Your search keyword '"Cell Adhesion Molecule L1"' showing total 36 results

1. The Interactions of the 70 kDa Fragment of Cell Adhesion Molecule L1 with Topoisomerase 1, Peroxisome Proliferator-Activated Receptor γ and NADH Dehydrogenase (Ubiquinone) Flavoprotein 2 Are Involved in Gene Expression and Neuronal L1-Dependent Functions

Author

Loers, Gabriele, Kleene, Ralf, Bork, Ute, and Schachner, Melitta

Subjects

*CELL adhesion molecules, *PEROXISOME proliferator-activated receptors, *NADH dehydrogenase, *UBIQUINONES, *DNA topoisomerase I, *GENE expression, *CELLULAR signal transduction

Abstract

The cell adhesion molecule L1 is essential not only for neural development, but also for synaptic functions and regeneration after trauma in adulthood. Abnormalities in L1 functions cause developmental and degenerative disorders. L1's functions critically depend on proteolysis which underlies dynamic cell interactions and signal transduction. We showed that a 70 kDa fragment (L1-70) supports mitochondrial functions and gene transcription. To gain further insights into L1-70's functions, we investigated several binding partners. Here we show that L1-70 interacts with topoisomerase 1 (TOP1), peroxisome proliferator-activated receptor γ (PPARγ) and NADH dehydrogenase (ubiquinone) flavoprotein 2 (NDUFV2). TOP1, PPARγ and NDUFV2 siRNAs reduced L1-dependent neurite outgrowth, and the topoisomerase inhibitors topotecan and irinotecan inhibited L1-dependent neurite outgrowth, neuronal survival and migration. In cultured neurons, L1 siRNA reduces the expression levels of the long autism genes neurexin-1 (Nrxn1) and neuroligin-1 (Nlgn1) and of the mitochondrially encoded gene NADH:ubiquinone oxidoreductase core subunit 2 (ND2). In mutant mice lacking L1-70, Nrxn1 and Nlgn1, but not ND2, mRNA levels are reduced. Since L1-70's interactions with TOP1, PPARγ and NDUFV2 contribute to the expression of two essential long autism genes and regulate important neuronal functions, we propose that L1 may not only ameliorate neurological problems, but also psychiatric dysfunctions. [ABSTRACT FROM AUTHOR]

Published

2023

2. The KDET Motif in the Intracellular Domain of the Cell Adhesion Molecule L1 Interacts with Several Nuclear, Cytoplasmic, and Mitochondrial Proteins Essential for Neuronal Functions.

Author

Kleene, Ralf, Loers, Gabriele, and Schachner, Melitta

Subjects

*MITOCHONDRIAL proteins, *CELL adhesion molecules, *HEAT shock proteins, *HEAT shock factors, *NUCLEAR proteins, *CARRIER proteins, *PEPTIDES, *RNA splicing, *MITOCHONDRIAL membranes

Abstract

Abnormal functions of the cell adhesion molecule L1 are linked to several neural diseases. Proteolytic L1 fragments were reported to interact with nuclear and mitochondrial proteins to regulate events in the developing and the adult nervous system. Recently, we identified a 55 kDa L1 fragment (L1-55) that interacts with methyl CpG binding protein 2 (MeCP2) and heterochromatin protein 1 (HP1) via the KDET motif. We now show that L1-55 also interacts with histone H1.4 (HistH1e) via this motif. Moreover, we show that this motif binds to NADH dehydrogenase ubiquinone flavoprotein 2 (NDUFV2), splicing factor proline/glutamine-rich (SFPQ), the non-POU domain containing octamer-binding protein (NonO), paraspeckle component 1 (PSPC1), WD-repeat protein 5 (WDR5), heat shock cognate protein 71 kDa (Hsc70), and synaptotagmin 1 (SYT1). Furthermore, applications of HistH1e, NDUFV2, SFPQ, NonO, PSPC1, WDR5, Hsc70, or SYT1 siRNAs or a cell-penetrating KDET-carrying peptide decrease L1-dependent neurite outgrowth and the survival of cultured neurons. These findings indicate that L1's KDET motif binds to an unexpectedly large number of molecules that are essential for nervous system-related functions, such as neurite outgrowth and neuronal survival. In summary, L1 interacts with cytoplasmic, nuclear and mitochondrial proteins to regulate development and, in adults, the formation, maintenance, and flexibility of neural functions. [ABSTRACT FROM AUTHOR]

Published

2023

3. Mitochondrial and Neuronal Dysfunctions in L1 Mutant Mice.

Author

Congiu, Ludovica, Granato, Viviana, Loers, Gabriele, Kleene, Ralf, and Schachner, Melitta

Subjects

*NEURAL cell adhesion molecule, *NEUROPLASTICITY, *CELL adhesion molecules, *PROGRAMMED cell death 1 receptors, *MITOCHONDRIAL proteins, *MITOCHONDRIA, *SYNAPTOGENESIS, *MITOCHONDRIAL membranes

Abstract

Adhesion molecules regulate cell proliferation, migration, survival, neuritogenesis, synapse formation and synaptic plasticity during the nervous system's development and in the adult. Among such molecules, the neural cell adhesion molecule L1 contributes to these functions during development, and in synapse formation, synaptic plasticity and regeneration after trauma. Proteolytic cleavage of L1 by different proteases is essential for these functions. A proteolytic fragment of 70 kDa (abbreviated L1-70) comprising part of the extracellular domain and the transmembrane and intracellular domains was shown to interact with mitochondrial proteins and is suggested to be involved in mitochondrial functions. To further determine the role of L1-70 in mitochondria, we generated two lines of gene-edited mice expressing full-length L1, but no or only low levels of L1-70. We showed that in the absence of L1-70, mitochondria in cultured cerebellar neurons move more retrogradely and exhibit reduced mitochondrial membrane potential, impaired Complex I activity and lower ATP levels compared to wild-type littermates. Neither neuronal migration, neuronal survival nor neuritogenesis in these mutants were stimulated with a function-triggering L1 antibody or with small agonistic L1 mimetics. These results suggest that L1-70 is important for mitochondrial homeostasis and that its absence contributes to the L1 syndrome phenotypes. [ABSTRACT FROM AUTHOR]

Published

2022

4. The Cell Adhesion Molecule L1 Interacts with Methyl CpG Binding Protein 2 via Its Intracellular Domain.

Author

Loers, Gabriele, Kleene, Ralf, Girbes Minguez, Maria, and Schachner, Melitta

Subjects

*CARRIER proteins, *CELL adhesion molecules, *PEPTIDES, *AMYLOID beta-protein precursor, *CELL physiology, *CELL adhesion, *METALLOPROTEINASES

