Antigen selectivity characteristic of polyclonal antibodies against omega-conotoxin GVIA and N-type voltage-dependent calcium channels

The antibodies against omega-conotoxin GVIA (-CTX GVIA; N-type voltage-dependent calcium channel [VDCC] blocker) and B₁Nt (N-terminal segment [residues 1–13] of BI ₁ subunits of VDCCs) were prepared, and the selectivity for each antigen -CTX GVIA and B1Nt was investigated. For the antigen selectivity of anti–-CTX GVIA antibody against -CTX GVIA, ELISA, and immunoprecipitation were used. The reactions for ELISA and immunoprecipitation were observed except when antibody IgG purified by Protein A–Sepharose CL-4B from nonimmunized serum (purified NI-Ab) was used. The specific reactions were inhibited by 10 nM -CTX GVIA, but not by -CTX SVIB (N-type VDCC blocker), -CTX MVIIC (N- and P-type VDCC blocker), or -Aga IVA (P-type VDCC blocker). For the antigen selectivity of the anti-B1Nt antibody, analyses by ELISA, immunoprecipitation, and Western blotting were conducted. The reactions were observed except when NI-Ab was used. The ELISA and immunoprecipitation reactions were inhibited by the antigen peptide B1Nt, and the IC₅₀ values were about 1.2 × 1028 and 1.3 × 1028 M, respectively. The bands of 210 and 190 kD by Western blotting of crude membranes from chick brain were also inhibited by 1 M B1Nt. These results suggest that the antibodies prepared against -CTX GVIA and B1Nt in this work have high selectivity for their antigen. Therefore we assume that the antibodies against -CTX GVIA and B1Nt are useful tools for the analyses of the function and distribution of N-type VDCCs. The anti -CTX GVIA antibody must also be useful for the radioimmunoassay of -CTX GVIA.     

Characteristics of [125I]ω-conotoxin labeling using bifunctional cross linker DSP in crude membranes from chick brain

Characteristic of [¹²⁵I]-conotoxin (-CgTX) labeling using bifunctional cross linker (dithio bis[succinimidyl propionate]: DSP) was systematically investigated in crude membranes from chick whole brain. [¹²⁵I]-CgTX specifically labeled 216 kDa as a main and 236 kDa as a minor bands in the crude membranes under non-reduced condition, but not labeled under reduced condition. We investigated the effect of various Ca channel antagonists on [¹²⁵I]-CgTX labeling with DSP in detail, and found that there is a strong correlation between the effects of Ca channel antagonists on [¹²⁵I]-CgTX labeling of the 216 kDa band and specific [¹²⁵I]-CgTX binding. These results suggest that labeling of the 216 kDa band under non-reduced condition with [¹²⁵I]-CgTX using DSP involves the specific binding sites of [¹²⁵I]-CgTX, perhaps including one of the neuronal N-type Ca channel subunits in the crude membranes.     

A Confirmation of 125I-ω-Conotoxin Labeled Sites in a Crude Membrane Fraction from Chick Brain as the α1 Subunit of N-Type Calcium Channels

Omega-conotoxin GVIA (-CTX), as a selective blocker for an N-type Ca²⁺ channel, has been conveniently used in many molecular biochemical and pharmacological experiments. There has been little elucidation of ¹²⁵I--CTX binding sites (mainly the 135-kDa band) in the crude membranes from chick brain, although the characteristics of specific ¹²⁵I--CTX binding and labeling sites in chick brain membranes have been investigated in our previous research. In this work, our goal is to further identify ¹²⁵I--CTX labeling sites in chick brain membranes by using anti-B1Nt antibodies (against the N-terminal segment B1Nt of N- or P-type Ca²⁺ channel ₁-subunits). The ¹²⁵I--CTX–labeled sites in chick brain membranes could be solubilized and immunoprecipitated by using an anti B1Nt antibody. The molecular weight of the immunoprecipitated protein was determined as 135 kDa, which is inconsistent with that of the specific ¹²⁵I--CTX binding protein reported previously. Moreover, the ¹²⁵I--CTX–labeled protein could be purified by the method of preparative SDS-PAGE and recognized by anti-B1Nt antibodies in Western blotting analysis. These results indicated that anti-B1Nt antibodies could truly recognize ¹²⁵I--CTX–labeled sites as the main band of 135 kDa from chick brain membranes, and the -CTX–labeled site (mainly the 135-kDa band) should be N-type Ca²⁺ channel ₁-subunits.     

