Biochemical characterizations of the central fragment of human Reelin and identification of amino acid residues involved in its secretion.

Secreted protein Reelin is implicated in neuropsychiatric disorders and its supplementation ameliorates neurological symptoms in mouse disease models. Recombinant human Reelin protein may be useful for the treatment of human diseases, but its properties remain uncharacterized. Here, we report that full-length human Reelin was well secreted from transfected cells and was able to induce Dab1 phosphorylation.

EphA4 Induces the Phosphorylation of an Intracellular Adaptor Protein Dab1 via Src Family Kinases.

Dab1 is an intracellular adaptor protein essential for brain formation during development. Tyrosine phosphorylation in Dab1 plays important roles in neuronal migration, dendrite development, and synapse formation by affecting several downstream pathways. Reelin is the best-known extracellular protein that induces Dab1 phosphorylation.

Postnatal injection of Reelin protein into the cerebellum ameliorates the motor functions in reeler mouse.

Reelin is a large secreted protein important for brain development and functions. In both humans and mice, the lack of Reelin gene causes cerebellar hypoplasia and ataxia. Treatment against Reelin deficiency is currently unavailable.

Reelin regulates the migration of late-born hippocampal CA1 neurons via cofilin phosphorylation.

Reelin, a large secreted glycoprotein, plays an important role in neuronal migration during brain development. The C-terminal region (CTR) of Reelin is involved in the efficient activation of downstream signaling and its loss leads to abnormal hippocampal layer formation. However, the molecular mechanism by which Reelin CTR regulates hippocampal development remains unknown.

Visualization of Reelin Secretion from Primary Cultured Neurons by Bioluminescence Imaging.

Reelin is a secreted glycoprotein important for brain development and synaptic plasticity in the adult brain. Some reports suggest that Reelin is secreted from the nerve terminals and functions as a neurotransmitter. However, the mechanism of Reelin secretion is unknown.

Microinjection of Reelin into the mPFC prevents MK-801-induced recognition memory impairment in mice.

Reelin, a large extracellular matrix protein, helps to regulate neuronal plasticity and cognitive function. Several studies have shown that Reelin dysfunction, resulting from factors such as mutations in gene RELN or low Reelin expression, is associated with schizophrenia (SCZ). We previously reported that microinjection of Reelin into cerebral ventricle prevents phencyclidine-induced cognitive and sensory-motor gating deficits.

Regulation of Reelin functions by specific proteolytic processing in the brain.

The secreted glycoprotein Reelin plays important roles in both brain development and function. During development, Reelin regulates neuronal migration and dendrite development. In the mature brain, the glycoprotein is involved in synaptogenesis and synaptic plasticity.

Analysis of Reelin signaling and neurodevelopmental trajectory in primary cultured cortical neurons with RELN deletion identified in schizophrenia.

Reelin, an extracellular matrix protein, is secreted by Cajal-Retzius cells and plays crucial roles in the development of brain structures and neuronal functions. Reductions in Reelin cause the brain dysfunctions associated with mental disorders, such as schizophrenia. A recent genome-wide copy number variation analysis of Japanese schizophrenia patients identified a novel deletion in RELN encoding Reelin.

Structural studies of reelin N-terminal region provides insights into a unique structural arrangement and functional multimerization.

The large, secreted glycoprotein reelin regulates embryonic brain development as well as adult brain functions. Although reelin binds to its receptors via its central part, the N-terminal region directs multimer formation and is critical for efficient signal transduction. In fact, the inhibitory antibody CR-50 interacts with the N-terminal region and prevents higher-order multimerization and signalling.

Reelin-Nrp1 Interaction Regulates Neocortical Dendrite Development in a Context-Specific Manner.

Reelin plays versatile roles in neocortical development. The C-terminal region (CTR) of Reelin is required for the correct formation of the superficial structure of the neocortex; however, the mechanisms by which this position-specific effect occurs remain largely unknown. In this study, we demonstrate that Reelin with an intact CTR binds to neuropilin-1 (Nrp1), a transmembrane protein.

Reelin Supplementation Into the Hippocampus Rescues Abnormal Behavior in a Mouse Model of Neurodevelopmental Disorders.

In the majority of schizophrenia patients, chronic atypical antipsychotic administration produces a significant reduction in or even complete remission of psychotic symptoms such as hallucinations and delusions. However, these drugs are not effective in improving cognitive and emotional deficits in patients with schizophrenia. Atypical antipsychotic drugs have a high affinity for the dopamine D receptor, and a modest affinity for the serotonin 5-HT receptor.

Physiological significance of proteolytic processing of Reelin revealed by cleavage-resistant Reelin knock-in mice.

Reelin is a secreted protein that plays versatile roles in neuronal development and function. The strength of Reelin signaling is regulated by proteolytic processing, but its importance in vivo is not yet fully understood. Here, we generated Reelin knock-in (PA-DV KI) mice in which the key cleavage site of Reelin was abolished by mutation.

Semaphorin 6A-Plexin A2/A4 Interactions with Radial Glia Regulate Migration Termination of Superficial Layer Cortical Neurons.