Abstract

Cell adhesion molecule L1 regulates multiple cell functions, and L1 deficiency is linked to several neural diseases. Recently, we have identified methyl CpG binding protein 2 (MeCP2) as a potential binding partner of the intracellular L1 domain. By ELISA we show here that L1's intracellular domain binds directly to MeCP2 via the sequence motif KDET. Proximity ligation assay with cultured cerebellar and cortical neurons suggests a close association between L1 and MeCP2 in nuclei of neurons. Immunoprecipitation using MeCP2 antibodies and nuclear mouse brain extracts indicates that MeCP2 interacts with an L1 fragment of ~55 kDa (L1−55). Proximity ligation assay indicates that metalloproteases, β-site of amyloid precursor protein cleaving enzyme (BACE1) and ɣ-secretase, are involved in the generation of L1−55. Reduction in MeCP2 expression by siRNA decreases L1-dependent neurite outgrowth from cultured cortical neurons as well as the migration of L1-expressing HEK293 cells. Moreover, L1 siRNA, MeCP2 siRNA, or a cell-penetrating KDET-containing L1 peptide leads to reduced levels of myocyte enhancer factor 2C (Mef2c) mRNA and protein in cortical neurons, suggesting that the MeCP2/L1 interaction regulates Mef2c expression. Altogether, the present findings indicate that the interaction of the novel fragment L1−55 with MeCP2 affects L1-dependent functions, such as neurite outgrowth and neuronal migration. [ABSTRACT FROM AUTHOR]

Published

2022

5. Cell adhesion molecule L1 interacts with the chromo shadow domain of heterochromatin protein 1 isoforms α, β, and ɣ via its intracellular domain.

Author

Kleene, Ralf, Loers, Gabriele, Castillo, Gaston, and Schachner, Melitta

Abstract

Cell adhesion molecule L1 regulates multiple cell functions and L1 deficiency is linked to several neural diseases. Proteolytic processing generates functionally decisive L1 fragments, which are imported into the nucleus. By computational analysis, we found at L1's C-terminal end the chromo shadow domain-binding motif PxVxL, which directs the binding of nuclear proteins to the heterochromatin protein 1 (HP1) isoforms α, β, and ɣ. By enzyme-linked immunosorbent assay, we show that the intracellular L1 domain binds to all HP1 isoforms. These interactions involve the HP1 chromo shadow domain and are mediated via the sequence 1158KDET1161 in the intracellular domain of murine L1, but not by L1's C-terminal PxVxL motif. Immunoprecipitation using nuclear extracts from the brain and from cultured cerebellar and cortical neurons indicates that HP1 isoforms interact with a yet unknown nuclear L1 fragment of approximately 55 kDa (L1-55), which carries ubiquitin residues. Proximity ligation indicates a close association between L1-55 and the HP1 isoforms in neuronal nuclei. This association is reduced after the treatment of neurons with inhibitors of metalloproteases, β-site of amyloid precursor protein cleaving enzyme (BACE1), or ɣ-secretase, suggesting that cleavage of full-length L1 by these proteases generates L1-55. Reduction of HP1α, -β, or -ɣ expression by siRNA decreases L1-dependent neurite outgrowth from cultured cortical neurons and decreases the L1-dependent migration of L1-transfected HEK293 cells in a scratch assay. These findings indicate that the interaction of the novel fragment L1-55 with HP1 isoforms in nuclei affects L1-dependent functions, such as neurite outgrowth and neuronal migration. [ABSTRACT FROM AUTHOR]

Published

2022

6. Amelioration of the abnormal phenotype of a new L1 syndrome mouse mutation with L1 mimetics.

Author

Loers, Gabriele, Appel, Dominik, Lutz, David, Congiu, Ludovica, Kleene, Ralf, Hermans‐Borgmeyer, Irm, Schäfer, Michael K. E., and Schachner, Melitta

Abstract

L1 syndrome is a rare developmental disorder characterized by hydrocephalus of varying severity, intellectual deficits, spasticity of the legs, and adducted thumbs. Therapy is limited to symptomatic relief. Numerous gene mutations in the L1 cell adhesion molecule (L1CAM, hereafter abbreviated L1) were identified in L1 syndrome patients, and those affecting the extracellular domain of this transmembrane type 1 glycoprotein show the most severe phenotypes. Previously analyzed rodent models of the L1 syndrome focused on L1‐deficient animals or mouse mutants with abrogated cell surface expression of L1, making it difficult to test L1 function‐triggering mimetic compounds with potential therapeutic value. To overcome this impasse, we generated a novel L1 syndrome mouse with a mutation of aspartic acid at position 201 in the extracellular part of L1 (p.D201N, hereafter termed L1‐201) that displays a cell surface‐exposed L1 accessible to the L1 mimetics. Behavioral assessment revealed an increased neurological deficit score and increased locomotor activity in male L1‐201 mice carrying the mutation on the X‐chromosome. Histological analyses of L1‐201 mice showed features of the L1 syndrome, including enlarged ventricles and reduced size of the corpus callosum. Expression levels of L1‐201 protein as well as extent of cell surface biotinylation and immunofluorescence labelling of cultured cerebellar neurons were normal. Importantly, treatment of these cultures with the L1 mimetic compounds duloxetine, crotamiton, and trimebutine rescued impaired cell migration and survival as well as neuritogenesis. Altogether, the novel L1 syndrome mouse model provides a first experimental proof‐of‐principle for the potential therapeutic value of L1 mimetic compounds. [ABSTRACT FROM AUTHOR]

Published

2021

7. The cell adhesion molecule L1 interacts with nuclear proteins via its intracellular domain.

Author

Girbes Minguez, Maria, Wolters‐Eisfeld, Gerrit, Lutz, David, Buck, Friedrich, Schachner, Melitta, and Kleene, Ralf

Abstract

Proteolytic cleavage of the cell adhesion molecule L1 (L1) in brain tissue and in cultured cerebellar neurons results in the generation and nuclear import of a 30 kDa fragment comprising most of L1's C‐terminal, intracellular domain. In search of molecules that interact with this domain, we performed affinity chromatography with the recombinant intracellular L1 domain and a nuclear extract from mouse brains, and identified potential nuclear L1 binding partners involved in transcriptional regulation, RNA processing and transport, DNA repair, chromatin remodeling, and nucleocytoplasmic transport. By co‐immunoprecipitation and enzyme‐linked immunosorbent assay using recombinant proteins, we verified the direct interaction between L1 and the nuclear binding partners non‐POU domain containing octamer‐binding protein and splicing factor proline/glutamine‐rich. The proximity ligation assay confirmed this close interaction in cultures of cerebellar granule cells. Our findings suggest that L1 fragments regulate multiple nuclear functions in the nervous system. We discuss possible physiological and pathological roles of these interactions in regulation of chromatin structure, gene expression, RNA processing, and DNA repair. [ABSTRACT FROM AUTHOR]

Published

2020

8. A Small Organic Compound Mimicking the L1 Cell Adhesion Molecule Promotes Functional Recovery after Spinal Cord Injury in Zebrafish.

