Your search keyword '"Philanthotoxin"' showing total 28 results

1. Philanthotoxin Analogues That Selectively Inhibit Ganglionic Nicotinic Acetylcholine Receptors with Exceptional Potency.

Author

Kachel, Hamid S., Franzyk, Henrik, and Mellor, Ian R.

Published

2019

2. Assessment of Structurally Diverse Philanthotoxin Analogues for Inhibitory Activity on Ionotropic Glutamate Receptor Subtypes: Discovery of Nanomolar, Nonselective, and Use-Dependent Antagonists.

Author

Sidsel Frølund, Angelo Bella, Anders S. Kristensen, Hanne L. Ziegler, Matthias Witt, Christian A. Olsen, Kristian Strømgaard, Henrik Franzyk, and Jerzy W. Jaroszewski

Published

2010

3. Philanthotoxin Analogues That Selectively Inhibit Ganglionic Nicotinic Acetylcholine Receptors with Exceptional Potency

Author

Kachel, Hamid S., Franzyk, Henrik, and Mellor, Ian R.

Abstract

Philanthotoxin-433 (PhTX-433) is an active component of the venom from the Egyptian digger wasp, Philanthus triangulum. PhTX-433 nonselectively inhibits several excitatory ligand-gated ion channels, and we recently showed that its synthetic analogue, PhTX-343, exhibits strong selectivity for neuronal over muscle-type nicotinic acetylcholine receptors (nAChRs). Here, we examined the action of 17 analogues of PhTX-343 against ganglionic (α3β4) and brain (α4β2) nAChRs expressed in Xenopusoocytes by using a two-electrode voltage clamp at −100 mV. IC50values for PhTX-343 inhibition of α3β4 and α4β2 receptors were 7.7 and 80 nM, respectively. All the studied analogues had significantly higher potency at α3β4 nAChRs with IC50values as low as 0.16 nM and with up to 91-fold selectivity for α3β4 over α4β2 receptors. We conclude that PhTX-343 analogues displaying both a saturated ring and an aromatic moiety in the hydrophobic headgroup of the molecule demonstrate exceptional potency and selectivity for α3β4 nAChRs.

Published

2019

4. Synthesis of philanthotoxin analogs with a branched polyamine moiety.

Author

Kalivretenos, Aristotle G. and Nakanishi, Koji

Published

1993

5. An analysis of philanthotoxin block for recombinant rat GluR6(Q) glutamate receptor channels

Author

Bähring, Robert and Mayer, Mark L.

Abstract

1The action of philanthotoxin 343 (PhTX) on rat homomeric GluR6(Q) recombinant glutamate receptor channels was analysed using concentration‐jump techniques and outside‐out patches from HEK 293 cells. Both onset and recovery from block by external PhTX were dependent on the presence of agonist, indicating that channels must open for PhTX to bind and that channel closure can trap PhTX.2Block by external PhTX developed with double‐exponential kinetics. The rate of onset of the fast component of block showed an exponential increase per 27 mV hyperpolarization over the range ‐40 to ‐100 mV. The rate of onset of the slow component of block showed a non‐linear concentration dependence indicating a rate‐limiting step in the blocking mechanism.3The extent of block by 1 μM external PhTX was maximal at ‐40 mV and did not increase with further hyperpolarization; the rate of recovery from block by external PhTX increased 6‐fold on hyperpolarization from ‐40 to ‐100 mV suggesting that PhTX permeates at negative membrane potentials.4Apparent Kdvalues for block by external PhTX estimated from dose‐inhibition experiments decreased 300‐fold on hyperpolarization from +40 mV (Kd, 19.6 μM) to ‐40 mV (Kd, 69 nM); there was little further increase in affinity with hyperpolarization to ‐80 mV (Kd, 56 nM), consistent with permeation of PhTX at negative membrane potentials.5Block by internal PhTX showed complex kinetics and voltage dependence. Analysis with voltage ramps from ‐120 to +120 mV indicated a Kdat 0 mV of 20 μM, decreasing e‐fold per 16 mV depolarization. However, at +90 mV the extent of block by 1 and 10 μM internal PhTX (73 % and 95 %, respectively) reached a maximum and did not increase with further depolarization.6Voltage‐jump analysis of block by 100 μM internal PhTX revealed partial trapping. With 100 ms jumps from ‐100 to ‐40 mV, onset and recovery from block were complete within 5 ms. With jumps of longer duration the extent of block increased, with a time constant of 8.1 s, reaching 84 % at 30 s. On repolarization to ‐100 mV, recovery from block showed fast and slow components.7The amplitude of the slow component of block by internal PhTX showed a biphasic voltage dependence, first increasing then decreasing with progressive depolarization. Maximum block was obtained at 0 mV.8Our results suggest that PhTX acts as an open channel blocker; however, provided that the toxin remains bound to the channel, an allosteric mechanism destabilizes the open state, inducing channel closing and trapping PhTX. Strong depolarization for internal PhTX, or strong hyperpolarization for external PhTX, forces the toxin to permeate before it triggers entry into closed blocked states.

