Kazuhisa Kohda scite author profile

Various types of induced pluripotent stem (iPS) cells have been established by different methods, and each type exhibits different biological properties. Before iPS cell-based clinical applications can be initiated, detailed evaluations of the cells, including their differentiation potentials and tumorigenic activities in different contexts, should be investigated to establish their safety and effectiveness for cell transplantation therapies. Here we show the directed neural differentiation of murine iPS cells and examine their therapeutic potential in a mouse spinal cord injury (SCI) model. "Safe" iPS-derived neurospheres, which had been pre-evaluated as nontumorigenic by their transplantation into nonobese diabetic/severe combined immunodeficiency (NOD/SCID) mouse brain, produced electrophysiologically functional neurons, astrocytes, and oligodendrocytes in vitro. Furthermore, when the safe iPS-derived neurospheres were transplanted into the spinal cord 9 d after contusive injury, they differentiated into all three neural lineages without forming teratomas or other tumors. They also participated in remyelination and induced the axonal regrowth of host 5HT + serotonergic fibers, promoting locomotor function recovery. However, the transplantation of iPSderived neurospheres pre-evaluated as "unsafe" showed robust teratoma formation and sudden locomotor functional loss after functional recovery in the SCI model. These findings suggest that preevaluated safe iPS clone-derived neural stem/progenitor cells may be a promising cell source for transplantation therapy for SCI.neural stem/progenitor cell | cell transplantation | regenerative medicine | remyelination | axonal regrowth

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Knockdown of DISC1 by In Utero Gene Transfer Disturbs Postnatal Dopaminergic Maturation in the Frontal Cortex and Leads to Adult Behavioral Deficits

Niwa

Kamiya

Murai

et al. 2010

Neuron

278

277

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SUMMARY Adult brain function and behavior are influenced by neuronal network formation during development. Genetic susceptibility factors for adult psychiatric illnesses, such as Neuregulin-1 and Disrupted-in-Schizophrenia-1 (DISC1), influence adult high brain functions, including cognition and information processing. These factors have roles during neurodevelopment and are likely to cooperate, forming “pathways” or “signalosomes.” Here we report the potential to generate an animal model via in utero gene transfer in order to address an important question of how nonlethal deficits in early development may affect postnatal brain maturation and high brain functions in adulthood, which are impaired in various psychiatric illnesses, such as schizophrenia. We show that transient knockdown of DISC1 in the pre- and peri-natal stages, specifically in a lineage of pyramidal neurons mainly in the prefrontal cortex, leads to selective abnormalities in postnatal mesocortical dopaminergic maturation and behavioral abnormalities associated with disturbed cortical neurocircuitry after puberty.

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Mutation of a glutamate receptor motif reveals its role in gating and δ2 receptor channel properties

2000

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Despite its importance in the cerebellum, the functions of the orphan glutamate receptor delta2 are unknown. We examined a mutant delta2 receptor channel in lurcher mice that was constitutively active in the absence of ligand. Because this mutation was within a highly conserved motif (YTANLAAF), we tested its effect on several glutamate receptors. Mutant delta2 receptors showed distinct channel properties, including double rectification of the current-voltage relationship, sensitivity to a polyamine antagonist and moderate Ca 2+ permeability, whereas other constitutively active mutant glutamate channels resembled wild-type channels in these respects. Moreover, the kinetics of ligand-activated currents were strikingly altered. We conclude that the delta2 receptor has a functional ion channel pore similar to that of glutamate receptors. The motif may have a role in the channel gating of glutamate receptors.

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Glucocorticoid receptor activation is involved in producing abnormal phenotypes of single-prolonged stress rats: A putative post-traumatic stress disorder model

et al. 2007

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Structural basis for integration of GluD receptors within synaptic organizer complexes

Elegheert

Kakegawa

Clay

et al. 2016

Science

131

192

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Ionotropic glutamate receptor family members (iGluRs) are integrated into supramolecular complexes that modulate their location and function at excitatory synapses. However, a lack of structural information beyond isolated receptors or fragments thereof currently limits the mechanistic understanding of physiological iGluR signaling. Here, we report structural and functional analyses of the prototypical molecular bridge linking post-synaptic iGluR δ2 (GluD2) and pre-synaptic β-neurexin-1 (β-NRX1) via Cbln1, a C1q-like synaptic organizer. We show how Cbln1 hexamers “anchor” GluD2 amino-terminal domain dimers to monomeric β-NRX1. This arrangement promotes synaptogenesis, and is essential for D-Serine-dependent GluD2 signaling in vivo, underlying long-term depression of cerebellar parallel fiber-Purkinje cell (PF-PC) synapses and motor coordination in developing mice. These results lead to a model where protein and small-molecule ligands synergistically control synaptic iGluR function.

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Kazuhisa Kohda

Therapeutic potential of appropriately evaluated safe-induced pluripotent stem cells for spinal cord injury

Knockdown of DISC1 by In Utero Gene Transfer Disturbs Postnatal Dopaminergic Maturation in the Frontal Cortex and Leads to Adult Behavioral Deficits

Mutation of a glutamate receptor motif reveals its role in gating and δ2 receptor channel properties

Glucocorticoid receptor activation is involved in producing abnormal phenotypes of single-prolonged stress rats: A putative post-traumatic stress disorder model

Structural basis for integration of GluD receptors within synaptic organizer complexes

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