Hsiao Huei Chen scite author profile

Ia afferents induce the formation of muscle spindles prenatally and maintain them postnatally. To address whether spindles, in turn, regulate the function of Ia afferents, we examined Egr3-null mutant mice (Egr3-/-), in which muscle spindles degenerate progressively after birth. Egr3-/- mice develop gait ataxia, scoliosis, resting tremors, and ptosis, suggesting a defect in proprioception. Despite the normal morphological appearance of peripheral and central sensory projections, we observed a profound functional deficit in the strength of sensory-motor connections in Egr3-/- mice. Muscle spindles in Egr3-/- mice do not express NT3. Intramuscular injections of NT3 to Egr3-/- mice during the postnatal period restored sensory-motor connections. Thus, NT3 derived from muscle spindles regulates the synaptic connectivity between muscle sensory and motor neurons.

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De novo mutation and skewed X‐inactivation in girl with BCAP31 ‐related syndrome

Kao

Chiang

Chen

et al. 2020

Human Mutation

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Full genome analysis of a young girl with deafness, dystonia, central hypomyelination, refractory seizure, and fluctuating liver function impairment revealed a heterozygous, de novo variant in the BCAP31 gene on chromosome Xq28 (NM_001256447.2:c.92G>A), mutations of which caused the X‐linked recessive severe neurologic disorder deafness, dystonia, and cerebral hypomyelination. Reverse transcription‐polymerase chain reaction of the patient's white blood cells showed the absence of wild‐type BCAP31 messenger RNA (mRNA) but the presence of two novel BCAP31 mRNAs. The major alternatively spliced mRNA is due to Exon 2 skipping and the utilization of a new initiation site in Exon 3 that leads to a frameshift and truncated transcript while the minor novel mRNA has a 110 nucleotide insertion to Exon 2. Phasing studies showed that the de novo variant arose in the paternal X chromosome. X chromosome inactivation assay was done and confirmed that the patient's maternal X chromosome was preferentially inactivated, providing evidence that the mutated BCAP31 gene was the one predominantly expressed. According to the American College of Medical Genetics and Genomics guideline, this variant is deemed “pathogenic” (PS2, PS3, PM2, PP3, and PP4) and deleterious. This is the first reported female patient in BCAP31‐related syndrome resulted from skewed X‐inactivation and a de novo mutation in the active X chromosome.

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Hsiao Huei Chen

Muscle Spindle-Derived Neurotrophin 3 Regulates Synaptic Connectivity between Muscle Sensory and Motor Neurons

De novo mutation and skewed X‐inactivation in girl with BCAP31 ‐related syndrome

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