Author

Sahu, Sudhanshu, Zhang, Zhihua, Li, Rong, Hu, Junkai, Shen, Huifan, Loers, Gabriele, Shen, Yanqin, and Schachner, Melitta

Abstract

Tacrine is a small organic compound that was discovered to mimic the functions of the neural cell adhesion molecule L1 by promoting the cognate functions of L1 in vitro, such as neuronal survival, neuronal migration, neurite outgrowth, and myelination. Based on studies indicating that L1 enhances functional recovery in different central and peripheral nervous system disease paradigms of rodents, it deemed interesting to investigate the beneficial role of tacrine in the attractive zebrafish animal model, by evaluating functional recovery after spinal cord injury. To this aim, larval and adult zebrafish were exposed to tacrine treatment after spinal cord injury and monitored for locomotor recovery and axonal regrowth. Tacrine promoted the rapid recovery of locomotor activities in both larval and adult zebrafish, enhanced regrowth of severed axons and myelination, and reduced astrogliosis in the spinal cords. Tacrine treatment upregulated the expression of L1.1 (a homolog of the mammalian recognition molecule L1) and enhanced the L1.1-mediated intracellular signaling cascades in the injured spinal cords. These observations lead to the hope that, in combination with other therapeutic approaches, this old drug may become a useful reagent to ameliorate the deficits resulting from acute and chronic injuries of the mammalian nervous system. [ABSTRACT FROM AUTHOR]

Published

2018

9. The Cell Adhesion Molecule L1 Interacts with Methyl CpG Binding Protein 2 via Its Intracellular Domain

Author

Gabriele Loers, Ralf Kleene, Maria Girbes Minguez, and Melitta Schachner

Subjects

congenital, hereditary, and neonatal diseases and abnormalities, Methyl-CpG-Binding Protein 2, Organic Chemistry, cell adhesion molecule L1, proteolytic processing, nuclear import, methyl-CpG-binding protein 2, Neural Cell Adhesion Molecule L1, General Medicine, Catalysis, Computer Science Applications, nervous system diseases, Inorganic Chemistry, Mice, HEK293 Cells, mental disorders, Animals, Aspartic Acid Endopeptidases, Humans, Physical and Theoretical Chemistry, Amyloid Precursor Protein Secretases, RNA, Small Interfering, Molecular Biology, Spectroscopy

Abstract

Cell adhesion molecule L1 regulates multiple cell functions, and L1 deficiency is linked to several neural diseases. Recently, we have identified methyl CpG binding protein 2 (MeCP2) as a potential binding partner of the intracellular L1 domain. By ELISA we show here that L1’s intracellular domain binds directly to MeCP2 via the sequence motif KDET. Proximity ligation assay with cultured cerebellar and cortical neurons suggests a close association between L1 and MeCP2 in nuclei of neurons. Immunoprecipitation using MeCP2 antibodies and nuclear mouse brain extracts indicates that MeCP2 interacts with an L1 fragment of ~55 kDa (L1−55). Proximity ligation assay indicates that metalloproteases, β-site of amyloid precursor protein cleaving enzyme (BACE1) and ɣ-secretase, are involved in the generation of L1−55. Reduction in MeCP2 expression by siRNA decreases L1-dependent neurite outgrowth from cultured cortical neurons as well as the migration of L1-expressing HEK293 cells. Moreover, L1 siRNA, MeCP2 siRNA, or a cell-penetrating KDET-containing L1 peptide leads to reduced levels of myocyte enhancer factor 2C (Mef2c) mRNA and protein in cortical neurons, suggesting that the MeCP2/L1 interaction regulates Mef2c expression. Altogether, the present findings indicate that the interaction of the novel fragment L1−55 with MeCP2 affects L1-dependent functions, such as neurite outgrowth and neuronal migration.

Published

2022

10. Small Molecule Agonists of Cell Adhesion Molecule L1 Mimic L1 Functions In Vivo.

Author

Kataria, Hardeep, Lutz, David, Chaudhary, Harshita, Schachner, Melitta, and Loers, Gabriele

Abstract

Lack of permissive mechanisms and abundance of inhibitory molecules in the lesioned central nervous system of adult mammals contribute to the failure of functional recovery after injury, leading to severe disabilities in motor functions and pain. Peripheral nerve injury impairs motor, sensory, and autonomic functions, particularly in cases where nerve gaps are large and chronic nerve injury ensues. Previous studies have indicated that the neural cell adhesion molecule L1 constitutes a viable target to promote regeneration after acute injury. We screened libraries of known drugs for small molecule agonists of L1 and evaluated the effect of hit compounds in cell-based assays in vitro and in mice after femoral nerve and spinal cord injuries in vivo. We identified eight small molecule L1 agonists and showed in cell-based assays that they stimulate neuronal survival, neuronal migration, and neurite outgrowth and enhance Schwann cell proliferation and migration and myelination of neurons in an L1-dependent manner. In a femoral nerve injury mouse model, enhanced functional regeneration and remyelination after application of the L1 agonists were observed. In a spinal cord injury mouse model, L1 agonists improved recovery of motor functions, being paralleled by enhanced remyelination, neuronal survival, and monoaminergic innervation, reduced astrogliosis, and activation of microglia. Together, these findings suggest that application of small organic compounds that bind to L1 and stimulate the beneficial homophilic L1 functions may prove to be a valuable addition to treatments of nervous system injuries. [ABSTRACT FROM AUTHOR]

Published

2016

11. Myelin Basic Protein Cleaves Cell Adhesion Molecule L1 and Improves Regeneration After Injury.

Author

Lutz, David, Kataria, Hardeep, Kleene, Ralf, Loers, Gabriele, Chaudhary, Harshita, Guseva, Daria, Wu, Bin, Jakovcevski, Igor, and Schachner, Melitta

Abstract

Myelin basic protein (MBP) is a serine protease that cleaves neural cell adhesion molecule L1 and generates a transmembrane L1 fragment which facilitates L1-dependent functions in vitro, such as neurite outgrowth, neuronal cell migration and survival, myelination by Schwann cells as well as Schwann cell proliferation, migration, and process formation. Ablation and blocking of MBP or disruption of its proteolytic activity by mutation of a proteolytically active serine residue abolish L1-dependent cellular responses. In utero injection of adeno-associated virus encoding proteolytically active MBP into MBP-deficient shiverer mice normalizes differentiation, myelination, and synaptogenesis in the developing postnatal spinal cord, in contrast to proteolytically inactive MBP. Application of active MBP to the injured wild-type spinal cord and femoral nerve augments levels of a transmembrane L1 fragment, promotes remyelination, and improves functional recovery after injury. Application of MBP antibody impairs recovery. Virus-mediated expression of active MBP in the lesion site after spinal cord injury results in improved functional recovery, whereas injection of virus encoding proteolytically inactive MBP fails to do so. The present study provides evidence for a novel L1-mediated function of MBP in the developing spinal cord and in the injured adult mammalian nervous system that leads to enhanced recovery after acute trauma. [ABSTRACT FROM AUTHOR]

Published

2016

12. A Fab fragment directed against the neural cell adhesion molecule L1 enhances functional recovery after injury of the adult mouse spinal cord.

