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Lee, Sueun,Kang, Sohi,Ang, Mary Jasmin,Kim, Juhwan,Kim, Jong Choon,Kim, Sung‐,Ho,Jeon, Tae‐,Il,Jung, Chaeyong,Im, Seung‐,Soon,Moon, Changjong BLACKWELL 2019 GENES BRAIN AND BEHAVIOR Vol.18 No.4
<P>Schizophrenia is a hereditary disease that approximately 1% of the worldwide population develops. Many studies have investigated possible underlying genes related to schizophrenia. Recently, clinical studies suggested sterol regulatory element‐binding protein (SREBP) as a susceptibility gene in patients with schizophrenia. SREBP controls cellular lipid homeostasis by three isoforms: SREBP‐1a, SREBP‐1c and SREBP‐2. This study used SREBP‐1c knockout (KO) mice to examine whether a deficiency in SREBP‐1c would affect their emotional and psychiatric behaviors. Altered mRNA expression in genes downstream from SREBP‐1c was confirmed in the brains of SREBP‐1c KO mice. Schizophrenia‐like behavior, including hyperactivity during the dark phase, depressive‐like behavior, aggressive behavior and deficits in social interaction and prepulse inhibition, was observed in SREBP‐1c KO mice. Furthermore, increased volume of the lateral ventricle was detected in SREBP‐1c KO mice. The mRNA levels of several γ‐aminobutyric acid (GABA)‐receptor subtypes and/or glutamic acid decarboxylase 65/67 decreased in the hippocampus and medial prefrontal cortex of SREBP‐1c KO mice. Thus, SREBP‐1c deficiency may contribute to enlargement of the lateral ventricle and development of schizophrenia‐like behaviors and be associated with altered GABAergic transmission.</P>
김보혜,Poornima D. E. Weerasinghe-Mudiyanselage,Mary Jasmin Ang,이정민,강소희,김종춘,김성호,김중선,정채용,신태균,문창종 대한배뇨장애요실금학회 2022 International Neurourology Journal Vol.26 No.S2
Purpose: Parkinson disease (PD) is a progressive neurodegenerative disorder in which dopaminergic (DAergic) systems are destroyed (particularly in the nigrostriatal system), causing both motor and nonmotor symptoms. Hippocampal neuroplasticity is altered in PD animal models, resulting in nonmotor dysfunctions. However, little is known about the precise mechanism underlying the hippocampal dysfunctions in PD. Methods: Striatal 6-hydroxydopamine (6-OHDA) infusions were performed unilaterally in adult Sprague Dawley rats. Both motor and nonmotor symptoms alongside the expression of tyrosine hydroxylase (TH) in the substantia nigra and striatum were confirmed in 6-OHDA-lesioned rats. The neuronal architecture in the hippocampus was analyzed by Golgi staining. Results: During the 7–8 weeks after infusion, the 6-OHDA-lesioned rats exhibited motor and nonmotor dysfunctions (especially anxiety/depression-like behaviors). Rats with unilateral 6-OHDA infusion displayed reduced TH+ immunoreactivity in the ipsilateral nigrostriatal pathway of the brain. Golgi staining revealed that striatal 6-OHDA infusion significantly decreased the dendritic complexity (i.e., number of crossing dendrites, total dendritic length, and branch points) in the ipsilateral hippocampal conus ammonis 1 (CA1) apical/basal and dentate gyrus (DG) subregions. Additionally, the dendritic spine density and morphology were significantly altered in the CA1 apical/basal and DG subregions following striatal 6-OHDA infusion. However, alteration of microglial and astrocytic distributions did not occur in the hippocampus following striatal 6-OHDA infusion. Conclusions: The present study provides anatomical evidence that the structural plasticity in the hippocampus is altered in the late phase following striatal 6-OHDA infusion in rats, possibly as a result of the prolonged suppression of the DAergic system, and independent of neuroinflammation.
Acute MPTP treatment impairs dendritic spine density in the mouse hippocampus
Poornima D. E. Weerasinghe-Mud,Mary Jasmin Ang,Mai Wada,Sung-Ho Kim,Taekyun Shin,Miyoung Yang,Changjong Moon 한국실험동물학회 2021 한국실험동물학회 학술발표대회 논문집 Vol.2021 No.7
Among the animal models of Parkinson"s disease (PD), the 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-lesioned mouse model has shown both dopaminergic (DA) damage and related motor control defects, as observed in patients with PD. Recent studies have suggested that the DA system interacts with the synaptic plasticity of the hippocampus in PD. However, little is known about how alterations in the hippocampal structural plasticity are affected by the DA damage in MPTP-lesioned models. In the present study, we investigated alterations in dendritic complexity and spine density in the mouse hippocampus following acute MPTP treatment (22 mg/kg, i.p., four times/day, 2-h intervals). We confirmed that acute MPTP treatment significantly decreased initial motor function and reduced persistently the number of tyrosine hydroxylase-positive DA neurons in the substantia nigra. Golgi staining showed that acute MPTP treatment significantly reduced the spine density of neuronal dendrites in the cornu ammonis 1 (CA1) apical/basal and dentate gyrus (DG) subregions of the mouse hippocampus at 8 and 16 days after treatment, although it did not affect dendritic complexity (e.g., number of crossing dendrites, total dendritic length, and branch points per neuron) in both CA1 and DG subregions at all time points after treatment. Therefore, the present study provides anatomical evidence that acute MPTP treatment affects synaptic structure in the hippocampus during the late phase after acute MPTP treatment in mice, independent of any changes in the dendritic arborization of hippocampal neurons. These findings offer data for the ability of the acute MPTP-lesioned mouse model to replicate the non-nigrostriatal lesions of clinical PD.
Enhancing the Effect of Placental Extract on the Regeneration of Crush Injured Facial Nerve
임경민,조광원,Chitra Devi Ganesan,최지현,Mary Jasmin Ang,문창종,장호철 한국뇌신경과학회 2022 Experimental Neurobiology Vol.31 No.6
There is a scarcity of experimental studies on peripheral nerve regeneration using placental extract (PE). This study aimed to investigate the effects of topical PE application on recovery after crush injury to the rat facial nerve using functional, electrophysiological, and morphological evaluations. The viability of the RSC96 Schwann cells treated with PE (0.5~4 mg/ml) increased significantly. Immunoblot test revealed that PE application en- hanced the migration of RSC96 cells. Quantitative polymerase chain reaction demonstrated that PE increased the expression of neurotropic genes. The recovery from vibrissa fibrillation in the PE-treated group was superior to that in the control group. The threshold of action potential was also significantly lower in the PE group. Histopathological examination showed that crushed facial nerves treated with PE exhibited larger axons. The surrounding myelin sheaths were more distinct and thicker in the PE-treated group. Hence, PE may be considered a topical therapeutic agent for treating traumatic facial nerve paralysis.