Pathogenic variants in the NGLY1 gene are associated with a Congenital Disorder of Deglycosylation (CDDG) characterized by delays in reaching developmental milestones, complex hyperkinetic movement disorder, transient elevation of transaminases, and alacrima or hypolacrima. To date, only few cases of NGLY1 deficiency have been identified and reported in the literature. This report highlights a first child of non-consanguineous parents with no relevant family history who presented with hypotonia and poor weight gain since birth. At 2 months, the child developed paroxysmal cervical dystonia, posteriorly resolving spontaneously by age of 3. Subsequently, delays in reaching developmental milestones, ataxia, dyskinesia, visual impairment due to cone rod retinal dystrophy, low triglycerides, and persistently elevated liver transaminases were observed. Extensive etiological investigation was performed, including array-CGH and metabolic evaluation with no abnormalities to note. Trio whole exome analysis identified a homozygous pathogenic variant of the NGLY1 gene, c.1891del (p.Gln631Serfs*7), consistent with CDDG. Both parents were confirmed to be heterozygous carriers. The authors discuss in this case, the clinical presentation, the diagnostic challenges, and review other relevant NGLY1 deficiency cases previously reported in the literature. This case, along with the previous reported in the literature, indicates that pathogenic variants in NGLY1 cause a recognizable phenotype and should be considered in patients with a typical presentation.It also suggests that decreased sweating is not present universally in these patients.
K E Y W O R D Scongenital disorders of deglycosylation, dyskinesia, global developmental delay, NGLY1, whole exome sequencing
Trafficking protein particle (TRAPP) complexes, which include the TRAPPC4 protein, regulate membrane trafficking between lipid organelles in a process termed vesicular tethering. TRAPPC4 was recently implicated in a recessive neurodevelopmental condition in four unrelated families due to a shared c.454+3A>G splice variant. Here, we report 23 patients from 17 independent families with an early-infantile-onset neurodegenerative presentation, where we also identified the homozygous variant hg38:11:119020256 A>G (NM_016146.5:c.454+3A>G) in TRAPPC4 through exome or genome sequencing. No other clinically relevant TRAPPC4 variants were identified among any of over 10,000 patients with neurodevelopmental conditions. We found the carrier frequency of TRAPPC4 c.454+3A>G was 2.4-5.4 per 10,000 healthy individuals. Affected individuals with the homozygous TRAPPC4 c.454+3A>G variant showed profound psychomotor delay, developmental regression, early-onset epilepsy, microcephaly and progressive spastic tetraplegia. Based upon RNA sequencing, the variant resulted in partial exon 3 skipping and generation of an aberrant transcript owing to use of a downstream cryptic splice donor site, predicting a premature stop codon and nonsense mediated decay. These data confirm the pathogenicity of the TRAPPC4 c.454+3A>G variant, and refine the clinical presentation of TRAPPC4-related encephalopathy.
Introduction: Epileptic encephalopathies of childhood are characterized by early seizure-onset and adverse neurological outcomes. The development of new genetic techniques has allowed an exponential identification of the genes that are involved. Over the last years, we have observed a revolution in the diagnostic paradigm. However, there are no international guidelines regarding the diagnosis of genetic epileptic encephalopathies. We aim to discuss the current knowledge about the genetic architecture of epileptic encephalopathies of childhood.Material and Methods: review of the literature about infantile epileptic encephalopathies and the genetic tests currently available. A systematic approach and a diagnostic algorithm to use in clinical practice were proposed.Results: Initially the patient’s phenotype should be determined based on the seizure type, electroencephalogram pattern and neuroimaging. Patients with unclear etiology after brain magnetic resonance imaging should undergo an appropriate metabolic investigation to promptly exclude treatable conditions. Further studies should also include other genetic causes, mainly if associated with particular phenotypic features. Chromosomal microarray analysis should be firstly considered, particularly if dysmorphic or polymalformative abnormalities are present. If this is negative and/or there are no physical features, the next step should be next-generation sequencing multigene panels or whole-exome sequencing. Single gene study should only be considered when the patient’s phenotype is highly suggestive of a specific syndrome.Conclusion: The revolution of the genetic knowledge about epileptic encephalopathies of childhood has led to a complex diagnostic approach. This new paradigm poses significant implications in genetic counselling, treatment and prognosis.
We report a healthy 14-year-old boy with an acute left middle cerebral artery stroke, treated 2 hours after the onset of symptoms with intravenous recombinant tissue plasminogen activator (r-TPA). Recanalization of the middle cerebral artery was documented with transcranial Doppler during the first 5 minutes of intravenous r-TPA perfusion, and progressive recovery of the neurological deficits occurred. Although lack of evidence regarding safety and efficacy in children precludes the recommendation of systematic use of r-TPA in pediatric stroke, we propose that this option should be considered and discussed with the parents, especially in older children presenting within 3 hours in centers with experience in adult thrombolysis.
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