Proportions of Ca2+ Channel Subtypes in Chick or Rat P2 Fraction and NG108-15 Cells Using Various Ca2+ Blockers

The proportions of calcium (Ca²⁺) channel subtypes in chick or rat P₂ fraction and NG 108-15 cells were investigated using selective L-, N-, P- and P/Q- type Ca²⁺ channel blockers. KCl-stimulated ⁴⁵Ca²⁺ uptake by chick P₂ fraction was blocked by 40~50% using N-type Ca²⁺ channel blockers [-conotoxin GVIA, aminoglycoside antibiotics and dynorphin A(1–13)], but was not inhibited by P- or P/Q-type blockers (-agatoxin IVA or -conotoxin MVIIC). On the other hand, KCl-stimulated ⁴⁵Ca²⁺ uptake by rat P₂ fraction was blocked by 30~40% using P- or P/Q-type Ca²⁺ channel blockers, but was not inhibited by N-type Ca²⁺ channel blockers. The L-type Ca²⁺ channel blockers 1,4-dihydropyridines, diltiazem and verapamil, but not calciseptine (CaS), inhibited both KCl-stimulated ⁴⁵Ca²⁺ uptake and veratridine-induced ²²Na⁺ uptake by chick or rat P₂ fraction with similar IC₅₀ values. CaS did not have any effect on ⁴⁵Ca²⁺ uptake by either chick or rat P₂ fraction. In NG108-15 cells, CaS, -agatoxin IVA and -conotoxin MVIIC, but not -conotoxin GVIA, inhibited KCl-stimulated ⁴⁵Ca²⁺ uptake by 30–40%. Various combinations of these Ca²⁺ channel blockers had no significant additional effects in chick or rat P₂ fraction or NG 108-15 cells. These findings suggest that KCl-stimulated ⁴⁵Ca²⁺ uptake by chick or rat P₂ fraction and NG 108-15 cells is a convenient and useful model for screening whether or not natural or synthetic substances have selective effects as L-, N-, P-, or P/Q- type Ca²⁺ channel antagonists or agonists.     

Modulation of Formalin-Evoked Hyperalgesia by Intrathecal N-Type Ca Channel and Protein Kinase C Inhibitor in the Rat

1. -CgTx attenuated formalin-evoked biphasic flinches, while PKC inhibitor (STU) attenuated phase 2 and was reversed by PDBu.2. -CgTx and STU suppressed the increase in CSF-glutamate after formalin injection.3. Morphine completely suppressed both increased flinching and CSF glutamate release.4. Thus, -CgTx (N-type Ca channels) may regulate neurotransmitter release evoked by C fiber activation and the formalin-evoked hyperalgesia may possibly be provoked as a result of PKC activation elicited by both presynaptic neurotransmitter release and activation of NMDA receptors in the spinal neurons.     

Differences of the electrical and nicotinic receptor stimulation-evoked liberation of norepinephrine from chicken sympathetic neurons in culture: Possible involvement of different pools of the transmitter

We studied the release of [³H]norepinephrine from chicken sympathetic neurons in culture evoked by nicotinic and electrical stimulation with an intention to establish functional identity or nonidentity of the two stimuli in investigations of neurotransmitter release. Nicotinic stimulation evoked extracellular calcium dependent release of [³H]norepinephrine and the rise of intracellular calcium concentration. The release was completely blocked by nicotinic antagonists hexamethonium (100 mol/l) and mecamylamine (10 mol/l), and decreased by tetrodotoxin (0.3 mol/l) and -conotoxin (0.1 mol/l) to 17% and 27%, resp. The intracellular calcium response was decreased by nicotinic antagonists and tetrodotoxin, but not changed by -conotoxin. The electrical stimulation-evoked release was blocked by both tetrodotoxin and -conotoxin, and decreased by previous electrical, but not nicotinic, stimulation. The differential sensitivity to -conotoxin and tetrodotoxin, and the inability of nicotinic stimulation to decrease the liberation by following electrical stimulation may suggest the mobilization of different pools of the transmitter.     

