Suzanne B. Bausch scite author profile

Electron microscopic analysis of the CA1 region of the rat hippocampus revealed that specific immunoreactivity (IR) for a G protein-gated, inwardly rectifying potassium channel (GIRK1) was present exclusively in neurons and predominantly located in spiny dendrites of pyramidal cells. Within stratum lacunosum-moleculare and the superficial stratum radiatum, GIRK1-IR was often present immediately adjacent to asymmetric (excitatory-type) postsynaptic densities in dendritic spines. The subcellular localization of GIRK1-IR in the Golgi apparatus of pyramidal cell somata and in the plasma membrane of dendrites and dendritic spines confirms the hypothesis that GIRK1 is synthesized by pyramidal cells and transported to the more distal dendritic processes. G protein-coupled receptor activation of a dendritic potassium conductance would attenuate the propagation of excitatory synaptic inputs and thereby produce postsynaptic inhibition. Thus, these results show that the GIRK family of channels joins the list of voltage-sensitive channels now known to be expressed in dendritic spines.

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Upregulation of L-Type Ca²⁺Channels in Reactive Astrocytes after Brain Injury, Hypomyelination, and Ischemia

Westenbroek¹,

Bausch²,

Lin

et al. 1998

J. Neurosci.

136

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Anti-peptide antibodies that specifically recognize the alpha1 subunit of class A-D voltage-gated Ca2+ channels and a monoclonal antibody (MANC-1) to the alpha2 subunit of L-type Ca2+ channels were used to investigate the distribution of these Ca2+ channel subtypes in neurons and glia in models of brain injury, including kainic acid-induced epilepsy in the hippocampus, mechanical and thermal lesions in the forebrain, hypomyelination in white matter, and ischemia. Immunostaining of the alpha2 subunit of L-type Ca2+ channels by the MANC-1 antibody was increased in reactive astrocytes in each of these forms of brain injury. The alpha1C subunits of class C L-type Ca2+ channels were upregulated in reactive astrocytes located in the affected regions in each of these models of brain injury, although staining for the alpha1 subunits of class D L-type, class A P/Q-type, and class B N-type Ca2+ channels did not change from patterns normally observed in control animals. In all of these models of brain injury, there was no apparent redistribution or upregulation of the voltage-gated Ca2+ channels in neurons. The upregulation of L-type Ca2+ channels in reactive astrocytes may contribute to the maintenance of ionic homeostasis in injured brain regions, enhance the release of neurotrophic agents to promote neuronal survival and differentiation, and/or enhance signaling in astrocytic networks in response to injury.

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Seizures, cell death, and mossy fiber sprouting in kainic acid-treated organotypic hippocampal cultures

1999

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Suzanne B. Bausch

GIRK1 immunoreactivity is present predominantly in dendrites, dendritic spines, and somata in the CA1 region of the hippocampus

Upregulation of L-Type Ca²⁺Channels in Reactive Astrocytes after Brain Injury, Hypomyelination, and Ischemia

Seizures, cell death, and mossy fiber sprouting in kainic acid-treated organotypic hippocampal cultures

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Suzanne B. Bausch

GIRK1 immunoreactivity is present predominantly in dendrites, dendritic spines, and somata in the CA1 region of the hippocampus

Upregulation of L-Type Ca2+Channels in Reactive Astrocytes after Brain Injury, Hypomyelination, and Ischemia

Seizures, cell death, and mossy fiber sprouting in kainic acid-treated organotypic hippocampal cultures

Contact Info

Product

Resources

About

Upregulation of L-Type Ca²⁺Channels in Reactive Astrocytes after Brain Injury, Hypomyelination, and Ischemia