Author

LOERS, Gabriele, Yi-Fang CUI, NEUMAIER, Irmgard, SCHACHNER, Melitta, and SKERRA, Arne

Subjects

*SPINAL cord injuries, *NEURAL cell adhesion molecule, *CENTRAL nervous system, *GENE expression, *LABORATORY mice

Abstract

Lack of permissive mechanisms and abundance of inhibitory molecules in the lesioned central nervous system of adult mammals contribute to the failure of functional recovery, which leads to severe disabilities in motor functions or pain. Previous studies have indicated that the neural cell adhesion molecule L1 constitutes a viable target to promote regeneration. In the present study, we describe the cloning, functional expression in Escherichia coli cells and purification of a recombinant aL1 Fab fragment that binds to L1 with comparable activity as the function-triggering monoclonal antibody 557.B6 and induces neurite outgrowth and neuronal survival in cultured neurons, despite its monovalent function. Infusion of aL1 Fab into the lesioned spinal cord of mice enhanced functional recovery after thoracic spinal cord compression injury. aL1 Fab treatment resulted in reduced scar volume, enhanced number of tyrosine hydroxylase-positive axons and increased linear density of VGLUT1 (vesicular glutamate transporter 1) on motoneurons. Furthermore, the number and soma size of ChAT (choline acetyltransferase)-positive motoneurons and the linear density of ChAT-positive boutons on motoneurons as well as parvalbuminpositive interneurons in the lumbar spinal cord were elevated. Stimulation of endogenous L1 by application of the aL1 Fab opens newavenues for recombinant antibody technology, offering prospects for therapeutic applications after traumatic nervous system lesions. [ABSTRACT FROM AUTHOR]

Published

2014

13. Cathepsin E generates a sumoylated intracellular fragment of the cell adhesion molecule L1 to promote neuronal and Schwann cell migration as well as myelination.

Author

Lutz, David, Wolters‐Eisfeld, Gerrit, Schachner, Melitta, and Kleene, Ralf

Subjects

*CELL adhesion, *SCHWANN cells, *MYELINATION, *NERVOUS system, *CATHEPSINS

Abstract

The cell adhesion molecule L1 regulates cellular responses in the developing and adult nervous system. Here, we show that stimulation of cultured mouse cerebellar neurons by a function-triggering L1 antibody leads to cathepsin E-mediated generation of a sumoylated 30 kDa L1 fragment (L1-30) and to import of L1-30 into the nucleus. Mutation of the sumoylation site at K1172 or the cathepsin E cleavage site at E1167 abolishes generation of L1-30, while mutation of the nuclear localization signal at K1147 prevents nuclear import of L1-30. Moreover, the aspartyl protease inhibitor pepstatin impairs the generation of L1-30 and inhibits L1-induced migration of cerebellar neurons and Schwann cells as well as L1-dependent in vitro myelination on axons of dorsal root ganglion neurons by Schwann cells. L1-stimulated migration of HEK293 cells expressing L1 with mutated cathepsin E cleavage site is diminished in comparison to migration of cells expressing non-mutated L1. In addition, L1-stimulated migration of HEK293 cells expressing non-mutated L1 is also abolished upon knock-down of cathepsin E expression and enhanced by over-expression of cathepsin E. The findings of the present study indicate that generation and nuclear import of L1-30 regulate neuronal and Schwann cell migration as well as myelination. [ABSTRACT FROM AUTHOR]

Published

2014

14. L1CAM ubiquitination facilitates its lysosomal degradation

Author

Schäfer, Michael K.E., Schmitz, Brigitte, and Diestel, Simone

Subjects

*LYSOSOMES, *IMMUNOBLOTTING, *HEMAGGLUTININ, *UBIQUITIN, *CELL migration, *NERVOUS system, *CELL adhesion molecules

Abstract

Abstract: The cell adhesion molecule L1 is implicated in several processes in the developing and adult nervous system. Intracellular trafficking of L1 is important for cell migration, neurite growth and adhesion. We demonstrate here that L1 is ubiquitinated at the plasma membrane and in early endosomes. Mono-ubiquitination regulates L1 intracellular trafficking by enhancing its lysosomal degradation. We propose that L1’s ubiquitination might be an additional mechanism to control its re-appearance at the cell surface thereby influencing processes like neurite growth and cell adhesion. [ABSTRACT FROM AUTHOR]

Published

2010

15. Production and N-glycosylation of recombinant human cell adhesion molecule L1 from insect cells using the stable expression system. Effect of dimethyl sulfoxide

Author

Gouveia, Ricardo, Kandzia, Sebastian, Conradt, Harald S., and Costa, Júlia

Subjects

*GLYCOSYLATION, *IMMUNOGLOBULINS, *MATRIX-assisted laser desorption-ionization, *INSECT cell biotechnology, *DIMETHYL sulfoxide, *DRUG efficacy, *CELL adhesion molecules, *GENE expression

Abstract

Abstract: L1 is a cell adhesion molecule that is heavily glycosylated and is essential for normal development of the central nervous system. In this work, we compare the N-glycosylation of the L1 mutant that consists of immunoglobulin domains 5 and 6 (L1/Ig5–6), expressed in insect Spodoptera frugiperda Sf9 and Trichoplusia ni Tn cells, using the stable expression system. L1/Ig5–6 levels of 30 and 8mgl−1 were obtained from the two cell lines, respectively. The N-glycans were characterized by high-performance anion-exchange-chromatography with pulsed-amperometric-detection and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. The N-glycans from Sf9 cells were more homogeneous and consisted predominantly of the paucimannose-type structure Manα6(Manα3)Manβ4GlcNAcβ4(Fucα6)GlcNAc. On the other hand, the N-glycans from Tn cells were more heterogeneous and consisted of paucimannose-type structures with or without terminal N-acetylglucosamine. Allergenic proximal α3-linked fucose was only found in Tn cells. Dimethyl sulfoxide at 1.5% concentration has been found to increase the levels of L1/Ig5–6 and the L1 ectodomain in the Sf9 and Tn cells, without affecting cell viability nor protein integrity. Furthermore, the N-glycan composition of L1/Ig5–6 was not affected by dimethyl sulfoxide, with only a slight increase in the percentage of the minor high-mannose-type structures. [Copyright &y& Elsevier]

Published

2010

16. The role of cell adhesion molecule L1 in axonal extension, growth cone motility, and signal transduction.

Author

Burden-Gulley, Susan M., Pendergast, Maryanne, and Lemmon, Vance

Abstract

Axonal pathfinding is a complex process dependent on cell-cell and cell-matrix interactions. L1 is a cell adhesion molecule that is abundant in the nervous system and that is concentrated on axons. As a culture substrate, L1 is a potent promoter of neurite outgrowth and elicits specific growth cone behavior. It interacts with the actin cytoskeleton via an ankyrin linkage and promotes specific distribution of F-actin within the growth cone. In addition, L1 has been implicated in signal transduction. For example, L1 is associated with kinases, L1-L1 binding regulates second messenger systems, and mutations in the L1 gene in humans result in abnormalities in the development of the corticospinal tract and corpus callosum. In this short review, recent advances in understanding the way in which L1 regulates growth cone behavior will be discussed. [ABSTRACT FROM AUTHOR]