Characteristics of the Inhibitory Effect of Calmodulin on Specific [125I]Omega-Conotoxin GVIA Binding to Crude Membranes from Chick Brain

The characteristics of the inhibitory effect of calcium ion (Ca²⁺)/calmodulin (CaM) on specific [¹²⁵I]-omega-conotoxin GVIA (¹²⁵I--CTX) binding and on the labeling of ¹²⁵I--CTX to crude membranes from chick brain were investigated. The inhibitory effect of Ca²⁺/CaM depended on the concentrations of free Ca²⁺ and CaM. The IC₅₀ values for free Ca²⁺ and CaM were about 2.0 × 10^–8 M and 3.0 g protein/ml, respectively. The inhibitory effect of Ca²⁺/CaM was attenuated by the CaM antagonists W-7, prenylamine and CaM-kinase II fragment (290–309), but not by the calcineurin inhibitor FK506. Ca²⁺/CaM also inhibited the labeling of a 135-kDa band (which was considered to be part of N-type Ca²⁺ channel ₁ subunits) with ¹²⁵I--CTX using a cross-linker. These results suggest that Ca²⁺/CaM affects specific ¹²⁵I--CTX binding sites, probably N-type Ca²⁺ channel ₁ subunits, in crude membranes from chick whole brain.     

A new metabolic pathway from n-dodecane to α, ω-dodecanedioic acid in a mutant of Candida tropicalis

Summary The metabolic formation of ,-dodecanedioic acid via ,-dodecanediol from n-dodecane using a mutant S76 of Candida tropicalis was studied.It was found that resting cells of S76 produce ,-dodecanediol from n-dodecane. This intermediate was identified by different analytical methods. With n-dodecanol as substrate the quantitative changes in the concentrations of ,-dodecanediol as well as other intermediates, e.g. monoacid, -hydroxy acid and ,-dioic acid produced by resting cells of S76 for different periods of time were determined. With ,-dodecanediol as the sole carbon source, quantitative changes of -hydroxy acid and ,-dioic acid produced by S76 were also recorded.The results confirm the existence of a new metabolic pathway via ,-diol in the course of ,-dioic acid formation from n-alkane in the mutant S76 of C. tropicalis.     

Characterization of the type of calcium channel primarily regulating GABA exocytosis from brain nerve endings

In an attempt to further characterize the type of Ca²⁺ channels primarily regulating GABA exocytosis, the effects of increasing concentrations of CTx MVIIC,--Aga IVA and other Ca²⁺ channel blockers (nitrendipine, Cd²⁺ and Ni²⁺), commonly used for pharmacologically discerning among the various types of Ca²⁺ channels, were tested on the dissected Ca²⁺ dependent fraction of the depolarization evoked release of GABA from mouse brain synaptosomes. Our results show that -CTx MVIIC inhibits GABA exocytosis with a calculated IC₅₀ of 3 M and -Aga IVA with a calculated IC₅₀ of 50 nM. The divalent cation Cd²⁺ only diminishes GABA exocytosis at 70 M, but does not modify this response at lower concentrations (i.e. 1 and 10 M). Neither nitrendipine (10 M) nor Ni²⁺ (100 M and 500 M) modified GABA exocytosis. The failure of nitrendipine at a high concentration to inhibit GABA exocytosis discards L-type Ca²⁺ channels as the main regulators of this response; likewise that of Ni²⁺ discards Ca²⁺ channels of the N-type, and the failure of nM concentrations of -CTx MVIIC or 500 M Ni²⁺, also discards alpha_1A/Q-type Ca²⁺ channels as the main regulators of the GABA response. On the basis of these results and in particular of the higher potency of -Aga IVA than -CTx MVIIC, it is concluded that the type of Ca²⁺ channels that primarily determine the exocytosis of GABA belong to a P-like type of Ca²⁺ channels.     

