Literature DB >> 20708080

Hippocampal phenotypes in kalirin-deficient mice.

Zhong Xie1, Michael E Cahill, Jelena Radulovic, Jing Wang, Susan L Campbell, Courtney A Miller, J David Sweatt, Peter Penzes.   

Abstract

Regulation of forebrain cellular structure and function by small GTPase pathways is crucial for normal and pathological brain development and function. Kalirin is a brain-specific activator of Rho-like small GTPases implicated in neuropsychiatric disorders. We have recently demonstrated key roles for kalirin in cortical synaptic transmission, dendrite branching, spine density, and working memory. However, little is known about the impact of the complete absence of kalirin on the hippocampus in mice. We thus investigated hippocampal function, structure, and associated behavioral phenotypes in KALRN knockout (KO) mice we have recently generated. Here we show that KALRN KO mice had modest impairments in hippocampal LTP, but normal hippocampal synaptic transmission. In these mice, both context and cue-dependent fear conditioning were impaired. Spine density and dendrite morphology in hippocampal pyramidal neurons were not significantly affected in the KALRN KO mice, but small alterations in the gross morphology of the hippocampus were detected. These data suggest that hippocampal structure and function are more resilient to the complete loss of kalirin, and reveal impairments in fear learning. These studies allow the comparison of the phenotypes of different kalirin mutant mice and shed light on the brain region-specific functions of small GTPase signaling. Copyright Â
© 2010 Elsevier Inc. All rights reserved.

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Year:  2010        PMID: 20708080      PMCID: PMC3576140          DOI: 10.1016/j.mcn.2010.08.005

Source DB:  PubMed          Journal:  Mol Cell Neurosci        ISSN: 1044-7431            Impact factor:   4.314


  43 in total

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Review 5.  Calcium signaling and the control of dendritic development.

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  19 in total

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2.  Kalirin-7 prevents dendritic spine dysgenesis induced by amyloid beta-derived oligomers.

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Review 6.  KALRN: A central regulator of synaptic function and synaptopathies.

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