[PDF][PDF] Defective neurogenesis in citron kinase knockout mice by altered cytokinesis and massive apoptosis
Neuron, 2000•cell.com
Abstract Citron-kinase (Citron-K) has been proposed by in vitro studies as a crucial effector
of Rho in regulation of cytokinesis. To further investigate in vivo its biologic functions, we
have inactivated Citron-K gene in mice by homologous recombination. Citron-K−/− mice
grow at slower rates, are severely ataxic, and die before adulthood as a consequence of
fatal seizures. Their brains display defective neurogenesis, with depletion of specific
neuronal populations. These abnormalities arise during development of the central nervous …
of Rho in regulation of cytokinesis. To further investigate in vivo its biologic functions, we
have inactivated Citron-K gene in mice by homologous recombination. Citron-K−/− mice
grow at slower rates, are severely ataxic, and die before adulthood as a consequence of
fatal seizures. Their brains display defective neurogenesis, with depletion of specific
neuronal populations. These abnormalities arise during development of the central nervous …
Abstract
Citron-kinase (Citron-K) has been proposed by in vitro studies as a crucial effector of Rho in regulation of cytokinesis. To further investigate in vivo its biologic functions, we have inactivated Citron-K gene in mice by homologous recombination. Citron-K−/− mice grow at slower rates, are severely ataxic, and die before adulthood as a consequence of fatal seizures. Their brains display defective neurogenesis, with depletion of specific neuronal populations. These abnormalities arise during development of the central nervous system due to altered cytokinesis and massive apoptosis. Our results indicate that Citron-K is essential for cytokinesis in vivo but only in specific neuronal precursors. Moreover, they suggest a novel molecular mechanism for a subset of human malformative syndromes of the CNS.
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