Your search keyword '"Fengping Dong"' showing total 3 results

1. Schizophrenia risk ZNF804A interacts with its associated proteins to modulate dendritic morphology and synaptic development

Author

Fengping Dong, Joseph Mao, Miranda Chen, Joy Yoon, and Yingwei Mao

Subjects

Schizophrenia, ZNF804A, ZNF804A binding proteins, Dendritic morphology, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Schizophrenia (SZ) is a devastating brain disease that affects about 1% of world population. Among the top genetic associations, zinc finger protein 804A (ZNF804A) gene encodes a zinc finger protein, associated with SZ and biolar disorder (BD). Copy number variants (CNVs) of ZNF804A have been observed in patients with autism spectrum disorders (ASDs), anxiety disorder, and BD, suggesting that ZNF804A is a dosage sensitive gene for brain development. However, its molecular functions have not been fully determined. Our previous interactomic study revealed that ZNF804A interacts with multiple proteins to control protein translation and neural development. ZNF804A is localized in the cytoplasm and neurites in the human cortex and is expressed in various types of neurons, including pyramidal, dopaminergic, GABAergic, and Purkinje neurons in mouse brain. To further examine the effect of gene dosage of ZNF804A on neurite morphology, both knockdown and overexpression of ZNF804A in primary neuronal cells significantly attenuate dendritic complex and spine formation. To determine the factors mediating these phenotypes, interestingly, three binding proteins of ZNF804A, galectin 1 (LGALS1), fasciculation and elongation protein zeta 1 (FEZ1) and ribosomal protein SA (RPSA), show different effects on reversing the deficits. LGALS1 and FEZ1 stimulate neurite outgrowth at basal level but RPSA shows no effect. Intriguingly, LGALS1 but not FEZ1, reverses the neurite outgrowth deficits induced by ZNF804A knockdown. However, FEZ1 and RPSA but not LGALS1, can ameliorate ZNF804A overexpression-mediated dendritic abnormalities. Thus, our results uncover a critical post-mitotic role of ZNF804A in neurite and synaptic development relevant to neurodevelopmental pathologies.

Published

2021

2. Gluconate suppresses seizure activity in developing brains by inhibiting CLC-3 chloride channels

Author

Zheng Wu, Qingwei Huo, Liang Ren, Fengping Dong, Mengyang Feng, Yue Wang, Yuting Bai, Bernhard Lüscher, Sheng-Tian Li, Guan-Lei Wang, Cheng Long, Yun Wang, Gangyi Wu, and Gong Chen

Subjects

Neonatal seizure, Epilepsy, Gluconate, Anticonvulsant, CLC-3, Chloride channels, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Neonatal seizures are different from adult seizures, and many antiepileptic drugs that are effective in adults often fail to treat neonates. Here, we report that gluconate inhibits neonatal seizure by inhibiting CLC-3 chloride channels. We detect a voltage-dependent outward rectifying Cl− current mediated by CLC-3 Cl− channels in early developing brains but not adult mouse brains. Blocking CLC-3 Cl− channels by gluconate inhibits seizure activity both in neonatal brain slices and in neonatal animals with in vivo EEG recordings. Consistently, neonatal neurons of CLC-3 knockout mice lack the outward rectifying Cl− current and show reduced epileptiform activity upon stimulation. Mechanistically, we demonstrate that activation of CLC-3 Cl− channels alters intracellular Cl− homeostasis and enhances GABA excitatory activity. Our studies suggest that gluconate can suppress neonatal seizure activities through inhibiting CLC-3 Cl− channels in developing brains.

Published

2019

3. The complete chloroplast genome sequence of Styrax zhejiangensis, a species with an extremely small population

Author

Fengping Dong, Xinhong Liu, Xin Shen, Weixing Sheng, Dongyue Jiang, and Yingang Li

Subjects

styrax zhejiangensis, chloroplast genome, phylogenetic relationship, conservation, Genetics, QH426-470

Abstract

Styrax zhejiangensis is an endemic species to China and is only distributed in Jiande, Zhejiang Province. The species is on the verge of extinction. The chloroplast genome of S. zhejiangensis was determined from Illumina pair-end sequencing data. The sequence was 157,387 bp and consisted of one large (LSC, 87,193 bp) and one small (SSC, 18,286 bp) single-copy region region, separated by a pair of inverted repeat (IR, 25,954 bp) regions. The sequence included 116 genes, including 82 protein-coding genes, 19 rRNAs and 15 tRNAs. The overall GC content was 37.0%. A maximum likelihood phylogenetic analysis showed that Styracaceae was more closely related to Symplocaceae than to Ebenaceae.

Published

2018