Formation ofα,ω-dodecanedioic acid andα,ω-tridecanedioic acid from different substrates by immobilized cells of a mutant ofCandida tropicalis

Summary The metabolic formation of either,-dodecanedioic acid or,-tridecanedioic acid from the individual n-alkane, n-alcohol, n-monoacid and,-diol with corresponding carbon chain length using K-carrageenan entrapped mutants S76 ofCandida tropicalis was studied. The immobilized cells of S76 could also directly produce-hydroxy acid and,-dioic acid from,-diol. With n-alcohol and n-monoacid as substrate, the amount of-hydroxy acid and,-dioic acid produced was also a function of the incubation time.The results demonstrated that in the immobilized cells of S76 the formation of,-dioic acid from n-alcohol can also run both via n-monoacid and via,-diol as well as in the normal cells of S76.     

Calcium/Calmodulin Inhibits the Binding of Specific [125I]Omega-Conotoxin GVIA to Chick Brain Membranes

The effect of Ca²⁺/calmodulin (CaM) on the specific binding of [¹²⁵I]omega-conotoxin GVIA (¹²⁵I--CTX) to crude membranes from chick brain was investigated. When we examined the effects of the activation of various endogenous protein kinases on specific [¹²⁵I]-CTX binding to crude membranes, we observed that Ca²⁺/CaM had an inhibitory effect regardless of whether or not the standard medium contained ATP (0.5 mM). Ca²⁺/CaM also had an inhibitory effect in a simple binding-assay medium containing HEPES-HCl buffer, BSA, Ca²⁺ and CaM, and this effect was dependent on the concentration of Ca²⁺. The effect of Ca²⁺/CaM was attenuated by the CaM antagonists W-7 and CaM-kinase II fragment (290–309). An experiment with modified ELISA using purified anti -CTX antibody indicated that Ca²⁺/CaM did not affect the direct binding of [¹²⁵I]-CTX and CaM. These results suggest that Ca²⁺/CaM either directly or indirectly affects specific [¹²⁵I]-CTX binding sites, probably N-type Ca²⁺ channels in crude membranes from chick whole brain.     

Average phase difference theory and 1∶1 phase entrainment in interlimb coordination

The dynamics of coupled biological oscillators can be modeled by averaging the effects of coupling over each oscillatory cycle so that the coupling depends on the phase difference between the two oscillators and not on their specific states. Average phase difference theory claims that mode locking phenomena can be predicted by the average effects of the coupling influences. As a starting point for both empirical and theoretical investigations, Rand et al. (1988) have proposed d/dt= — K sin ), with phase-locked solutions =arcsin( /K), where is the difference between the uncoupled frequencies and K is the coupling strength. Phase-locking was evaluated in three experiments using an interlimb coordination paradigm in which a person oscillates hand-held pendulums. was controlled through length differences in the left and right pendulums. The coupled frequency _c was varied by a metronome, and scaled to the eigenfrequency _v of the coupled system K was assumed to vary inversely with _c. The results indicate that: (1) and K contribute multiplicatively to (2) =0 or = regardless of K when =0; (3) 0 or regardless of when K is large (relative to ); (4) results (1) to (3) hold identically for both in phase and antiphase coordination. The results also indicate that the relevant frequency is _c/_v rather than _c. Discussion high-lighted the significance of confirming =arcsin(/K) for more general treatments of phase-locking, such as circle map dynamics, and for the 11 phase-entrainment which characterizes biological movement systems.     