Published

1997

17. Cell Recognition Molecule L1 Regulates Cell Surface Glycosylation to Modulate Cell Survival and Migration

Author

Jianfeng Zhao, Zhenwei He, Shi Gang, Yingwei Lin, Pang Nghee Kheem Brendan, Yue An, Yang Shihua, Fang Liu, Zhang Rui, Yali Li, Xiaofei Yan, and Yue Du

Subjects

0301 basic medicine, MAPK/ERK pathway, Glycosylation, Fucosylation, Cell Survival, MAP Kinase Signaling System, Cell, Neural Cell Adhesion Molecule L1, CHO Cells, Sialylation, 03 medical and health sciences, Phosphatidylinositol 3-Kinases, 0302 clinical medicine, Cricetulus, Cell Movement, medicine, Animals, Chemistry, Chinese hamster ovary cell, Cell Membrane, Cell migration, General Medicine, Fucosyltransferases, Sialyltransferases, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Cell culture, 030220 oncology & carcinogenesis, CHO cells, Cancer cell, Cell adhesion molecule L1, Signal transduction, Research Paper

Abstract

Background: Cell recognition molecule L1 (L1) plays an important role in cancer cell differentiation, proliferation, migration and survival, but its mechanism remains unclear. Methodology/Principal: Our previous study has demonstrated that L1 enhanced cell survival and migration in neural cells by regulating cell surface glycosylation. In the present study, we show that L1 affected cell migration and survival in CHO (Chinese hamster ovary) cell line by modulation of sialylation and fucosylation at the cell surface via the PI3K (phosphoinositide 3-kinase) and Erk (extracellularsignal-regulated kinase) signaling pathways. Flow cytometry analysis indicated that L1 modulated cell surface sialylation and fucosylation in CHO cells. Activated L1 upregulated the protein expressions of ST6Gal1 (β-galactoside α-2,6-sialyltransferase 1) and FUT9 (Fucosyltransferase 9) in CHO cells. Furthermore, activated L1 promoted CHO cells migration and survival as shown by transwell assay and MTT assay. Inhibitors of sialylation and fucosylation blocked L1-induced cell migration and survival, while decreasing FUT9 and ST6Gal1 expressions via the PI3K-dependent and Erk-dependent signaling pathways. Conclusion : L1 modulated cell migration and survival by regulation of cell surface sialylation and fucosylation via the PI3K-dependent and Erk-dependent signaling pathways.

Published

2017

18. The cell adhesion molecule L1 regulates the expression of FGF21 and enhances neurite outgrowth

Author

Ying Li, Lei Zhou, Zara Zhuyun Yang, Hongmei Zhu, Xiaohua Huang, Yali Li, Melitta Schachner, Jiliang Hu Hu, Keli Ma, and Zhi-Cheng Xiao

Subjects

FGF21, Neurite, Neurogenesis, Cell Adhesion Molecule L1, Neural Cell Adhesion Molecule L1, Mice, Cerebellum, Neurites, Animals, Humans, Molecular Biology, Gene, Cells, Cultured, biology, Chemistry, General Neuroscience, Cell biology, Fibroblast Growth Factors, Mrna level, Fibroblast growth factor receptor, Cancer research, biology.protein, Neurology (clinical), Antibody, Neural development, Signal Transduction, Developmental Biology

Abstract

L1 plays a role in neural development. However, it remains unclear how L1 plays this role. In the present study, we have shown extensive outgrowth of long neurites in cerebellar neurons after treatment with either L1 or L1 antibody. Notably, the mRNA level of FGF21 was significantly increased in both L1 and L1 antibody treated neurons compared to control group. Consistently, the neurite outgrowth promoted by L1 was strongly inhibited by siRNA against FGF21 gene or a treatment of cells with FGFR inhibitor. These results demonstrate that FGF21/FGFR signaling promotes the neurite outgrowth in a L1-dependent manner.

Published

2013

19. Glycoconjugate expression in adenoid cystic carcinoma of the salivary glands: up-regulation of L1 predicts fatal prognosis

Author

Janina Teegen, Thomas Löning, Udo Schumacher, Anka Dahl, and Peter Altevogt

Subjects

chemistry.chemical_classification, Pathology, medicine.medical_specialty, Histology, Cell adhesion molecule, Glycoconjugate, Adenoid cystic carcinoma, Cell Adhesion Molecule L1, General Medicine, Biology, medicine.disease, Pathology and Forensic Medicine, Metastasis, Downregulation and upregulation, chemistry, Molecular targets, medicine, Survival rate

Abstract

Dahl A, Teegen J, Altevogt P, Loning T & Schumacher U (2011) Histopathology59, 299–307 Glycoconjugate expression in adenoid cystic carcinoma of the salivary glands: up-regulation of L1 predicts fatal prognosis Aims: The up-regulation of the cell adhesion molecule L1 has been associated with impaired prognosis in several cancers. This study aimed to identify potential prognostic markers, including L1, in adenoid cystic carcinoma of the salivary glands (ACCs), which might give additional insight into the molecular mechanisms underlying malignant progression. Methods and results: The expression of L1 was analysed in 34 primary ACCs (nine tubular, 15 cribriform, nine solid, one mixed) and correlated with recurrence, metastasis, overall survival and clinicopathological parameters. Independent of the histological subtype, intense L1 expression in the primary tumours was associated significantly with metastasis (P = 0.02) and death (P = 0.044). In the subgroup of cribriform ACCs, 10 of 15 tumours contained pseudocysts, which were associated with significantly lower recurrence rates (P = 0.003), lower metastasis rates (P = 0.009) and a prolonged overall survival (P =0.004). Conclusions: Determination of L1 expression in primary ACCs improves risk estimations. As up-regulation of L1 expression predicts fatal prognosis, L1 might be involved functionally in growth and spread of ACC and might thus present a molecular target for future therapeutic strategies.

