Clinical features and gene mutation analysis of a male case of subcortical band heterotopia caused by mosaic mutation of DCX gene / 中华神经科杂志

Objective:To investigate the clinical phenotype and genotype of a male case of subcortical band heterotopia caused by mosaic mutation of DCX gene.Methods:The clinical data and magnetic resonance imaging (MRI) features of a male case of subcortical band heterotopia diagnosed in the Department of Neurology, Children′s Hospital Affiliated to Zhengzhou University in August 2020 were analyzed retrospectively. At the same time, the whole exon sequencing of the families was performed by next generation sequencing method, the suspicious mutation was verified by polymerase chain reaction Sanger sequencing, and their genetic mutation characteristics were analyzed.Results:The proband, one male, aged 5 years and 1 month, was hospitalized in August 2020 with the complaint of intermittent convulsions for 4 years and six months. Clinical features included that limb muscle tension was slightly high, intellectual and motor development was backward, and head circumference was 48 cm. MRI of his head showed diffuse thick subcortical band heterotopia. The detection of whole exon sequencing in his family showed that there was hemizygous mosaic mutation in DCX gene (mosaic ratio 44%), c.148A>G (p.k50E). The mosaic ratios of oral mucosa and urinalysis were 38.2% and 44.8% respectively. His parents were wild-type, The mutation found in this patient has not been reported at home and abroad.Conclusions:The mosaic variation of DCX gene can cause subcortical band heterotopia in males. The variation of DCX gene c.148A>G (p.k50E) may be the possible cause of the proband, which expands the variation spectrum of subcortical band heterotopia.

cts of prenatal exposure of 850-1900MHz mobile phone on the expression of PCNA and DCX in dentate gyrus of offspring rats / 中国应用生理学杂志

OBJECTIVE@#To evaluate the effect of prenatal mobile phone exposure on the expression of proliferating cell nuclear antigen (PCNA) and doublecortin (DCX) in dentate gyrus of offspring rats.@*METHODS@#The rat model of prenatal mobile phone exposure was established and there were three groups including control group, short term maternal exposure group and long term maternal exposure group(=6). From pregnant day 1 to day 17, pregnant rats in long term and short term maternal exposure group were exposed to an mobile phone in talking mode for 6 h/d and 24 h/d, respectively. Length of pregnancy, maternal body weight gain, litter size and pup's body weight were observed. The cell morphology in dentate gyrus of offspring rats at the age of 1 month was studied by cresyl violet staining. The immunohistochemical expression of PCNA and DCX in dentate gyrus of rat offspring were detected, and the expression of DCX and brain derived neurotrophic factor (BDNF) in hippocampus of rat offspring were evaluated by Western blot.@*RESULTS@#There was no difference in length of pregnancy, maternal body weight gain, litter size and pup's body weight among three groups. The morphological changes of pyramidal cells in the polymorphic layer and DCX-positive cells in the dentate gyrus were obvious in rat offspring of long term maternal exposure group. There were less PCNA-positive cells in dentate gyrus and decreased expression of DCX and BDNF in hippocampus by Western blot in long term maternal exposure group compared with control and short term maternal exposure group (all <0.05).@*CONCLUSIONS@#Long term prenatal mobile phone exposure might inhibit the expression of PCNA and DCX in dentate gyrus of rat offspring by down-regulating BDNF.

Suppression of MicroRNA let-7a Expression by Agmatine Regulates Neural Stem Cell Differentiation

PURPOSE: Neural stem cells (NSCs) effectively reverse some severe central nervous system (CNS) disorders, due to their ability to differentiate into neurons. Agmatine, a biogenic amine, has cellular protective effects and contributes to cellular proliferation and differentiation in the CNS. Recent studies have elucidated the function of microRNA let-7a (let-7a) as a regulator of cell differentiation with roles in regulating genes associated with CNS neurogenesis. MATERIALS AND METHODS: This study aimed to investigate whether agmatine modulates the expression of crucial regulators of NSC differentiation including DCX, TLX, c-Myc, and ERK by controlling let-7a expression. RESULTS: Our data suggest that high levels of let-7a promoted the expression of TLX and c-Myc, as well as repressed DCX and ERK expression. In addition, agmatine attenuated expression of TLX and increased expression of ERK by negatively regulating let-7a. CONCLUSION: Our study therefore enhances the present understanding of the therapeutic potential of NSCs in CNS disorders.

Suppression of MicroRNA let-7a Expression by Agmatine Regulates Neural Stem Cell Differentiation

PURPOSE: Neural stem cells (NSCs) effectively reverse some severe central nervous system (CNS) disorders, due to their ability to differentiate into neurons. Agmatine, a biogenic amine, has cellular protective effects and contributes to cellular proliferation and differentiation in the CNS. Recent studies have elucidated the function of microRNA let-7a (let-7a) as a regulator of cell differentiation with roles in regulating genes associated with CNS neurogenesis. MATERIALS AND METHODS: This study aimed to investigate whether agmatine modulates the expression of crucial regulators of NSC differentiation including DCX, TLX, c-Myc, and ERK by controlling let-7a expression. RESULTS: Our data suggest that high levels of let-7a promoted the expression of TLX and c-Myc, as well as repressed DCX and ERK expression. In addition, agmatine attenuated expression of TLX and increased expression of ERK by negatively regulating let-7a. CONCLUSION: Our study therefore enhances the present understanding of the therapeutic potential of NSCs in CNS disorders.

Lissencephaly child showing FISH negative and mutation in DCX gene with normal parental genetic makeup.

Lissencephaly is a clinically and genetically heterogeneous malformation of the brain, leading to a severe disabling condition and seizures. The recent discovery of molecular techniques and identification of lissencephaly genes (LIS 1 and DCX) has allowed etiologic diagnosis of this disorder. We describe a patient with lissencephaly in whom fluorescence in situ hybridization and DCX mutation analysis determined etiologic diagnosis, allowing precise genetic counseling and providing prenatal diagnosis for the family.

Elementary Evaluation of the Safety of Chitosan DCX-16 / 中国药房

OBJECTIVE:To evaluate the safety of Chitosan DCX-16elementarily.METHODS:DCX-16was injected i.p.to observe the acute toxicity in mice.The local irritating effects were observed on tolerance test,cerato-conjunctiva and muscles stimulus test in rabbits.The cell shape and proliferative rate of3T3cells were determinated by MTT in cell culture with DCX-16.RESULTS:It showed that DCX-16had no irritation on the eyes and muscles in rabbits.Tolerance dose of DCX-16in mice was as high as3.0g/kg per day.Cell culture with DCX-16demonstrated that3T3cell's shape and growth were normal.The relative growth rate of3T3cells had no statistical difference between control and DCX-16groups on the2nd,3rd,4th day.CONCLUSION:DCX-16is safe.