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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A novel crustacean-specific toxin, Cn5, containing 66 amino acid residues was isolated from the venom of the scorpion Centruroides noxius Hoffmann. It is stabilized by four disulfide bridges, formed between Cys12-Cys65, Cys16-Cys41, Cys25-Cys46 and Cys29-Cys48. Toxicity tests revealed that Cn5 is a toxin that affects arthropods but not mammals. However, at high concentrations, Cn5 does displace the mammal-specific toxin Cn2 from rat brain synaptosomes. The concentration of Cn5 that produces half-maximal inhibition (IC50) was estimated to be 100 microM. Sequence comparison of Cn5 with toxin Cn2, a mammal-specific toxin from the same scorpion, showed the presence of two sequence stretches, at positions 30 to 38 and 49 to 58, where the majority of the differences are concentrated. On the three-dimensional structure of Cn5 it is demonstrated that these two sequence stretches form a continuous surface region near the site thought to bind to the sodium channel. We assume that this region might be implicated in determining species specificity.
Comp Biochem Physiol B Biochem Mol Biol 1997 Mar
PMID:Isolation, characterization and comparison of a novel crustacean toxin with a mammalian toxin from the venom of the scorpion Centruroides noxius Hoffmann. 911 91

Rapsyn, a 43-kDa protein on the cytoplasmic face of the postsynaptic membrane, is essential for clustering acetylcholine receptors (AChR) at the neuromuscular junction. When transfected into nonmuscle cells (QT-6), rapsyn forms discrete membrane domains and can cluster AChR into these same domains. Here we examined whether rapsyn can cluster other ion channels as well. When expressed in QT-6 cells, the GABAA receptor (human alpha 1, beta 1, and gamma 2 subunits) and the skeletal muscle sodium channel were each diffusely scattered across the cell surface. Rapsyn, when co-expressed, clustered the GABAA receptor as effectively as it clustered AChR in previous studies. Rapsyn did not cluster co-transfected sodium channel, confirming that it does not cluster ion channels indiscriminately. Rapsyn mRNA was detected at low levels in the brain by polymerase chain reaction amplification of reverse-transcribed RNA, raising the possibility of a broader role for rapsyn.
Mol Cell Neurosci 1997
PMID:Clustering of GABAA receptors by rapsyn/43kD protein in vitro. 914 60

Type I pseudohypoaldosteronism (PHA) is a hereditary syndrome of salt wasting resulting from unresponsiveness to mineralocorticoids. PHA is manifested in two clinically and genetically distinct forms, affecting either only the kidney or multiple target organs of aldosterone. We examined the mineralocorticoid effect of carbenoxolone (CBX) in young PHA patients with either renal or multisystem resistance to aldosterone to find out whether CBX may help reduce the requirement for a high-salt diet. CBX did not show any significant salt-retaining effect in two patients with multiple PHA, and did not affect the renin-aldosterone system. In contrast, CBX significantly suppressed the renin-aldosterone system in a renal PHA patient for the whole duration of treatment, but without a long-term salt-retaining effect. On CBX treatment, urinary cortisone levels decreased and the cortisol:cortisone ratio increased, indicating that CBX inhibited 11beta-HSD activity that metabolizes cortisol to cortisone. The complete lack of effect of CBX on the renin-aldosterone system in multisystem PHA patients indicates that CBX does not exert an effect via mineralocorticoid (MR) or glucocorticoid receptors. Examination of the structure and expression of the MR gene by Southern blot analysis and polymerase chain reaction (PCR) showed no abnormality. Whereas multiple PHA results from a spectrum of mutations in the mineralocorticoid activated epithelial sodium channel subunits, the genetic basis of renal PHA is still unknown. The response to CBX suggests that there is at least a partly functional MR in renal PHA patients.
J Steroid Biochem Mol Biol 1997 Jan
PMID:Pseudohypoaldosteronism due to renal and multisystem resistance to mineralocorticoids respond differently to carbenoxolone. 918 64