Published

1998

6. Inhibition of rat brain glutamate receptors by philanthotoxin.

Author

Ragsdale, D, Gant, D B, Anis, N A, Eldefrawi, A T, Eldefrawi, M E, Konno, K, and Miledi, R

Abstract

The actions of philanthotoxin (PhTX) were studied on the function of glutamate receptors expressed in Xenopus oocytes injected with rat brain mRNA and on binding of radioligands to rat brain glutamate receptors. PhTX reversibly inhibited the oocyte responses to quisqualate, N-methyl-D-aspartate (NMDA) and kainate in a dose-dependent manner. The NMDA receptor was the most sensitive to PhTX action (10-fold more than the kainate receptor) and the least sensitive was the smooth current component of the quisqualate response. Recovery from PhTX block differed among the three amino acids. NMDA responses recovered completely within a few minutes whereas responses to kainate and quisqualate recovered more slowly. PhTX had no effect on equilibrium binding of [3H]glutamate to rat brain cortical membranes studied in buffer treated to eliminate microorganisms. Based on the drug specificity of this [3H]glutamate binding, it is suggested to be mostly to the NMDA receptor. Low concentrations of PhTX (1-10 microM) potentiated binding of [3H] MK-801, a specific noncompetitive inhibitor of the NMDA receptor. However, higher PhTX concentrations inhibited this binding with an IC50 of 20 microM, similar to its inhibition of the oocyte-expressed NMDA receptor. Inhibition of [3H]MK-801 binding by PhTX was noncompetitive. It is suggested that PhTX, like the more potent MK-801, binds to an allosteric site on the NMDA receptor and inhibits its function but its binding site is not identical with the MK-801 binding site.

Published

1989

7. Allosteric inhibition of nicotinic acetylcholine receptors of vertebrates and insects by philanthotoxin.

Author

Rozental, R, Scoble, G T, Albuquerque, E X, Idriss, M, Sherby, S, Sattelle, D B, Nakanishi, K, Konno, K, Eldefrawi, A T, and Eldefrawi, M E

Abstract

The effects of pure philanthotoxin (PhTX), a component of the venom of the wasp Philanthus triangulum, were studied on nicotinic acetylcholine receptors (nAChRs) of vertebrates and insects so as to compare their sensitivities and the mechanism of action of PhTX. Electrophysiological techniques were used on frog muscles and cockroach thoracic ganglia and biochemical techniques were applied to membranes from Torpedo electric organ and honeybee brain. PhTX (1-20 microM) inhibited reversibly the indirectly elicited muscle twitch and reduced the endplate current peak amplitude and its decay time constant in a concentration-dependent manner. In patch clamp studies, PhTX (1-5 microM) when combined with acetylcholine, induced a concentration-dependent decrease in frequency of channel openings and in channel open and burst times. The cockroach fast coxal depressor neuron was inhibited by PhTX in a time- and voltage-dependent manner. The initial rate of binding of [3H]perhydrohistrionicotoxin to Torpedo nAChR in the presence of carbamylcholine was inhibited competitively by PhTX. Binding of alpha-[125I] bungarotoxin to electric organ and honeybee brain membranes was inhibited by PhTX. Binding of [3H]acetylcholine to the electric organ receptor was potentiated by low concentrations of PhTX but inhibited by high concentrations. PhTX, therefore, inhibits both vertebrate and insect nAChRs, which may be important molecular targets for its toxicity. It is suggested that PhTX at high concentration may have some competitive action on nAChR, but it acts mainly as a blocker of the ion channel of the nAChR in its open conformation.