Precise regulation of neuronal migration termination is crucial for the establishment of brain cytoarchitectures. However, little is known about how neurons terminate migration. Here we focused on interactions between migrating cortical neurons and their substrates, radial glial (RG) cells, and analyzed the role of Plexin A2 and A4 (PlxnA2/A4) receptors and their repulsive ligand, Semaphorin 6A (Sema6A), for this process.

A disintegrin and metalloproteinase with thrombospondin motifs 2 cleaves and inactivates Reelin in the postnatal cerebral cortex and hippocampus, but not in the cerebellum.

Reelin plays important roles in regulating neuronal development, modulating synaptic function, and counteracting amyloid β toxicity. A specific proteolytic cleavage (N-t cleavage) of Reelin abolishes its biological activity. We recently identified ADAMTS-3 (a disintegrin and metalloproteinase with thrombospondin motifs 3) as the major N-t cleavage enzyme in the embryonic and early postnatal brain.

Assay for Reelin-Cleaving Activity of ADAMTS and Detection of Reelin and Its Fragments in the Brain.

Proteolytic cleavage of the secreted signaling protein Reelin has been suggested to play causative roles in many neuropsychiatric and neurodegenerative disorders. Therefore, characterization of the proteolytic activity against Reelin is important not only for understanding how the brain works but also for the development of novel therapy for these disorders. Notably, ADAMTS family proteases are the primary suspects of Reelin-cleaving proteases under many, though not all, circumstances.

Expression and Preparation of Recombinant Reelin and ADAMTS-3 Proteins.

Reelin is a large secreted protein that is essential for the brain development and function. Reelin is negatively regulated by the specific cleavage by a disintegrin and metalloproteinase with thrombospondin type 1 motifs 3 (ADAMTS-3) which is also secreted from neurons. It is likely that there are other proteases that can cleave Reelin.

Differential binding of anti-Reelin monoclonal antibodies reveals the characteristics of Reelin protein under various conditions.

Reelin is a large secreted protein that is essential for the development and function of the central nervous system. Dimerization and/or oligomerization is required for its biological activity, but the underlying mechanism is not fully understood. There are several widely used anti-Reelin antibodies and we noticed that their reactivity to monomeric or dimeric Reelin protein is different.

Reducing ADAMTS-3 Inhibits Amyloid β Deposition in App Knock-in Mouse.

Reelin is a secreted protein that antagonizes the deposition and toxicity of amyloid β peptide (Aβ). Therefore, augmentation of Reelin activity may ameliorate Alzheimer's disease (AD). We have recently reported that a disintegrin and metalloproteinase with thrombospondin motifs 3 (ADAMTS-3) cleaves and inactivates Reelin in the mouse brain.

Reelin deficiency leads to aberrant lipid composition in mouse brain.

Reelin is a secreted protein essential for the development and function of the mammalian brain. The receptors for Reelin, apolipoprotein E receptor 2 and very low-density lipoprotein receptor, belong to the low-density lipoprotein receptor family, but it is not known whether Reelin is involved in the brain lipid metabolism. In the present study, we performed lipidomic analysis of the cerebral cortex of wild-type and Reelin-deficient (reeler) mice, and found that reeler mice exhibited several compositional changes in phospholipids.

Genetic and animal model analyses reveal the pathogenic role of a novel deletion of RELN in schizophrenia.

Reelin protein (RELN), an extracellular matrix protein, plays multiple roles that range from embryonic neuronal migration to spine formation in the adult brain. Results from genetic studies have suggested that RELN is associated with the risk of psychiatric disorders, including schizophrenia (SCZ). We previously identified a novel exonic deletion of RELN in a patient with SCZ.

[Regulatory Mechanisms and Physiological Significance of Reelin Function].

Reelin is a large secreted glycoprotein that regulates embryonic neuronal lamination and adult synaptic function. Secreted Reelin binds to lipoprotein receptors expressed on neurons. The Reelin-receptor interaction induces phosphorylation of an intracellular adaptor protein Dab1, which is required for normal embryonic brain development and adult brain functions.

Secreted Metalloproteinase ADAMTS-3 Inactivates Reelin.

The secreted glycoprotein Reelin regulates embryonic brain development and adult brain functions. It has been suggested that reduced Reelin activity contributes to the pathogenesis of several neuropsychiatric and neurodegenerative disorders, such as schizophrenia and Alzheimer's disease; however, noninvasive methods that can upregulate Reelin activity have yet to be developed. We previously found that the proteolytic cleavage of Reelin within Reelin repeat 3 (N-t site) abolishes Reelin activity , but it remains controversial as to whether this effect occurs Here we partially purified the enzyme that mediates the N-t cleavage of Reelin from the culture supernatant of cerebral cortical neurons.

The C-terminal region of Reelin is necessary for proper positioning of a subset of Purkinje cells in the postnatal cerebellum.

In the normal cerebellum, Purkinje cells (PCs) are generated in a zone along the ventricular surface, migrate radially, and align to form a single-cell layer. However, in mice lacking the secreted protein Reelin or its downstream adaptor protein Dab1, the majority of PCs are located ectopically in the deep cerebellar mass. Nonetheless, how Reelin regulates migration and alignment of PCs remains incompletely understood.