The term 'pseudohypoaldosteronism' includes at least three distinct clinical syndromes, classified as type I, II and III, which differ in their clinical and biochemical findings but have in common the symptoms of mineralocorticoid resistance. The finding of a defect in the recently cloned epithelial sodium channel (ENaC) in a subgroup of familial pseudohypoaldosteronism type I has changed our understanding not only of the pathophysiology of these disorders but also the physiology of renal salt and water homeostasis. In this review the various clinical, biochemical and genetic findings in the different forms of pseudohypoaldosteronism will be discussed with the aim of identifying the underlying differences and similarities. The direction of further genetic investigations will depend at least in large part on further clinical classification of patients and families.
Mol Cell Endocrinol 1997 Oct 20
PMID:Pseudohypoaldosteronism: mutation found, problem solved? 940 52

Action potential electrogenesis in the axons of retinal ganglion cells is supported by voltage-gated sodium channels, and a tetrodotoxin (TTX)-inhibitable sodium conductance participates in anoxic injury of these axons within the optic nerve. However, the subtypes of sodium channels expressed in retinal ganglion cells have not been identified. In this study, we used reverse transcription-polymerase chain reaction (RT-PCR) and restriction enzyme mapping, together with in situ hybridization, to examine the expression of transcripts for sodium channel alpha-subunits I, II, III, NaG, Na6, hNE/PN1 and SNS, and beta-subunits 1 and 2, in the retina of the adult rat. RT-PCR yielded high levels of amplification of I, II, III, Na6, beta1 and beta2 transcripts. In situ hybridization demonstrated the presence of all these mRNAs in the cell bodies of retinal ganglion cells. Retinal ganglion cells thus express multiple sodium channel mRNAs, suggesting that they deploy several different types of sodium channels.
Brain Res Mol Brain Res 1997 Oct 15
PMID:Differential expression of sodium channel genes in retinal ganglion cells. 940 35

The association between the beta1 subunit and the alpha subunit of the sodium channel from rat brain was studied in hippocampus during postnatal development and in cultures of fetal rat forebrain neurons and cerebellar granule cells, using an anti-beta1 antipeptide antibody to specifically immunoprecipitate alphabeta1 complexes labeled with [3H]saxitoxin. In the hippocampus, the increase in beta1 RNA expression during development was accompanied by an increase in immunoprecipitated alphabeta1 complexes. Most of the alphabeta1 complexes were constituted during the first 3 postnatal weeks, with the steepest rise between postnatal days 5 and 12. In cultured fetal neurons, the amount of beta1 RNA and of alphabeta1 complexes was approximately 3-4% of that found in the adult, whereas it reached 60-70% in cultured cerebellar granule cells. We had previously described a neurotoxin-induced internalization of sodium channels which occurred in immature neurons but not in adult tissue. Internalization decreased during development in neurotoxin-treated hippocampal slices, and resistance of plasma membrane sodium channels to internalization followed the same time course than the appearance of alphabeta1 complexes. Similarly, neurotoxin activation resulted in sodium channel internalization in fetal neurons, while cerebellar granule cells, which express high levels of beta1 RNA and of alphabeta1 complexes, did not internalize their [3H]saxitoxin receptors in that same conditions. These data suggested that the association of the beta1 subunit with the alpha subunit could provide a suitable marker for the stabilization and anchoring of sodium channels in discrete membrane domains which occur during neuronal development.
Brain Res Mol Brain Res 1997 Nov
PMID:Down-regulation of voltage-dependent sodium channels coincides with a low expression of alphabeta1 subunit complexes. 942 16

The gene para in Drosophila melanogaster encodes an alpha subunit of voltage-activated sodium channels, the presumed site of action of DDT and pyrethroid insecticides. We used an existing collection of Drosophila para mutants to examine the molecular basis of targetsite resistance to pyrethroids and DDT. Six out of thirteen mutants tested were associated with a largely dominant, 10- to 30-fold increase in DDT resistance. The amino acid lesions associated with these alleles defined four sites in the sodium channel polypeptide where a mutational change can cause resistance: within the intracellular loop between S4 and S5 in homology domains I and III, within the pore region of homology domain III, and within S6 in homology domain III. Some of these sites are analogous with those defined by knockdown resistance (kdr) and super-kdr resistance-associated mutations in houseflies and other insects, but are located in different homologous units of the channel polypeptide. We find a striking synergism in resistance levels with particular heterozygous combinations of para alleles that appears to mimic the super-kdr double mutant housefly phenotype. Our results indicate that the alleles analyzed from natural populations represent only a subset of mutations that can confer resistance. The implications for the binding site of pyrethroids and mechanisms of target-site insensitivity are discussed.
Mol Gen Genet 1997 Nov
PMID:Point mutations in the Drosophila sodium channel gene para associated with resistance to DDT and pyrethroid insecticides. 943 85

