Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0036572 (
seizures
)
80,221
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Progressive myoclonus epilepsies (PMEs) are inherited disorders characterized by myoclonus, generalized tonic-clonic
seizures
, and ataxia. One of the genes that is associated with PME is the ER-to-Golgi Q
b
-SNARE GOSR2, which forms a SNARE complex with
syntaxin
-5, Bet1 and Sec22b. Most PME patients are homo-zygous for a p.Gly144Trp mutation and develop similar clinical presentations. Recently, a patient who was compound heterozygous for p.Gly144Trp and a previously unseen p.Lys164del mutation was identified. Because this patient presented with a milder disease phenotype, we hypothesized that the p.Lys164del mutation may be less severe compared to p.Gly144Trp. To characterize the effect of the p.Gly144Trp and p.Lys164del mutations, both of which are present in the SNARE motif of GOSR2, we examined the corresponding mutations in the yeast ortholog Bos1. Yeasts expressing the orthologous mutants in Bos1 showed impaired growth, suggesting a partial loss of function, which was more severe for the Bos1 p.Gly176Trp mutation. Using anisotropy and gel filtration, we report that Bos1 p.Gly176Trp and p.Arg196del are capable of complex formation, but with partly reduced activity. Molecular dynamics (MD) simulations showed that the hydrophobic core, which triggers SNARE complex formation, is compromised due to the glycine-to-tryptophan substitution in both GOSR2 and Bos1. In contrast, the deletion of residue p.Lys164 (or p.Arg196del in Bos1) interferes with the formation of hydrogen bonds between GOSR2 and
syntaxin
-5. Despite these perturbations, all SNARE complexes stayed intact during longer simulations. Thus, our data suggest that the milder course of disease in compound heterozygous PME is due to less severe impairment of the SNARE function.
...
PMID:Functional assays for the assessment of the pathogenicity of variants of GOSR2, an ER-to-Golgi SNARE involved in progressive myoclonus epilepsies. 2898 78
STX1B is a gene that encodes
syntaxin
-1B. STX1B mutations have recently been implicated in fever-associated epilepsy syndromes. However, these have not previously been reported in sleep-related hypermotor epilepsy. A 20-year-old man with a strong family history of epilepsy was investigated in our epilepsy monitoring unit due to uncontrolled epilepsy, compatible with sleep-related hypermotor epilepsy. Electroclinical and polygraphic physiological recordings revealed left frontal epileptiform discharges and prominent peri-ictal hypotension. Normal MRI using an epilepsy protocol prompted a search for a genetic epilepsy, which revealed a likely pathogenic mutation in the STX1B gene. The patient remained
seizure
-free after treatment optimization with carbamazepine. This case suggests that a sleep-related hypermotor epilepsy phenotype can be associated with
syntaxin
-1B gene mutation, and testing for this gene should be considered in such patients. Furthermore, it may also be concluded that autonomic dysfunction, characterized by peri-ictal hypotension, can also occur in this discorder. [Published with video sequences on www.epilepticdisorders.com].
...
PMID:Sleep-related hypermotor epilepsy and peri-ictal hypotension in a patient with syntaxin-1B mutation. 3037 43
Epilepsy is a neuronal dysfunction syndrome characterized by transient and diffusely abnormal discharges of neurons in the brain. Previous studies have shown that mutations in the
syntaxin
1b
(
stx1b
) gene cause a familial, fever-associated epilepsy syndrome. It is unclear as to whether the
stx1b
gene also correlates with other stimulations such as flashing and/or mediates the effects of antiepileptic drugs. In this study, we found that the expression of
stx1b
was present mainly in the brain and was negatively correlated with
seizures
in a pentylenetetrazole (PTZ)-induced
seizure
zebrafish model. The transcription of
stx1b
was inhibited by PTZ but rescued by valproate, a broad-spectrum epilepsy treatment drug. In the PTZ-
seizure
zebrafish model,
stx1b
knockdown aggravated larvae hyperexcitatory swimming and prompted abnormal trajectory movements, particularly under lighting stimulation; at the same time, the expression levels of the neuronal activity marker gene
c-fos
increased significantly in the brain. In contrast,
stx1b
overexpression attenuated
seizures
and decreased
c-fos
expression levels following PTZ-induced
seizures
in larvae. Thus, we speculated that a deficiency of
stx1b
gene expression may be related with the onset occurrence of clinical
seizures
, particularly photosensitive
seizures
. In addition, we found that berberine (BBR) reduced larvae hyperexcitatory locomotion and abnormal movement trajectory in a concentration-dependent manner, slowed down excessive photosensitive
seizure
-like swimming, and assisted in the recovery of the expression levels of STX1B. Under the downregulation of STX1B, BBR's roles were limited: specifically, it only slightly regulated the levels of the two genes
stx1b
and
c-fos
and the hyperexcitatory motion of zebrafish in dark conditions and had no effect on the overexcited swimming behavior seen in conjunction with lighting stimulation. These findings further demonstrate that STX1B protein levels are negatively correlated with a
seizure
and can decrease the sensitivity of the photosensitive response in a PTZ-induced
seizure
zebrafish larvae; furthermore, STX1B may partially mediate the anticonvulsant effect of BBR. Additional investigation regarding the relationship between STX1B, BBR, and
seizures
could provide new cues for the development of novel anticonvulsant drugs.
...
PMID:Syntaxin 1B Mediates Berberine's Roles in Epilepsy-Like Behavior in a Pentylenetetrazole-Induced Seizure Zebrafish Model. 3053 49
<< Previous
1
2
