis. While the majority of CDGs can be identified through carbohydrate deficient transferrin (CDT) testing in blood, some CDGs, including MOGS-CDG, will not be reliably detected using this methodology 5 9 11 12…”

Section: Introductionmentioning

confidence: 99%

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Clinical, biochemical and genetic characteristics of MOGS-CDG: a rare congenital disorder of glycosylation

Shimada

White

et al. 2022

J Med Genet

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PurposeTo summarise the clinical, molecular and biochemical phenotype of mannosyl-oligosaccharide glucosidase-related congenital disorders of glycosylation (MOGS-CDG), which presents with variable clinical manifestations, and to analyse which clinical biochemical assay consistently supports diagnosis in individuals with bi-allelic variants inMOGS.MethodsPhenotypic characterisation was performed through an international and multicentre collaboration. Genetic testing was done by exome sequencing and targeted arrays. Biochemical assays on serum and urine were performed to delineate the biochemical signature of MOGS-CDG.ResultsClinical phenotyping revealed heterogeneity in MOGS-CDG, including neurological, immunological and skeletal phenotypes. Bi-allelic variants inMOGSwere identified in 12 individuals from 11 families. The severity in each organ system was variable, without definite genotype correlation. Urine oligosaccharide analysis was consistently abnormal for all affected probands, whereas other biochemical analyses such as serum transferrin analysis was not consistently abnormal.ConclusionThe clinical phenotype of MOGS-CDG includes multisystemic involvement with variable severity. Molecular analysis, combined with biochemical testing, is important for diagnosis. In MOGS-CDG, urine oligosaccharide analysis via matrix-assisted laser desorption/ionisation time-of-flight mass spectrometry can be used as a reliable biochemical test for screening and confirmation of disease.

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Section: Discussionmentioning

confidence: 67%

Section: Introductionmentioning

confidence: 99%

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Clinical, biochemical and genetic characteristics of MOGS-CDG: a rare congenital disorder of glycosylation

Shimada

White

et al. 2022

J Med Genet

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“…Based on our findings and those previously reported in eight patients, we defined a recognizable phenotype in CDG-IIb that comprised neurological symptoms including intractable seizures as early infantile epileptic encephalopathy, severe developmental delay, generalized hypotonia and microcephaly, hepatic dysfunction, and dysmorphic features, such as a broad nose, high arched palate, coarse face, arthrogryposis, overlapping fingers, hypertrichosis, and hypoplastic genitalia (Table 1) [5][6][7][8][9][10]. We noted that most patients had hearing impairment, potentially representing an additionally recognizable clinical feature of CDG-IIb.…”

Section: Discussionmentioning

confidence: 89%

“…Moreover, they described the pathological findings including cholangiofibrosis, myelin-like lamellar in the cytoplasm of hepatocytes, ballooning in neurons, and empty-looking vacuoles in the neuronal perikaryon; they detected tetrasaccharides in the urine specimen as a degraded product of unprocessed N-glycans [5]. Recently, a total of 8 cases of CDG-IIb with MOGS mutations have been reported (Table 1) [6][7][8][9][10]. Isoelectric focusing of transferrin (IEF-T) was performed in four patients, and three of four patients had a normal IEF-T profile.…”

Section: Introductionmentioning

confidence: 99%

Congenital disorders of glycosylation type IIb with MOGS mutations cause early infantile epileptic encephalopathy, dysmorphic features, and hepatic dysfunction

Anzai

Tsuji

Yamashita

et al. 2021

Brain and Development

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Aim: MOGS mutations cause congenital disorders of glycosylation type IIb (CDG-IIb or GCS1-CDG). The specific manifestations caused by the mutations in this gene remain unknown. We aimed to describe the clinical features of CDG-IIb and the effectiveness of urinary oligosaccharide analysis in the diagnosis of CDG-IIb. Methods: Patient 1 was analyzed with whole-exome sequencing (WES) to identify the causative gene of intractable epilepsy and severe developmental delay. After detecting MOGS mutation in patient 1, we analyzed patients 2 and 3 who were siblings and had clinical features similar to those in patient 1. Urinary oligosaccharide analysis was performed to confirm CDG-IIb diagnosis in patient 1. The clinical features of these patients were analyzed and compared with those in eight published cases. Results: Our three patients presented with early infantile epileptic encephalopathy, generalized hypotonia, hepatic dysfunction and dysmorphic features. In two cases, compound heterozygous mutations in MOGS were identified by WES. Isolation and characterization of the urinary oligosaccharide was performed in one of these cases to confirm the diagnosis of CDG-IIb. Although the isoelectric focusing of transferrin (IEF-T) of serum in this patient was normal, urinary excretion of Hex 4 corresponding to Glc 3 Man was observed by mass spectrometry. Conclusion: This report provides clinical manifestations of CDG-IIb with MOGS mutation. CDG-IIb shows a normal IEF profile of serum transferrin and cannot be detected by structural analysis of the patient's glycoproteins. Characterization of urinary oligosaccharides should be considered to detect this disorder.

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MOGS‐CDG: Quantitative analysis of the diagnostic Glc₃Man tetrasaccharide and clinical spectrum of six new cases

Post

Wit

Zijlstra

et al. 2023

J of Inher Metab Disea

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Mannosyl‐oligosaccharide glucosidase – congenital disorder of glycosylation: A patient with novel variants

Cited by 6 publications

References 4 publications

Clinical, biochemical and genetic characteristics of MOGS-CDG: a rare congenital disorder of glycosylation

Clinical, biochemical and genetic characteristics of MOGS-CDG: a rare congenital disorder of glycosylation

Congenital disorders of glycosylation type IIb with MOGS mutations cause early infantile epileptic encephalopathy, dysmorphic features, and hepatic dysfunction

MOGS‐CDG: Quantitative analysis of the diagnostic Glc₃Man tetrasaccharide and clinical spectrum of six new cases

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Mannosyl‐oligosaccharide glucosidase – congenital disorder of glycosylation: A patient with novel variants

Cited by 6 publications

References 4 publications

Clinical, biochemical and genetic characteristics of MOGS-CDG: a rare congenital disorder of glycosylation

Clinical, biochemical and genetic characteristics of MOGS-CDG: a rare congenital disorder of glycosylation

Congenital disorders of glycosylation type IIb with MOGS mutations cause early infantile epileptic encephalopathy, dysmorphic features, and hepatic dysfunction

MOGS‐CDG: Quantitative analysis of the diagnostic Glc3Man tetrasaccharide and clinical spectrum of six new cases

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MOGS‐CDG: Quantitative analysis of the diagnostic Glc₃Man tetrasaccharide and clinical spectrum of six new cases