Published

1989

8. Structure-activity relationships of philanthotoxin analogs and polyamines on N-methyl-D-aspartate and nicotinic acetylcholine receptors.

Author

Anis, N, Sherby, S, Goodnow, R, Niwa, M, Konno, K, Kallimopoulos, T, Bukownik, R, Nakanishi, K, Usherwood, P, and Eldefrawi, A

Abstract

The effects of varying the structure of philanthotoxin (PhTX) were investigated on binding of the channel blockers: [3H]perhydrohistrionicotoxin (H12-HTX) to the nicotinic acetylcholine receptor (nACh-R) of Torpedo electric organ and [3H]MK-801 [( 3H]-5-methyl-10,11-dihydro-5H-dibenzocyclo-hepten-5,10-imine maleate) to the N-methyl-D-aspartate receptor (NMDA-R) of rat brain cortex. The four moieties of PhTX (tyrosine, butyrate, spermine and the terminal amino group) were modified or conjugated resulting in 36 compounds. Although the potencies of the PhTX analogs on both receptors were higher with increasing lipophilicity and the polyamine chain length, there was considerable divergence between the two receptors' channels in the structural activity requirements for blockade by PhTX analogs. A major difference was the more critical role of the amine terminal for inhibition of the nACh-R than the NMDA-R, whereas the reverse might be true for the tyrosine moiety. The potency range of PhTX analogs on [3H]H12-HTX binding was 1070, but only 21 on [3H]MK-801 binding. Adding a lysine or arginine onto the spermine moiety increased the compound's potency on the nACh-R with little effect on the NMDA-R. Because spermine is a component of PhTX, the effects of five polyamines were also studied. Spermine and spermidine potentiated [3H]MK-801 binding, whereas putrescine, cadeverine and agmatine inhibited it. In presence of glutamate, higher concentrations of all polyamines inhibited [3H]MK-801 binding. On the nACh-R, spermine, spermidine and agmatine inhibited [125I]alpha-bungarotoxin and also [3H]H12-HTX binding in presence of carbamylcholine. The complex nature of PhTX interactions with the two receptors suggests that PhTX may bind to two sites: an external polyamine binding site and a channel binding site.

Published

1990

9. Contrasting Actions of Philanthotoxin-343 and Philanthotoxin-(12) on Human Muscle Nicotinic Acetylcholine Receptors

Author

Brier, Tim J., Mellor, Ian R., Tikhonov, Denis B., Neagoe, Ioana, Shao, Zuoyi, Brierley, Matt J., Strømgaard, Kristian, Jaroszewski, Jerzy W., Krogsgaard-Larsen, Povl, and Usherwood, Peter N.R.

Abstract

Whole-cell recordings and outside-out patch recordings from TE671 cells were made to investigate antagonism of human muscle nicotinic acetylcholine receptors (nAChR) by the philanthotoxins, PhTX-343 and PhTX-(12). When coapplied with acetylcholine (ACh), PhTX-343 caused activation-dependent, noncompetitive inhibition (IC50= 17 μM at -100 mV) of whole-cell currents that was strongly voltage-dependent. However, preapplication of PhTX-343 unveiled a voltage-independent antagonism that also required receptor activation, which is suggestive of desensitization enhancement. In single-channel studies, 10 μM PhTX-343 significantly reduced the mean open time of channel openings evoked by 1 μM ACh from 4.42 ± 0.44 to 1.58 ± 0.10 ms with a minor increase (1.26-fold) in mean closed time. These data indicate that PhTX-343 predominantly blocks the open channel gated by ACh. In contrast, PhTX-(12) caused potent (IC50= 0.77 μM at-100 mV), activation-dependent, noncompetitive inhibition of ACh-induced whole-cell currents that was only weakly voltage-dependent and suggestive of desensitization enhancement. It caused only a small decrease (7.5%) in the mean open time of channel openings induced by 1 μM ACh, whereas the mean closed time was significantly increased from 200 ± 45 ms to 586 ± 145 ms. The different voltage-dependencies of the two modes of action of these philanthotoxins suggest two binding sites, one deep in the nAChR pore, the other near the extracellular entrance to the pore.

