Xiaona Luo scite author profile

Xiaona Luo

3Publications

30Citation Statements Received

123Citation Statements Given

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117

Affiliations

Shanghai Children's Hospital, Shanghai Jiao Tong University, Guangdong University of Foreign Studies

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MED12-Related Disease in a Chinese Girl: Clinical Characteristics and Underlying Mechanism

et al. 2020

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The RNA polymerase II transcription subunit 12 homolog (MED12) is a member of the mediator complex, which plays a critical role in RNA transcription. Mutations in MED12 cause X-linked intellectual disability and other anomalies collectively grouped as MED12related disorders. While MED12 mutations have been most commonly reported in male patients, we present the case of a 1-year-old girl with clinical characteristics similar to MED12-related disorders. To explore the clinical characteristics of the condition and its possible pathogenesis, we analyzed the patient's clinical data; genetic testing by wholeexome sequencing revealed a de novo heterozygous mutation (c.1249-1G > C) in MED12. Further cDNA experiments revealed that the patient had an abnormal splicing at the skipping of exon9, which may have produced a truncated protein. qPCR showed decreased MED12 gene expression level in the patient, and an X-chromosome inactivation test confirmed a skewed inactivation of the X-chromosome. The lymphoblast transcription levels of the genes involved in the Gli3-dependent sonic hedgehog (SHH) signaling pathway, namely, CREB5, BMP4, and NEUROG2, were found to be significantly elevated compared with those of her parents and sex-and age-matched controls. Our results support the view that MED12 mutations may dysregulate the SHH signaling pathway, which may have accounted for the aberrant craniofacial morphology of our patient.

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Segawa syndrome caused by TH gene mutation and its mechanism

Wang

Wang²,

Xu³

et al. 2022

Front. Genet.

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Dopa-responsive dystonia (DRD), also known as Segawa syndrome, is a rare neurotransmitter disease. The decrease in dopamine caused by tyrosine hydroxylase (TH) gene mutation may lead to dystonia, tremor and severe encephalopathy in children. Although the disease caused by recessive genetic mutation of the tyrosine hydroxylase (TH) gene is rare, we found that the clinical manifestations of seven children with tyrosine hydroxylase gene mutations are similar to dopa-responsive dystonia. To explore the clinical manifestations and possible pathogenesis of the disease, we analyzed the clinical data of seven patients. Next-generation sequencing showed that the TH gene mutation in three children was a reported homozygous mutation (c.698G>A). At the same time, two new mutations of the TH gene were found in other children: c.316_317insCGT, and c.832G>A (p.Ala278Thr). We collected venous blood from four patients with Segawa syndrome and their parents for real-time quantitative polymerase chain reaction analysis of TH gene expression. We predicted the structure and function of proteins on the missense mutation iterative thread assembly refinement (I-TASSER) server and studied the conservation of protein mutation sites. Combined with molecular biology experiments and related literature analysis, the qPCR results of two patients showed that the expression of the TH gene was lower than that in 10 normal controls, and the expression of the TH gene of one mother was lower than the average expression level. We speculated that mutation in the TH gene may clinically manifest by affecting the production of dopamine and catecholamine downstream, which enriches the gene pool of Segawa syndrome. At the same time, the application of levodopa is helpful to the study, diagnosis and treatment of Segawa syndrome.

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Novel homozygous mutation in the FBXL4 gene is associated with mitochondria DNA depletion syndrome-13

Wang

Lin

Wang

et al. 2020

Journal of the Neurological Sciences

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Background: Mitochondrial DNA depletion syndrome-13 (MTDPS13) is caused by mutations in FBXL4 (F-box and leucine-rich repeat protein 4), a nuclear gene encoding an F-box protein that plays a role in maintaining mtDNA integrity and stability. Methods: We identified a novel homozygous FBXL4 gene mutation, c.993dupA (p.L332Tfs*3), in a 1-year-old girl of Han Chinese descent. We performed three-dimensional protein structural analysis and targeted mtDNA nextgeneration sequencing. We analysed FBXL4 expression and mitochondrial DNA level, and reviewed mutations reported in FBXL4-related literature. Results: This mutation resulted in premature termination of translation and loss of 288 amino acids from Cterminus. A three-dimensional structural analysis revealed that conserved LRR domains were lost in mutant FBXL4 protein, which likely affected its ability to form protein-protein interactions. There were no differences in FBXL4 mRNA expression levels between the patient and her parents. There were no mtDNA mutations in either the patient or her parents. However, ND1/GAPDH ratio in lymphocytes and urine, which represents mtDNA/ nuclear DNA ratio, showed that the number of mitochondrial genomes was significantly lower in the patient than in her parents or wild-type subjects. Conclusion: Homozygous FBXL4 gene mutation, c.993dupA, can cause mitochondrial dysfunction, and LRR region is especially important for FBXL4 protein function.

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Xiaona Luo

MED12-Related Disease in a Chinese Girl: Clinical Characteristics and Underlying Mechanism

Segawa syndrome caused by TH gene mutation and its mechanism

Novel homozygous mutation in the FBXL4 gene is associated with mitochondria DNA depletion syndrome-13

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