Characteristics of specific125I-ω-conotoxin GVIA binding in rat whole brain

Characteristics of specific¹²⁵I-omega-conotoxin (-CgTX) binding were systematically investigated in crude membranes from rat whole brain. Kd and Bmax Values for the binding were 49.7 pM and 181.5 fmol/mg of protein, respectively. The effects of various types of Ca channel antagonists on the binding were investigated. Dynorphin A (1–13), in particular, specifically inhibited¹²⁵I--CgTX binding, but not that of [³H](+)PN200-110. Spider venom fromPlectreurys tristes did not specifically inhibit specific binding of¹²⁵I--CgTX, because the venom also inhibited the binding of [³H](+)PN200-110 to a similar degree. The amount of specific binding of¹²⁵I--CgTX was less in the cerebellum than that in any other area of whole brain. The cross-linker disuccinimidyl suberate did not label with¹²⁵I--CgTX and its binding sites in rat whole brain, although it did in chick whole brain, which was used as a positive control. These findings suggested that dynorphine A (1–13) was a selective blocker of -CgTX-sensitive Ca channels in crude membranes from rat whole brain and that -CgTX-sensitive Ca channels were mainly present a rat brain except cerebellum.     

Oscillatory reaction-diffusion equations on rings

We study the behavior of traveling waves in - systems on both homogeneous and inhomogeneous rings. The stability regions in parameter space of - waves were previously known [15, 19]; the results are extended here. We show the existence of Hopf bifurcations of traveling waves and the stability of the limit cycles born at the Hopf bifurcation for some parameter ranges. Using a Lindstedt-type perturbation scheme, we formally construct periodic solutions of the - system near a Hopf bifurcation and show that the periodic solutions superimposed on the original traveling wave have the effect of altering its overall frequency and amplitude. We also study the - system on an annulus ofvariable width, which does not possess reflection symmetry about any axis. We formally construct traveling waves on this variable-width annulus by a perturbation scheme, and find that perturbing the width of the annulus alters the amplitude and frequency of traveling waves on the domain by a small (order ²) amount. For typical parameter values, we find that the speed, frequency, and stability are unaffected by the direction of travel of the wave on the annulus, despite the rotationally asymmetric inhomogeneity. This indicates that the - system on a variable-width domain cannot account for directional preferences of traveling waves in biological systems.     

Degradation pathways from n-tridecane to α, ω-tridecanedioic acid in a mutant of Candida tropicalis

Summary The metabolic formation of ,-tridecanedioic acid via n-tridecanoic acid and via ,-tridecanediol from n-tridecane in the mutant S 76 of Candida tropicalis was studied. It was found that resting cells of S 76 produced ,-tridecanediol from n-tridecane.With n-tridecanol as substrate, the ,-diol could also be detected. The mutant S 76 was able to produce ,-tridecanedioic acid using either n-tridecanol or n-tridecanoic acid as the sole carbon source. Quantitative changes in the concentration of -hydroxy tridecanoic acid and other intermediates were recorded during the formation of ,-dioic acid.The results confirm the existence of two metabolic pathways mentioned above in the course of ,-dioic acid formation from odd n-alkane in the mutant S 76 of C. tropicalis.     

Inserted sequence in the mitochondrial 23S ribosomal RNA gene of the yeast Saccharomyces cerevisiae.

Summary The sequence organization of the yeast mit-DNA region carrying the large ribosomal RNA gene and the polar locus was examined. Hybridization studies using rho^- deletion mutants and electron microscopy of the heteroduplexes formed between 23S rRNA and the appropriate restriction fragments, lead to the conclusion that the 23S rRNA¹ gene of the ⁺ strains is split by an insertion sequence of 1,000–1,100 bp. In contrast, no detactable insertion was found in the 23S rRNA gene of the ^- strains. The size and the location of the insert found in the 23S rRNA gene of the ⁺ strains appear to be identical to those of the sequence which had previously been found to characterize the difference (at the locus) between the mitDNA of the wild type strains carrying the ⁺ or ^- alleles (Jacq et al., 1977).     

Modulation of Na+-channels by neurotoxins produces different effects on [3H]ACh release with mobilization of distinct Ca2+-channels