Published

2003

10. Contrasting actions of philanthotoxin-343 and philanthotoxin-(12) on human muscle nicotinic acetylcholine receptors.

Author

J, Brier Tim, R, Mellor Ian, B, Tikhonov Denis, Ioana, Neagoe, Zuoyi, Shao, J, Brierley Matt, Kristian, Strmgaard, W, Jaroszewski Jerzy, Povl, Krogsgaard-Larsen, and R, Usherwood Peter N

Abstract

Whole-cell recordings and outside-out patch recordings from TE671 cells were made to investigate antagonism of human muscle nicotinic acetylcholine receptors (nAChR) by the philanthotoxins, PhTX-343 and PhTX-(12). When coapplied with acetylcholine (ACh), PhTX-343 caused activation-dependent, noncompetitive inhibition (IC50 = 17 microM at -100 mV) of whole-cell currents that was strongly voltage-dependent. However, preapplication of PhTX-343 unveiled a voltage-independent antagonism that also required receptor activation, which is suggestive of desensitization enhancement. In single-channel studies, 10 microM PhTX-343 significantly reduced the mean open time of channel openings evoked by 1 microM ACh from 4.42 +/- 0.44 to 1.58 +/- 0.10 ms with a minor increase (1.26-fold) in mean closed time. These data indicate that PhTX-343 predominantly blocks the open channel gated by ACh. In contrast, PhTX-(12) caused potent (IC50 = 0.77 microM at-100 mV), activation-dependent, noncompetitive inhibition of ACh-induced whole-cell currents that was only weakly voltage-dependent and suggestive of desensitization enhancement. It caused only a small decrease (7.5%) in the mean open time of channel openings induced by 1 microM ACh, whereas the mean closed time was significantly increased from 200 +/- 45 ms to 586 +/- 145 ms. The different voltage-dependencies of the two modes of action of these philanthotoxins suggest two binding sites, one deep in the nAChR pore, the other near the extracellular entrance to the pore.

Published

2003

11. Solid-Phase Synthesis and Biological Evaluation of a Combinatorial Library of Philanthotoxin Analogues

Author

Stromgaard, K., Brier, T. J., Andersen, K., Mellor, I. R., Saghyan, A., Tikhonov, D., Usherwood, P. N. R., Krogsgaard-Larsen, P., and Jaroszewski, J. W.

Abstract

The modular structure of philanthotoxins was exploited for construction of the first combinatorial library of these compounds using solid-phase parallel synthesis. (S)-Tyrosine and (S)-3-hydroxyphenylalanine were used as amino acid components, spermine, 1,12-dodecanediamine, and 4,9-dioxa-1,12-dodecanediamine as amine components, and butanoyl, phenylacetyl, and cyclohexylacetyl as N-acyl groups. Following automated preparative HPLC, the resulting 18 compounds were isolated as the S-forms in 40−70% yields. The purity of the products was determined by HPLC with evaporative light scattering detection and by ¹H and ¹³C NMR. The thus obtained philanthotoxins were tested electrophysiologically for their antagonist properties on human muscle-type nicotinic acetylcholine receptors (nAChR) expressed in TE671 cells and on rat brain non-NMDA glutamate receptors (non-NMDAR) expressed in Xenopus oocytes. 4-Hydroxy analogues lacking the secondary amino groups (PhTX-12 and 4,9-dioxa-PhTX-12 and their analogues) were inactive on non-NMDAR, whereas the potency of the spermine derivatives (PhTX-343 and its analogues) increased with steric bulk of the N-acyl group. The analogue of PhTX-343 in which the N-butanoyl group was replaced by phenylacetyl group had IC50 of 15 ± 4 nM on non-NMDAR. Increasing the steric bulk of the N-acyl group was not advantageous for activity at nAChR, and a sharp decrease in potency with increased steric bulk was observed with the derivatives of PhTX-12. 3-Hydroxy analogues generally exhibited lower activity and different response to alterations of the N-acyl groups as compared to the 4-hydroxy analogues. Since the acyl group alterations in PhTX-343 and 4,9-dioxa-PhTX-12 have a similar effect on potency, which is distinctly different from that observed for PhTX-12, the two former compounds may bind to nAChR in a similar fashion but differently from that of PhTX-12. The combinatorial library approach described in this work represents a prototype methodology for future exploration of structure−activity relationships of philanthotoxins.