Published

2011

20. The induction of cell alignment by covalently immobilized gradients of the 6th Ig-like domain of cell adhesion molecule L1 in 3D-fibrin matrices

Author

Patrick Hänseler, Barbara Grant, Tessa Lühmann, and Heike Hall

Subjects

Materials science, Recombinant Fusion Proteins, Cell, Biophysics, Cell Adhesion Molecule L1, Immunoglobulins, Neural Cell Adhesion Molecule L1, Bioengineering, Fibrin, Cell Line, Biomaterials, Extracellular matrix, Matrix (mathematics), Cell Movement, medicine, Animals, Humans, Fibroblast, Transglutaminases, biology, Protein Stability, Cell growth, Serum Albumin, Bovine, Fibroblasts, Extracellular Matrix, Protein Structure, Tertiary, Cell biology, Immobilized Proteins, medicine.anatomical_structure, Solubility, Mechanics of Materials, Covalent bond, Ceramics and Composites, biology.protein, Cattle

Abstract

Concentration gradients of matrix-bound guidance cues in the extracellular matrix direct cell growth in native tissues and are of great interest for the design of biomedical scaffolds and on implant surfaces. This study describes effects of covalently immobilized gradients of the 6th Ig-like domain of cell adhesion molecule L1 (TG-L1Ig6) within 3D-fibrin matrices on cell alignment. Linear gradients of TG-L1Ig6 were established and shown to be stable for at least 24 h whereas soluble gradients disappeared completely. Fibroblast alignment along the gradients was observed when cultured on top and within TG-L1Ig6-gradient matrices. Fibroblasts responded to an increase of 0.2 microg TG-L1Ig6/ml per mm matrix, corresponding to a concentration change of1% per cell. Significant differences were observed when fibroblasts were cultured within the TG-L1Ig6-gradient matrices as the number of aligned cells decreased by 20-30% in the middle of the gradient when compared to cells cultivated on top of the gradient. This finding might be explained by approximately 13% reduction in the average cell length of fibroblasts within compared to fibroblasts cultured on top of the gradient matrix. In contrast to fibroblasts endothelial cells did not show any alignment with TG-L1Ig6-gradient matrices. The study indicates that cells exposed to gradients of matrix-bound TG-L1Ig6 are able to respond differentially to 2D- or 3D-environments suggesting the use of gradients for cell guidance within 3D-scaffolds and on implant surfaces to improve their biomedical functions.

Published

2009

21. The Role of Cytoplasmic Serine Residues of the Cell Adhesion Molecule L1 in Neurite Outgrowth, Endocytosis, and Cell Migration

Author

Schultheis, M., Diestel, S., and Schmitz, B.

Published

2007

22. L1CAM Beneficially Inhibits Histone Deacetylase 2 Expression under Conditions of Alzheimer's Disease.

Author

Hu C, Hu J, Meng X, Zhang H, Shen H, Huang P, Schachner M, and Zhao W

Subjects

Alzheimer Disease chemically induced, Alzheimer Disease pathology, Amyloid beta-Peptides toxicity, Animals, Cells, Cultured, Female, Hippocampus metabolism, Hippocampus pathology, Histone Deacetylase 2 antagonists & inhibitors, Male, Mice, Mice, 129 Strain, Mice, Inbred C57BL, Mice, Knockout, Mice, Transgenic, Peptide Fragments toxicity, Alzheimer Disease metabolism, Gene Expression Regulation, Enzymologic, Histone Deacetylase 2 biosynthesis, Neural Cell Adhesion Molecule L1 administration & dosage, Neural Cell Adhesion Molecule L1 deficiency

Abstract

Background: Cognitive capacities in Alzheimer's Disease (AD) are impaired by an epigenetic blockade mediated by histone deacetylase 2 (HDAC2), which prevents the transcription of genes that are important for synaptic plasticity., Objective: Investigation of the functional relationship between cell adhesion molecule L1 and HDAC2 in AD., Methods: Cultures of dissociated cortical and hippocampal neurons from wild-type or L1-deficient mice were treated with Aβ1-42 for 24 h. After removal of Aβ1-42 cells were treated with the recombinant L1 extracellular domain (rL1) for 24 h followed by immunohistochemistry, western blotting, and reverse transcription PCR to evaluate the interaction between L1 and HDAC2., Results: Aβ and HDAC2 protein levels were increased in APPSWE/L1+/- mutant brains compared to APPSWE mutant brains. Administration of the recombinant extracellular domain of L1 to cultured cortical and hippocampal neurons reduced HDAC2 mRNA and protein levels. In parallel, reduced phosphorylation levels of glucocorticoid receptor 1 (GR1), which is implicated in regulating HDAC2 levels, was observed in response to L1 administration. Application of a glucocorticoid receptor inhibitor reduced Aβ-induced GR1 phosphorylation and prevented the increase in HDAC2 levels. HDAC2 protein levels were increased in cultured cortical neurons from L1-deficient mice. This change could be reversed by the administration of the recombinant extracellular domain of L1., Conclusion: Our results suggest that some functionally interdependent activities of L1 and HDAC2 contribute to ameliorating the phenotype of AD by GR1 dephosphorylation, which leads to reduced HDAC2 expression. The combined findings encourage further investigations on the beneficial effects of L1 in the treatment of AD., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2020

23. The cytoplasmic domain of the cell adhesion molecule L1 is not required for homophilic adhesion

Author

Guanghui Cheng, H. Ross Payne, Vance Lemmon, and Eric V. Wong

Subjects

Cytoplasm, DNA, Complementary, Molecular Sequence Data, Cell, Cell Adhesion Molecule L1, Homology (biology), Species Specificity, Cell Adhesion, Tumor Cells, Cultured, medicine, Animals, Humans, Amino Acid Sequence, Cell adhesion, Neural Cell Adhesion Molecules, Conserved Sequence, Cell adhesion molecule, Chemistry, General Neuroscience, Cell biology, medicine.anatomical_structure, Neural cell adhesion molecule, Chickens, Leukocyte L1 Antigen Complex, Protein Binding

Abstract

L1 is a highly conserved cell adhesion molecule with complete homology of the cytoplasmic domain between the known mammalian protein sequences. Since the cytoplasmic domains of other adhesion molecules have been shown to influence adhesion, we have investigated the effects of deletion of the cytoplasmic domain on the ability of L1 to mediate homophilic adhesion. Full length L1 and a truncated L1, lacking 95% of the cytoplasmic domain, were expressed in myeloma cells. Independent stable transfectants were assayed for the ability to form aggregates. Myelomas expressing L1 lacking the cytoplasmic domain were able to form cell aggregates as well as the myelomas expressing full length L1. Cell aggregate formation was correlated with the level of L1 expression, and the aggregation could be blocked by anti-L1 Fabs. Similar results were obtained in adhesion assays of the myeloma cells to substrate-bound L1. These results indicate that the cytoplasmic domain of L1 is not required for homophilic interactions.

