Activated-Leukocyte Cell Adhesion Molecule ; Antigens, CD ; Carcinoma, Hepatocellular ; Cell Adhesion Molecules, Neuronal ; Fetal Proteins ; Hep G2 Cells ; Humans ; Liver Neoplasms ; RNA, Small Interfering

OBJECTIVE: Dysfunction of neural plasticity in the brain is known to alter neural networks, resulting in depression. To understand how fluoxetine regulates molecules involved in neural plasticity, the expression levels of NCAM, NCAM140, CREB and pCREB, in rat C6 glioma cells after fluoxetine treatment were examined. METHODS: C6 cells were cultured after 20 min or after 6, 24 or 72 h treatments with 10 microM fluoxetine. Immunocytochemistry was used to determine the effect of fluoxetine on the expression of NCAM. Western blot analysis was used to measure the expression levels of NCAM140 and CREB and the induction of pCREB after fluoxetine treatment. RESULTS: NCAM expression following 72-h fluoxetine treatment was significantly increased around cell membranes compared to control cells. Cells treated with fluoxetine for 6 and 72 h showed a significant increase in NCAM140 expression compared to cells treated for 20 min. The level of pCREB in the cells treated with fluoxetine for 72 h not only increased more than 60%, but was also significantly different when compared with the other treatment times. The 72-h fluoxetine treatment led to the increase of NCAM140 and the phosphorylation of CREB in C6 cells. CONCLUSION: Our findings indicate that fluoxetine treatment regulates neuronal plasticity and neurite outgrowth by phosphorylating and activating CREB via the NCAM140 homophilic interaction-induced activation of the Ras-MAPK pathway.
Animals ; Blotting, Western ; Brain ; Cell Membrane ; Depression ; Fluoxetine ; Glioma ; Immunohistochemistry ; Neural Cell Adhesion Molecules ; Neurites ; Neuronal Plasticity ; Phosphorylation ; Plastics ; Rats

Neuromuscular junction formation is one of the hot research area for understanding synapse formation, and the contact and adhesion between muscle and neurons during this procedure is regarded as one of important steps for synaptogenesis. The changes of neuronal cell adhesion molecules during nerve-muscle contats has not been revealed yet. In this study, we isolated skeletal muscle cells and ventral spinal cord neurons from Sprague-Dawley rats and observed the contact areas with a transmission electron microscpe and studied the presence of NCAM at the contact sites by immunohistochemistry. The ventral spinal cord neuronal processes contact intimately with skeletal muscle cells, some of which were submerged into the muscle surface and had synaptic vesicles. NCAM was expressed on neuronal processes, only sialylated form were associated with acetylcholine receptor aggregates. These results confirmed the significance of adhesion in neuromuscular junction formation and NCAM may participate in this process by preventing the separation of 2 cells at the contact site.
Acetylcholine ; Animals ; Cell Adhesion Molecules, Neuronal ; Coculture Techniques* ; Cytoskeleton ; Immunohistochemistry ; Muscle Fibers, Skeletal ; Muscle, Skeletal ; Myoblasts ; Neural Cell Adhesion Molecules* ; Neuromuscular Junction ; Neurons ; Rats* ; Rats, Sprague-Dawley ; Spinal Cord ; Synapses ; Synaptic Vesicles

OBJECTIVE: To summarize the genetic diagnosis, low-depth copy number variation sequencing (CNV-seq) and prenatal finding in 7 fetuses with 2p16.3 deletions only involving the NRXN1 gene. METHODS: The 7 fetuses have all been found to have loss of heterozygosity at 2p16.3 by CNV-seq, which were verified by quantitative real-time PCR (qPCR). Specific regions of NRXN1 gene deletions were identified, and the CNVs were verified in their parents. Outcome of the pregnancies were followed up. RESULTS: Among 16 502 prenatal samples, 7 fetuses were found to harbor a 120 kb ~ 900 kb microdeletion in the 2p16.3 region, which yielded a prevalence of 0.424‰. The deleted region mainly involved 50 200 000-51 880 000 positions of chromosome 2 and involved only the NRXN1 gene. All of the 7 fetal CNVs were confirmed by qPCR, including 2 cases with heterozygous deletion of exons 1 to 6, 1 with heterozygous deletion of exons 1 to 19, 1 with heterozygous deletion of exons 19 to 22, and 3 with heterozygous deletion of introns 6 to 7 of the NRXN1 gene. Verification in the parents had found that one deletion was inherited from the father, 1 was from the mother, 2 cases were de novo in origin, whilst the remaining 3 had refused parental verification. After genetic counseling, one couple had elected induced abortion, 1 case has not been born yet, whilst the other 5 cases were born healthy. Follow up had identified no mental abnormalities among the children. CONCLUSION Seven fetuses with heterozygous 2p16.3 deletions only involving the NRXN1 gene were detected by CNV-seq. The specific deletion of the NRXN1 gene was verified by qPCR. Prenatal genetic counseling and fertility guidance has been provided to the particular family by combining the results of CNV testing, pedigree analysis and pregnancy outcome.
Female ; Humans ; Pregnancy ; Calcium-Binding Proteins/genetics* ; Cell Adhesion Molecules, Neuronal/genetics* ; DNA Copy Number Variations ; Nerve Tissue Proteins/genetics* ; Neural Cell Adhesion Molecules/genetics* ; Prenatal Diagnosis ; Real-Time Polymerase Chain Reaction ; Infant, Newborn

