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Query: UMLS:C0038220 (
status epilepticus
)
7,272
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Transient receptor potential canonical channel (TRPC) is a nonselective cation channel permeable to Ca(2+), which is expressed in many cell types, including neurons. However, the alterations in TRPC receptor expressions in response to
status epilepticus
(SE) have not been explored. Therefore, the present study was designated to elucidate the roles of
TRPC3
and TRPC6 in neuronal death following SE. In non-SE animals,
TRPC3
and TRPC6 immunoreactivity was abundantly detected in the dendrites of pyramidal cells and the cell bodies of dentate granule cells. Following SE,
TRPC3
expression was significantly elevated in CA1-, CA3 pyramidal cells, and dentate granule cells, while TRPC6 expression was reduced in these regions. Pyrazole-3 (a
TRPC3
inhibitor) effectively prevented up-regulation of neuronal
TRPC3
expression induced by SE. Hyperforin (a TRPC6 activator) effectively prevented down-regulation of neuronal TRPC6 expression induced by SE. In addition, both Pyr3 and hyperforin effectively protected neuronal damages from SE. Therefore, the present study yields novel information regarding the role of
TRPC3
and 6 in epileptogenic insults and suggests that TRPC 3 and 6 may be involved in neurodegeneration following SE.
...
PMID:The reverse roles of transient receptor potential canonical channel-3 and -6 in neuronal death following pilocarpine-induced status epilepticus. 2292 17
Transient receptor potential canonical channel (TRPC) is a nonselective cation channel permeable to Ca(2+), which express in many cell types, including neurons. However the alterations in TRPC receptor expressions in response to
status epilepticus
(SE) have not been explored. Therefore, the present study was designated to elucidate the roles of
TRPC3
in neuronal death and vasogenic edema within the rat piriform cortex (PC) following SE. In non-SE animals,
TRPC3
immunoreactivity was abundantly detected in the PC. Following SE,
TRPC3
immunoreactivity was increased in neurons. Furthermore,
TRPC3
expression was detected in endothelial cells that did not contain it in non-SE animals. Loss of SMI-71 (a blood-brain barrier antigen) immunoreactivity was also observed in
TRPC3
positive endothelial cells. In addition, FJB positive neurons and vasogenic edema were noticeably detected in the PC. To directly determine whether
TRPC3
activation is correlated to SE-induced vasogenic edema formation and neuronal damages in the PC, the effect of Pyr-3 (a
TRPC3
antagonist) on SE-induced insults were investigated. Pyr-3 infusion effectively attenuated vasogenic edema in the PC as compared to the vehicle. Therefore, our findings indicate that
TRPC3
activation/overexpression induced by SE may involve BBB disruption and neuronal damages in the rat PC following SE. Therefore, the present study was
TRPC3
may play an important role in SE-induced vasogenic edema formation through BBB disruptions in the rat PC.
...
PMID:Endothelial transient receptor potential conical channel (TRPC)-3 activation induces vasogenic edema formation in the rat piriform cortex following status epilepticus. 2352 32
Temporal lobe epilepsy (TLE) is the most common form of intractable epilepsy and is always accompanied with hippocampal sclerosis. The molecular mechanism of this pathological phenomenon has been extensively explored, yet remains unclear. Previous studies suggest that ion channels, especially calcium channels, might play important roles. Transient receptor potential canonical channel (TRPC) is a novel cation channel dominantly permeable to Ca(2+) and widely expressed in the human brain. We measured the expression of two subtypes of TRPC channels,
TRPC3
and TRPC6, in temporal lobe epileptic foci excised from patients with intractable epilepsy and in hippocampus of mice with pilocarpine-induced
status epilepticus
(SE), an animal model of TLE. Cortical
TRPC3
and TRPC6 protein expressions were significantly higher in TLE patients compared with those in controls. Expression of
TRPC3
and TRPC6 protein also increased significantly in the CA3 region of the hippocampus of SE mice. Inhibition of
TRPC3
by intracerebroventricular injection of anti-
TRPC3
antibody prevented aberrant-sprouted mossy fiber collaterals in the CA3 region, while inhibition of TRPC6 by anti-TRPC6 antibody reduced dendritic arborization and spine density of CA3 pyramidal neurons. Our results indicate that
TRPC3
and TRPC6 participate diversely in synaptic reorganization in the mossy fiber pathway in TLE.
...
PMID:Upregulation and Diverse Roles of TRPC3 and TRPC6 in Synaptic Reorganization of the Mossy Fiber Pathway in Temporal Lobe Epilepsy. 2521 92
Human
status epilepticus
(SE) is associated with a pathological reduction in cerebral blood flow termed the inverse hemodynamic response (IHR). Canonical transient receptor potential 3 (
TRPC3
) channels are integral to the propagation of seizures in SE, and vascular smooth muscle cell (VSMC)
TRPC3
channels participate in vasoconstriction. Therefore, we hypothesize that cerebrovascular
TRPC3
channels may contribute to seizure-induced IHR. To examine this possibility, we developed a smooth muscle-specific
TRPC3
knockout (TRPC3smcKO) mouse. To quantify changes in neurovascular coupling, we combined laser speckle contrast imaging with simultaneous electroencephalogram recordings. Control mice exhibited multiple IHRs, and a limited increase in cerebral blood flow during SE with a high degree of moment-to-moment variability in which blood flow was not correlated with neuronal activity. In contrast, TRPC3smcKO mice showed a greater increase in blood flow that was less variable and was positively correlated with neuronal activity. Genetic ablation of smooth muscle
TRPC3
channels shortened the duration of SE by eliminating a secondary phase of intense seizures, which was evident in littermate controls. Our results are consistent with the idea that
TRPC3
channels expressed by cerebral VSMCs contribute to the IHR during SE, which is a critical factor in the progression of SE.
...
PMID:Vascular smooth muscle TRPC3 channels facilitate the inverse hemodynamic response during status epilepticus. 3196 91