Published

1995

24. The cell adhesion molecule L1 regulates the expression of choline acetyltransferase and the development of septal cholinergic neurons

Author

M. Teresa Girão da Cruz, Melitta Schachner, Alison Burgess, Isabelle Frappé, Ying-Qi Weng, Xuezhi Cui, and Isabelle Aubert

Subjects

medicine.medical_specialty, striatum, Hippocampus, Stereology, Striatum, Biology, 03 medical and health sciences, Behavioral Neuroscience, 0302 clinical medicine, cell adhesion molecule L1, L1-deficient mice, medial septum, Internal medicine, mental disorders, medicine, Cholinergic neuron, 030304 developmental biology, Original Research, 0303 health sciences, Cell cycle, Choline acetyltransferase, choline acetyltransferase, Diagonal band of Broca, medicine.anatomical_structure, Endocrinology, Caudate-putamen, nervous system, biology.protein, stereology, vertical limb of diagonal band of Broca, cholinergic neurons, NeuN, Neuroscience, 030217 neurology & neurosurgery

Abstract

Mutations in the L1 gene cause severe brain malformations and mental retardation. We investigated the potential roles of L1 in the regulation of choline acetyltransferase (ChAT) and in the development of septal cholinergic neurons, which are known to project to the hippocampus and play key roles in cognitive functions. Using stereological approaches, we detected significantly fewer ChAT-positive cholinergic neurons in the medial septum and vertical limb of the diagonal band of Broca (MS/VDB) of 2-week-old L1-deficient mice compared to wild-type littermates (1644 ± 137 vs. 2051 ± 165, P = 0.038). ChAT protein levels in the septum were 53% lower in 2-week-old L1-deficient mice compared to wild-type littermates. ChAT activity in the septum was significantly reduced in L1-deficient mice compared to wild-type littermates at 1 (34%) and 2 (40%) weeks of age. In vitro, increasing doses of L1-Fc induced ChAT activity in septal neurons with a significant linear trend (*P = 0.0065). At 4 weeks of age in the septum and at all time points investigated in the caudate-putamen (CPu), the number of ChAT-positive neurons and the levels of ChAT activity were not statistically different between L1-deficient mice and wild-type littermates. The total number of cells positive for the neuronal nuclear antigen (NeuN) in the MS/VDB and CPu was not statistically different in L1-deficient mice compared to wild-type littermates, and comparable expression of the cell cycle marker Ki67 was observed. Our results indicate that L1 is required for the timely maturation of septal cholinergic neurons and that L1 promotes the expression and activity of ChAT in septal neurons.

Published

2011

25. Induction of L1 and L2 beta-lactamase production in Stenotrophomonas maltophilia is dependent on an AmpR-type regulator

Author

Aki Okazaki and Matthew B. Avison

Subjects

Stenotrophomonas maltophilia, Regulator, Cell Adhesion Molecule L1, medicine.disease_cause, beta-Lactams, beta-Lactamases, Microbiology, Beta-lactam, chemistry.chemical_compound, Bacterial Proteins, Mechanisms of Resistance, Genes, Regulator, medicine, Humans, Pharmacology (medical), Enzyme inducer, Pharmacology, Mutation, biology, Gene Expression Regulation, Bacterial, biology.organism_classification, Infectious Diseases, chemistry, Enzyme Induction, Pseudomonadales, biology.protein, Pseudomonadaceae

Abstract

A divergently orientedampRhas been located upstream ofblaL2inStenotrophomonas maltophilia. AmpR is necessary for L1 and L2 β-lactamase induction in response to β-lactam challenge, and activation of AmpR is sufficient to induce L1 and L2 production. L1 induction requires more activation of AmpR than does L2 induction.

Published

2008

26. P16 ink4a and HPV L1 immunohistochemistry is helpful for estimating the behavior of low-grade dysplastic lesions of the cervix uteri

Author

Sonia Antoniazzi, Armin Kasal, Gavino Faa, Giovanni Negri, Giulia Bellisano, Eduard Egarter-Vigl, Rossano Ambu, Gian Franco Zannoni, Fabio Vittadello, and Francesco Rivasi

Subjects

Adult, medicine.medical_specialty, Pathology, HPV, Cell Adhesion Molecule L1, Uterine Cervical Neoplasms, p16, Biology, Pathology and Forensic Medicine, Carcinoma, medicine, Biomarkers, Tumor, Humans, Human papillomavirus, L1, cervical dysplasia, biologic behavior, Cervix, Cyclin-Dependent Kinase Inhibitor p16, Papillomavirus Infections, Anatomical pathology, Oncogene Proteins, Viral, medicine.disease, Prognosis, Uterine Cervical Dysplasia, Immunohistochemistry, Clinical Practice, medicine.anatomical_structure, Carcinoma, Squamous Cell, Disease Progression, Surgery, Capsid Proteins, Female, Anatomy, Premalignant lesion

Abstract

As only a minority of low-grade dysplastic lesions of the cervix uteri will eventually progress to carcinoma, predicting the behavior of these lesions could be of high value in clinical practice. The aim of the study was to evaluate p16 ink4a and L1 as immunohistochemical markers of the biologic potentiality of low-grade dysplasia of the uterine cervix. The study included 38 conization specimens with coexisting cervical intraepithelial neoplasia grade 1 (CIN1) and 3 (CIN3) (group A) and 28 punch biopsies from women with CIN1 and proven spontaneous regression in the follow-up (group B). In group A, all CIN3 were p16 ink4a positive (p16+) and L1 negative (L1-). The CIN1 of this group were p16+L1- and p16+L1+ in 68.42% and 31.57%, respectively. No other expression pattern was found in this group. In group B, the p16+L1-, p16+L1+, p16-L1+, and p16-L1- patterns were found in 3.57%, 25%, 14.29%, and 57.14%, respectively. Overall, 96.29% p16+L1- CIN1 were found in group A, whereas all the p16-L1+ and p16-L1- CIN1 were found in group B. A significant difference between staining pattern distributions of group A and B was observed (P0.0001). The results of the study show that p16 ink4a and L1 immunohistochemistry can be helpful for estimating the biologic potentiality of low-grade squamous cervical lesions. Particularly in cases in which the grade of the lesion is morphologically difficult to assess, the p16/L1 expression pattern could be useful for planning the clinical management of these women.

Published

2008

27. The role of serine-phosphorylation of the cell adhesion molecule L1 in basal neurite outgrowth

Author

Brigitte Schmitz and Martina Schultheis

Subjects

Serine, Basal (phylogenetics), Neurite, Chemistry, Cell Adhesion Molecule L1, Phosphorylation, Neural cell adhesion molecule, Cell biology

Published

2002

28. Cell Recognition Molecule L1 Regulates Cell Surface Glycosylation to Modulate Cell Survival and Migration.

Author

Shi G, Du Y, Li Y, An Y, He Z, Lin Y, Zhang R, Yan X, Zhao J, Yang S, Brendan PNK, and Liu F

Subjects

Animals, CHO Cells, Cell Membrane metabolism, Cricetulus, Fucosyltransferases metabolism, Glycosylation, Phosphatidylinositol 3-Kinases metabolism, Sialyltransferases metabolism, Cell Movement physiology, Cell Survival physiology, MAP Kinase Signaling System physiology, Neural Cell Adhesion Molecule L1 physiology

Abstract

Background : Cell recognition molecule L1 (L1) plays an important role in cancer cell differentiation, proliferation, migration and survival, but its mechanism remains unclear. Methodology/Principal : Our previous study has demonstrated that L1 enhanced cell survival and migration in neural cells by regulating cell surface glycosylation. In the present study, we show that L1 affected cell migration and survival in CHO (Chinese hamster ovary) cell line by modulation of sialylation and fucosylation at the cell surface via the PI3K (phosphoinositide 3-kinase) and Erk (extracellularsignal-regulated kinase) signaling pathways. Flow cytometry analysis indicated that L1 modulated cell surface sialylation and fucosylation in CHO cells. Activated L1 upregulated the protein expressions of ST6Gal1 (β-galactoside α-2,6-sialyltransferase 1) and FUT9 (Fucosyltransferase 9) in CHO cells. Furthermore, activated L1 promoted CHO cells migration and survival as shown by transwell assay and MTT assay. Inhibitors of sialylation and fucosylation blocked L1-induced cell migration and survival, while decreasing FUT9 and ST6Gal1 expressions via the PI3K-dependent and Erk-dependent signaling pathways. Conclusion : L1 modulated cell migration and survival by regulation of cell surface sialylation and fucosylation via the PI3K-dependent and Erk-dependent signaling pathways., Competing Interests: Competing Interests: The authors have declared that no competing interest exists.