1. Voltage-gated Na⁺ channels are responsible for initiation and conduction of action potentials. The arrival of an action potential at nerve terminal increases intracellular Na⁺ and Ca²⁺ concentrations. Calcium entry into neurons through voltage-dependent calcium channels is associated with a variety of intracellular processes. Scorpion neurotoxins have been used as tools to investigate mechanisms involved in neurotransmitter release. Tityustoxin (TsTX) is an -type toxin that delays Na⁺-channel inactivation. Toxin- (TiTX-) is a -type toxin that induces Na⁺-channel activation at resting potentials.2. In the present work, we describe the effects of both toxins on [³H]acetylcholine ([³H]ACh) release from rat cerebrocortical synaptosomes, in the presence or absence of the calcium channels blockers: -conotoxin-GVIA (-CgTx), 1 M; -agatoxin-IVA (-Aga), 30 nM; -conotoxin-MVIIC (-MVIIC), 1 M; or verapamil, 1M.3. TsTX evokes [³H]ACh release in a concentration-dependent manner with a gradual increase up to saturation at concentrations of 500 nM. However, release of ACh evoked by TiTX- was not linear regarding the toxin concentration. The [³H]-ACh release evoked by TsTX or TiTX- was partially inhibited by -CgTx or -Aga, and blocked with -MVIIC. Verapamil (1 M) had no effect. Tetrodotoxin blocked [³H]ACh release evoked by both toxins.4. These results show that different actions on Na⁺-channels produce different effects on [³H]ACh release with involvement of distinct presynaptic Ca²⁺-channels, which supports the idea that sodium channels may modulate neurotransmitter release.     

The solution structure of ω-Aga-IVB,a P-type calcium channel antagonist from venom of the funnel web spider,Agelenopsis aperta

Summary The 48 amino acid peptides -Aga-IVA and -Aga-IVB are the first agents known to specifically block P-type calcium channels in mammalian brain, thus complementing the existing suite of pharmacological tools used for characterizing calcium channels. These peptides provide a new set of probes for studies aimed at elucidating the structural basis underlying the subtype specificity of calcium channel antagonists. We used 288 NMR-derived constraints in a protocol combining distance geometry and molecular dynamics employing the program DGII, followed by energy minimization with Discover to derive the three-dimensional structure of -Aga-IVB. The toxin consists of a well-defined core region, comprising seven solvent-shielded residues and a well-defined triple-stranded -sheet. Four loop regions have average backbone rms deviations between 0.38 and 1.31 Å, two of which are well-defined type-II -turns. Other structural features include disordered C- and N-termini and several conserved basic amino acids that are clustered on one face of the molecule. The reported structure suggests a possible surface for interaction with the channel. This surface contains amino acids that are identical to those of another known P-type calcium channel antagonist, -Aga-IVA, and is rich in basic residues that may have a role in binding to the anionic sites in the extracellular regions of the calcium channel.Abbreviations TOCSY total correlated spectroscopy - NOESY nuclear Overhauser enhancement spectroscopy - COSY correlated spectroscopy     

Purification and characterization of hydroxycinnamoyl-coenzyme A: ω-hydroxypalmitic acid O-hydroxycinnamoyltransferase from tobacco (Nicotiana tabacum L.) cell-suspension cultures

An acyltransferase hydroxycinnamoyl-Coenzyme A: -hydroxypalmitic acid O-hydroxycinnamoyltransferase (HHT; EC 2.3.1.-), which transfers hydroxycinnamic acids from hydroxycinnamoyl-CoA thioesters to several hydroxylated fatty acid derivatives, was characterized from tobacco (Nicotiana tabacum L. cv. Xanthi nc) cell-suspension cultures. It exhibited the same properties as the enzyme previously detected in wound-healing potato tuber discs (Lotfy et al., 1994, Phytochemistry 35: 1419–1424), and especially a marked specificity for -hydroxypalmitic acid and feruloyl-CoA. It was purified 300-fold to near homogeneity from late logarithmic-phase cell suspensions. The apparent molecular mass of the native protein was 55 kDa and its isoelectric point, estimated by electrofocusing, was 4.6. The purified enzyme conjugated ferulic acid to -hydroxypalmitic acid and to 1-tetradecanol, its main lipidic substrates, suggesting that the same enzyme probably synthesizes the different esters of 1-alkanols and of -hydroxy fatty acids which are formed in vitro.Abbreviations ABA abscisic acid - IEF isoelectric focusing - HHT hydroxycinnamoyl-Coenzyme A: -hydroxypalmitic acid O-hydroxycinnamoyltransferase - pI isoelectric point