Published

2000

12. Bioorganic studies of transmitter receptors with philanthotoxin analogs

Author

Nakanishi, K., Choi, S.-K., Hwang, Danwen, Lerro, Keith, Orlando, M., Kalivretenos, A. G., Eldefrawi, A. T., Eldefrawi, M. E., and Usherwood, P. N. R.

Published

1994

13. The Choice of Phosphane Reagent in Fukuyama−Mitsunobu Alkylation: Intramolecular Selectivity Between Primary and Secondary Alcohols in the Preparation of Asymmetric Tetraamine Building Blocks for Synthesis of Philanthotoxins

Author

Olsen, Christian A., Jørgensen, Malene R., Witt, Matthias, Mellor, Ian R., Usherwood, Peter N. R., Jaroszewski, Jerzy W., and Franzyk, Henrik

Abstract

Philanthotoxin-433 (PhTX-433) is a polyamine wasp toxin that antagonizes certain ionotropic receptors noncompetitively. Four analogues of PhTX-433, C-methylated in the polyamine chain, were synthesized from (RS)-1,3-butanediol, two diamine building blocks, and an activated/protected tyrosine derivative. Use of a phosphane reagent more bulky than trimethylphosphane gave a high intramolecular selectivity between primary and secondary hydroxy groups in the Fukuyama−Mitsunobu reaction. Thus, trimethylphosphane proved to be the only phosphane reagent that enabled alkylation of 2-nitrobenzenesulfonamides with a wide range of secondary alcohols, whereas tributylphosphane was selective for primary alcohol groups. This selectivity was utilized to obtain orthogonally protected, asymmetric, branched tetraamines, employed for solution-phase synthesis of philanthotoxin analogues. The branched philanthotoxin analogues thus obtained were tested in an electrophysiological assay using rat brain ionotropic glutamate receptors expressed in Xenopus laevis oocytes. Their potencies proved to be similar to the corresponding nonbranched analogues. (© Wiley-VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2003)

Published

2003

14. Electrophysiological Pharmacology of the Nicotinic and Muscarinic Cholinergic Responses of Isolated Neuronal Somata From Locust Thoracic Ganglia

Author

Benson, Jack A.