OBJECTIVE: Antidepressants Modulate Neuronal Plasticity. Tianeptine, An Atypical Antidepressant, Might Be Involved In The Restoration Of Neuronal Plasticity; It Primarily Enhances The Synaptic Reuptake Of Serotonin. Ncam140 Is Involved In Neuronal Development Processes, Synaptogenesis And Synaptic Plasticity. We Investigated The Effect Of Tianeptine On The Expression Of Ncam140 And Its Downstream Signaling Molecule In The Human Neuroblastoma Cell Line Sh-sy5y. METHODS: NCAM protein expression was measured in human neuroblastoma SH-SY5Y cells that were cultivated in serum-free media and treated with 0, 10, or 20 microM tianeptine for 6, 24, or 72 hours. NCAM140 expression in the tianeptine treatment group was confirmed by Western blot, and quantified through measurement of band intensity by absorbance. CREB and pCREB expression was identified after treatment with 20 microM tianeptine for 6, 24, and 72 hours by Western blot. RESULTS: Compared to cells treated for 6 hours, cells treated with 0 or 10 microM tianeptine for 72 hours showed a significant increase in NCAM140 expression and cells treated with 20 microM tianeptine showed a significant increase after 24 and 72 hours. The pCREB level in cells treated with 20 microM tianeptine increased in time-dependent manner. CONCLUSION: Our findings indicated that the tianeptine antidepressant effect may occur by induction of NCAM140 expression and CREB phosphorylation.
Antidepressive Agents ; Blotting, Western ; Cell Line ; Culture Media, Serum-Free ; Humans ; Neural Cell Adhesion Molecules ; Neuroblastoma ; Neuronal Plasticity ; Neurons ; Phosphorylation ; Plastics ; Serotonin

The present study was aimed to investigate how the induced pluripotent stem cells (iPSCs) and bone marrow mesenchymal stem cells (BMSCs) differentiate into neuron-like cells under the induction of hippocampal microenvironments and Reelin's regulation. iPSCs or BMSCs were co-cultured with WT (wild type) or genotypic hippocampal slice and cerebral homogenate supernatant, then the stem cells' differentiation under the induction of hippocampal environment was observed by using immunofluorescence technique. In the meantime, stem cells were co-cultured with hippocampal slice and cerebral conditioned medium of reeler (Reelin deletion) mouse respectively. The results showed that both adhesive iPSCs and BMSCs on WT hippocampal slice exhibited lamination of double "C" shape with high density on granular and pyramidal layers. The stem cells could differentiate into neuron-like cells with obvious polarization on WT hippocampal slice. In pyramidal cell layer, the differentiated neuron-like cells were oriented vertically with similar shapes of pyramidal cell in vivo, and the cells within molecule layer were arranged horizontally. In addition, adhesive iPSCs and BMSCs could differentiate into Nestin positive neural stem cells and NeuN positive neurons, respectively, under WT hippocampal microenvironment. On the other hand, under induction of hippocampal microenvironment of reeler mouse, iPSCs and BMSCs differentiation could also be seen, but their lamination was in disorder, and cell polarization was irregular. Moreover, differentiation and polarization of the iPSCs and BMSCs were delayed. These results suggest both iPSCs and BMSCs can differentiate into neuron-like cells under the induction of hippocampal microenvironments. Reelin is involved in the regulation of neuronal differentiation and cell polarization. Without Reelin, the cellular lamination and polarization appear irregular, and the stem cells' differentiation is delayed.
Animals ; Cell Adhesion Molecules, Neuronal ; metabolism ; Cell Differentiation ; Cells, Cultured ; Coculture Techniques ; Culture Media, Conditioned ; Extracellular Matrix Proteins ; metabolism ; Hematopoietic Stem Cells ; cytology ; Hippocampus ; Induced Pluripotent Stem Cells ; cytology ; Mice ; Mice, Inbred C57BL ; Nerve Tissue Proteins ; metabolism ; Neural Stem Cells ; cytology ; Neurons ; cytology ; Serine Endopeptidases ; metabolism

