A novel homozygous CHMP1A variant arising from segmental uniparental disomy causes pontocerebellar hypoplasia type 8.

Pontocerebellar hypoplasia (PCH) is currently classified into 16 subgroups. Using mostly next-generation sequencing, pathogenic variants have been identified in as many as 24 PCH-associated genes. PCH type 8 (PCH8) is a rare heterogeneous disorder. Its clinical presentation includes severe development delay, increased muscle tone, microcephaly, and magnetic resonance imaging (MRI) abnormalities such as reduced cerebral white matter, a thin corpus callosum, and brainstem and cerebellar hypoplasia. To date, only two variants in the CHMP1A gene (MIM: 164010), NM_002768.5: c.88 C > T (p.Glu30*) and c.28-13 G > A, have been identified homozygously in seven patients with PCH8 from four families (MIM: 614961). CHMP1A is a subunit of the endosomal sorting complex required for transport III (ESCRT-III), which regulates the formation and release of extracellular vesicles. Biallelic CHMP1A loss of function impairs the ESCRT-III-mediated release of extracellular vesicles, which causes impaired progenitor proliferation in the developing brain. Herein, we report a patient with PCH8 who had a homozygous CHMP1A variant, c.122delA (p.Asn41Metfs*2), which arose from segmental uniparental disomy. Although our patient had similar MRI findings to those of previously reported patients, with no progression, we report some novel neurological and developmental findings that expand our knowledge of the clinical consequences associated with CHMP1A variants.

[The effect of noninvasive positive pressure ventilation in children with severe motor and intellectual disabilities with respiratory insufficiency].

We investigated the clinical course of 20 children (persons) with severe motor and intellectual disabilities (SMID) who were treated with noninvasive positive pressure ventilation (NPPV) for respiratory insufficiency. NPPV was effective in 10 of 11 patients treated for acute respiratory failure, and in 7 of 9 patients treated for chronic respiratory failure. Twelve patients were treated with NPPV for more than one year. There were no complications associated with NPPV in any of the patients. NPPV improved ventilation impairment soon after ventilation was started, and avoided the need for the endtracheal intubation by adjusting airway management and the choice of mask in all but one of the patients with acute respiratory failure. NPPV in combination with wearing a chin strap was highly effective in patients with open state or upper airway obstruction. Five patients were successfully weaned off the ventilator soon after recovery from acute respiratory failure using NPPV, whereas 5 patients who continued NPPV during the chronic phase after recovery did not experience recurrent episodes of acute respiratory failure. We conclude that NPPV may be an effective treatment for SMID with respiratory insufficiency.

Newly identified milder phenotype of peroxisome biogenesis disorder caused by mutated PEX3 gene.

We identified the first patient with infantile Refsum disease (IRD), a milder phenotype of peroxisome biogenesis disorder (PBD) caused by a mutated PEX3, and investigated the clinical, molecular and cellular characterization in this patient. The patient presented psychomotor regression, late-onset leukodystrophy, peripheral neuropathy, hearing impairment, a renal cyst, and renal hypertension and survived until the age of 36. Furthermore, fibroblasts from the patient indicated a mosaic pattern of catalase-positive particles (peroxisomes) and numerous peroxisomal membrane structures. Molecular analysis was homozygous for the D347Y mutation and reduced gene expression of PEX3 which encodes a peroxisomal membrane protein, pex3p, involved in peroxisome assembly at the early stage of peroxisomal membrane vesicle formation, therefore, patients with a mutated PEX3 gene have been reported to have only a severe phenotype of Zellweger syndrome and no or less peroxisomal remnant membrane structure. This is not only a newly identified milder PBD caused by a mutated PEX3 gene but also the first report of a Japanese patient with IRD who had not been diagnosed until over 30years of age, which suggests there must be more variant PBD in patients with degenerative neurologic disorder, and to bring them to light is necessary.