Two pyrethroid-resistant strains of horn flies were found to be 17- and 688-fold more resistant to permethrin and 17- and 11,300-fold more resistant to cyhalothrin than a susceptible control strain. Synergism experiments with piperonyl butoxide showed that both target site insensitivity and metabolic resistance mechanisms were present in the Super Resistant strain. Using the reverse transcriptase-polymerase chain reaction (RT-PCR), a 0.9 kb fragment of the putative sodium channel gene from susceptible and resistant flies was cloned and sequenced. Two sequence variants were detected, presumably arising from alternative splicing of transcripts. The amino acid sequences deduced from the resistant and susceptible fly gene fragments were identical except for three amino acid substitutions, two of which have been associated with resistance in house flies. A leucine to phenylalanine substitution associated with knockdown resistance (kdr) was found in both resistant strains. A methionine to threonine substitution associated with super-kdr was found in the Super Resistant strain. Translation of poly(A)+ RNA followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) detected translation products whose concentrations increased in association with pyrethroid resistance. Random-amplified polymorphic DNA (RAPD)-PCR of genomic DNA with over 260 DNA oligomers yielded one resistance-associated marker, designated HF-77, which was not detected in any susceptible flies but was present in 16% of the resistant individuals.
Insect Biochem Mol Biol
PMID:Toxicological and molecular characterization of pyrethroid-resistant horn flies, Haematobia irritans: identification of kdr and super-kdr point mutations. 944 75

Increased voltage-gated sodium channel activity may contribute to the hyperexcitability of sensory neurons in inflammatory and neuropathic pain states. We examined the levels of the transcript encoding the tetrodotoxin-resistant sodium channel SNS in dorsal root ganglion neurons in a range of inflammatory and neuropathic pain models in the rat. Local Freund's adjuvant or systemic nerve growth factor-induced inflammation did not substantially alter the total levels of SNS mRNA. When NGF-treated adult rat DRG neurons in vitro were compared with NGF-depleted control neurons, SNS total mRNA levels and the levels of membrane-associated immunoreactive SNS showed a small increase (17 and 25%, respectively), while CGRP levels increased fourfold. SNS expression is thus little dependent on NGF even though SNS transcript levels dropped by more than 60% 7-14 days after axotomy. In the streptozotocin diabetic rat SNS levels fell 25%, while in several manipulations of the L5/6 tight nerve ligation rat neuropathic pain model, SNS levels fell 40-80% in rat strains that are either susceptible or relatively resistant to the development of allodynia. Increased expression of SNS mRNA is thus unlikely to underlie sensory neuron hyperexcitability associated with inflammation, while lowered SNS transcript levels are associated with peripheral nerve damage.
Mol Cell Neurosci 1997
PMID:Regulation of expression of the sensory neuron-specific sodium channel SNS in inflammatory and neuropathic pain. 953 81

Pyrethroid-impregnated bednets are playing an increasing role for combating malaria, especially in stable malaria areas. More than 90% of the current annual malaria incidence (c. 500 million clinical cases with up to 2 million deaths) is in Africa where the major vector is Anopheles gambiae s.s. As pyrethroid resistance has been reported in this mosquito, reliable and simple techniques are urgently needed to characterize and monitor this resistance in the field. In insects, an important mechanism of pyrethroid resistance is due to a modification of the voltage-gated sodium channel protein recently shown to be associated with mutations of the para-type sodium channel gene. We demonstrate here that one of these mutations is present in certain strains of pyrethroid resistant A. gambiae s.s. and describe a PCR-based diagnostic test allowing its detection in the genome of single mosquitoes. Using this test, we found this mutation in six out of seven field samples from West Africa, its frequency being closely correlated with survival to pyrethroid exposure. This diagnostic test should bring major improvement for field monitoring of pyrethroid resistance, within the framework of malaria control programmes.
Insect Mol Biol 1998 May
PMID:Molecular characterization of pyrethroid knockdown resistance (kdr) in the major malaria vector Anopheles gambiae s.s. 953 62


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