Published

2017

29. The cell adhesion molecule L1 has a specific role in neural cell migration

Author

Hiroaki Asou, Keiichi Uyemura, Masaaki Kobayashi, and Masayuki Miura

Subjects

Cell Adhesion Molecules, Neuronal, Cell Adhesion Molecule L1, Fluorescent Antibody Technique, Biology, Transfection, Mice, Cell Movement, Cerebellum, Animals, Cloning, Molecular, Neural cell, Cells, Cultured, A determinant, Neurons, General Neuroscience, Substrate (chemistry), Adhesion, Cell biology, Rats, Cell binding, nervous system, Animals, Newborn, Neural cell adhesion molecule, Neuron migration, Neuroscience, Leukocyte L1 Antigen Complex

Abstract

L1-transfected L cells show a markedly enhanced ability for neuronal cell binding and promotion of neuron migration compared with control L cells. Further, when purified L1 was used as a culture substrate for neurons, it was found to promote neuronal adhesion and enhance the speed of migration of cerebellar neurons from reaggregated cultures, indicating that it is involved in a determinant step of neural cell migration.

Published

1992

30. 1133: Cell Adhesion Molecule L1 Counteracts Oxidative Stress-Induced Cell Death: A Potential Radiotherapy Target for Prostate Cancer Bone Metastasis

Author

Nicole A. Johnson, Ira Rajbhandari, Rebecca S. Arnold, Chia-Ling Hsieh, Peter A.S. Johnstone, John A. Petros, and Shian-Ying Sung

Subjects

Programmed cell death, business.industry, Urology, medicine.medical_treatment, Cell Adhesion Molecule L1, Bone metastasis, medicine.disease_cause, medicine.disease, Radiation therapy, Prostate cancer, Cancer research, Medicine, business, Oxidative stress

Published

2007

31. Molecular dynamics of cell adhesion molecule L1 induced by theta burst stimulation in rat hippocampus

Author

Kouichi Itoh, Masatomo Watanabe, and Yoshikatsu Aikawa

Subjects

Theta burst, Molecular dynamics, Chemistry, General Neuroscience, Cell Adhesion Molecule L1, Biophysics, Hippocampus, Stimulation, General Medicine

Published

2007

32. Brain construction goes straight

Author

William A. Wells

Subjects

Fasciculation, In This Issue, Morphogenesis, Cell Adhesion Molecule L1, medicine, Economic shortage, Cell Biology, medicine.symptom, Biology, Pathfinding, Cell biology

Abstract

[][1] Pathfinding is fine without L1–L1 binding. Brains of mice lacking the cell adhesion molecule L1 are a mess. Failures in neural migration, pathfinding, morphogenesis, and fasciculation result in shortages of cells in various regions and aberrant architecture. But now Itoh et

Published

2004

33. L1 immuno-based isolation of human embryonic stem cell-derived neurons.

Author

Limbach, Nina, Glaser, T., Opitz, T., Meiners, B., Endl, E., and Brüstle, O.

Subjects

CELL adhesion molecules, EMBRYONIC stem cells, NEURAL stem cells, CELL proliferation, NEURONS, CELL populations, CELL transplantation

Abstract

Differentiation of human embryonic stem cells (hESCs) into defined lineages adds new perspectives to the development of cell-based therapies, human cell-based assay and screening application. We have recently established conditions for the derivation of stably proliferating neural stem cells (NSCs) from hESCs. Under appropriate culture conditions these cells differentiate into both neurons and glia. Here we describe an immunoselection strategy for the purification of immature neurons. As selection marker we used the neuronal cell adhesion molecule L1, which was found to be expressed in a subset of differentiating hESC-derived NSCs. After 7 days of growth factor withdrawal-induced differentiation, 5,2 ± 2% of the cells had acquired an L1-positive phenotype. Pre-differentiated cultures were labeledwith an antibody to L1 and subjected to preparative fluorescence-activated-cell-sorting (FACS), yielding a cell population comprising more than 96% L1-positive neurons. Upon replating and further differentiation, the FACSorted cells adopted neuronal phenotypes and extended MAP2ab-positive neurites. Moreover, physiological analysis of these cells revealed a population of electrically excitable neurons. During long-term differentiation on primary mouse astrocytes L1(+) selected neurons gained sodium and potassium currents and fired repetitive action potentials upon sustained depolarization by 9 weeks of cultivation. Furthermore, they displayed surface expression of AMPA/kainate and GABA-A receptors as prerequisite for the formation of glutamatergic and GABAergic synapses. Our results indicate that L1-based immunoselection effectively enables the generation of highly enriched cultures of human ES cell-derived functional neurons without genetic modification. Since the sorted cells can be frozen and thawed, they represent an attractive source of human neurons for biomedical applications such as compound screening and cell transplantation. [ABSTRACT FROM AUTHOR]

Published

2007

34. Dynamic interaction between cerebellar granule cells and two types of cell adhesion molecule L1-transfected L cells

Author

Isao Nagata, Hiroaki Asou, and Keiichi Uyemura

Subjects

Cell adhesion molecule, Chemistry, Granule (cell biology), Cell Adhesion Molecule L1, Neural cell adhesion molecule, General Medicine, Transfection, Cell biology

Published

1994

35. Cell adhesion molecule L1 guides cell migration in primary reaggregation cultures of mouse cerebellar cells

Author

Masayuki Miura, Keiichi Uyemura, Hiroaki Asou, and Yasuo Takeda

Subjects

Primary (chemistry), Chemistry, Cell adhesion molecule, Cell Adhesion Molecule L1, Cell migration, Neural cell adhesion molecule, General Medicine, Cell adhesion, Cell biology

Published

1992

36. Cell-cell contact modulates expression of cell adhesion molecule L1 in PC12 cells

Author

Akihiko Wada, Hideyuki Kobayashi, Futoshi Izumi, Yoshiro Koda, and Tsunetaka Mizuki

Subjects

Pharmacology, Cell cell contact, Chemistry, Cell Adhesion Molecule L1, Cell biology

Published

1991