Synaptic cell adhesion molecules (CAMs) are a type of membrane surface glycoproteins that mediate the structural and functional interactions between pre- and post-synaptic sites. Synaptic CAMs dynamically regulate synaptic activity and plasticity, and their expression and function are modulated by environmental factors. Synaptic CAMs are also important effector molecules of stress response, and mediate the adverse impact of stress on cognition and emotion. In this review, we will summarize the recent progress on the role of synaptic CAMs in stress, and aim to provide insight into the molecular mechanisms and drug development of stress-related disorders.
Cell Adhesion ; Cell Adhesion Molecules ; physiology ; Humans ; Neuronal Plasticity ; Stress, Physiological ; Stress, Psychological ; Synapses

OBJECTIVE: To explore the genetic basis for a patient with autism. METHODS: High-throughput sequencing was carried out to detect copy number variations in the patient. RESULTS: DNA sequencing found that the patient has carried a 0.11 Mb deletion in distal 2p16.3 spanning from genomic position 50 820 001 to 50 922 000, which resulted removal of exon 6 and part of intron 7 of the NRXN1 gene. The same deletion was not found his parents and brother. CONCLUSION Partial deletion of the NRXN1 gene may underlie the disease in this patient.
Autistic Disorder ; genetics ; Cell Adhesion Molecules, Neuronal ; genetics ; DNA Copy Number Variations ; Gene Deletion ; Humans ; Male ; Nerve Tissue Proteins ; genetics

OBJECTIVE: To explore the genetic basis for a couple who had developed polyhydramnios during three pregnancies and given birth to two liveborns featuring limb contracture, dyspnea and neonatal death. METHODS: Whole-exome sequencing (WES) was carried out on fetal tissue and peripheral blood samples from the couple. Suspected variants were verified by Sanger sequencing. RESULTS: The fetus was found to harbor homozygous nonsense c.3718C>T (p.Arg1240Ter) variants of the CNTNAP1 gene, which were respectively inherited from its mother and father. The variant was unreported previously. According to the guidelines of the American College of Medical Genetics and Genomics, the variant was predicted to be pathogenic (PVS1+PM2+PP4). CONCLUSION The novel homozygous nonsense variants of the CNTNAP1 gene probably underlay the lethal congenital contracture syndrome type 7 (LCCS7) in this pedigree. Above finding has enabled genetic counseling and prenatal diagnosis for the family.
Cell Adhesion Molecules, Neuronal ; China ; Contracture/genetics* ; Female ; Humans ; Infant, Newborn ; Mutation ; Pedigree ; Pregnancy ; Whole Exome Sequencing

Neuroligins (NLs) are postsynaptic membrane proteins expressed in the brain and mediate synaptogenesis. Neuroligin family proteins can specifically induce either excitatory or inhibitory synapses. Deletions or point mutations in neuroligin genes are found in patients with autism spectrum disorders (ASD) or mental retardations. The dysfunctions of these mutations have been tested in multiple neuroligin mouse models. In most of the models, including the human autism-linked NL3 and NL4 mutation mice, there are social interaction defects, memory impairment and repetitive behaviors. Researchers also found the excitatory/inhibitory synapse ratio altered in those mice, as well as receptor subunit composition. However, inconsistencies and debates also exist between different research approaches. In this review, we summarize the neuroligin mouse models currently available, examine the detailed alterations detected in those mice and compare the differences within different mouse models or different investigation methods, to obtain an overall picture of the current progress on neuroligin mouse models.
Animals ; Autistic Disorder ; physiopathology ; Brain ; physiopathology ; Cell Adhesion Molecules, Neuronal ; physiology ; Disease Models, Animal ; Humans ; Membrane Proteins ; physiology ; Mice ; Mutation ; Nerve Tissue Proteins ; physiology ; Synapses ; physiology