Abstract

Mechanically isolated neuronal somata from the thoracic ganglia of the locust Locusta migratoria remain electrophysiologically viable under current-or voltage-clamp in vitro for many hours. Nicotine and muscarine evoke different responses when pressure-microapplied to these somata. The response to acetylcholine is mainly nicotinic but contains a small muscarinic component. The nicotinic (AChl) response is a rapid depolarisation accompanied by a decrease in membrane resistance. In voltage-clamped somata, the current mediating the AChl response is inward over the membrane potential range −30 to − 110 mV, decreasing with depolarisation and with a projected reversal potential of about +20 mV. The muscarinic (ACh2) response is a slow depolarisation accompanied by a decrease in membrane resistance. In voltage-clamped somata, the current mediating the ACh2 response is inward, decreasing to zero at potentials of −80 to −90 mV. The AChl response is evoked by nicotine, anabasine, tetramethylammonium, DMPP and relatively high concentrations of the nitromethylene heterocycle insecticide, PMNI. Suberyldicholine or decamethonium evoke the response only when acetylcholine is present in the bathing saline. Nicotinic antagonists of the AChl response, in descending order of potency, are PMN1 > α-bungarotoxin⩾lobeline⩾mecamylamine>trimethaphan camsylate>chlorisondamine⩾d-tubo-curarine⩾hexamethomium⩾gallamine triethiodide⩾tetracthylammonium. This response is also potently blocked by strychnine and more weakly blocked by δ-philanthotoxin, bicuculline and picrotoxin. The ACh2 response is evoked by muscarine, oxotremorine, arecoline, pilocarpine and, very weakly, by the Mj-selective agonist McN-A-343. Muscarinic antagonists of the ACh2 response, in descending order of potency, are QNB> scopolamine>atropine>4-DAMP (M3) ⩾benactyzine⩾HHSiD (M1/M3) ⩾ pirenzepine (M1). QNX (M1), AF-DX116 (M2), gallamine triethiodide (M2) and methoctramine (M2) are almost or completely inactive. With the exception of pirenzepine and QNX, all of the muscarinic antagonists used in this study also block the nicotinic AChl response with EC50 values in the range 5 to 50μmol l−1, similar to those for δ-philanthotoxin, bicuculline and picrotoxin. Pirenzepine is inactive (10μmol l−1), but QNX is potently active, with an EC50 value of approximately 20 nmol l−1, similar to that of α-bungarotoxin. The extrasynaptic nicotinic and muscarinic receptors of Locusta migratoria neurones are pharmacologically distinct from the corresponding mammalian receptors studied so far.

Published

1992

15. Excitatory amino acids: new tools for old stories or Pharmacological subtypes of glutamate receptors: electrophysiological studies

Abstract

Although the N-methyl-D-aspartate (NMDA) subtype of L-glutamate receptor is well characterized, the significance of non-NMDA glutamate-sensitive binding sites is not well documented. In this study, a new tricyclic quinoxalinedione (NBQX) and an arthropod toxin (philanthotoxin) were shown to block responses of spinal neurones in vivoto kainate, quisqualate, and AMPA in parallel but had little effect on responses to NMDA. Philanthotoxin appeared to be a use-dependent antagonist consistent with a channel-blocking mode of action. On cortical wedges in vitro, however, NBQX proved to be a more potent antagonist of AMPA and quisqualate than of kainate (pA2values of 7.1, 7.0, and 5.6, respectively) with no effect at 10 μM on responses to NMDA. These studies provide evidence that on cortical neurones, but not on spinal neurones, AMPA and kainate depolarize by pharmacologically different mechanisms.Key words: glutamate receptors, quinoxalinediones, philanthotoxin, AMPA, kainate.

Published

1991

16. Multiple actions of arylalkylamine arthropod toxins on theN-methyl-d-aspartate receptor

Author

Donevan, S.D. and Rogawski, M.A.

Abstract

The effects of the arylalkyamine arthropod toxins argiotoxin 636 and philanthotoxin 343 were studied onN-methyl-d-aspartate receptor currents in cultured rat hippocampal neurons using whole-cell recording techniques. Argiotoxin 636 and philanthotoxin 343 blocked 10 μMN-methyl-d-aspartate (+10 μM glycine) currents in a concentration-dependent fashion (steady-stateic50 values, 0.9 and 56 μM, respectively). The onset and recovery from argiotoxin 636 block occurred slowly (forward and reverse rate constants, 7.5 × 103 s−1 M−1 and 6.9 × 10−3 s−1, respectively) whereas the philanthotoxin 343 block was more rapid (forward and reverse rate constants, 1.1 × 105 s−1 M−1 and 0.1 s−1). A portion, but not all, of the block by the two toxins could be reversed by depolarization to positive holding potentials, indicating that there are voltage-dependent and non-voltage-dependent components of the block. The long-lasting argiotoxin 636 block at −60 mV occurred in a use-dependent fashion and could be substantially reduced by co-application with 10 mM Mg2+, providing evidence that the toxin has a channel blocking action. In contrast to the use dependence of the voltage-dependent argiotoxin 636 block, the non-voltage-dependent component of block (at +60 mV) did not require agonist gating of the channel. The non-voltage-dependent block by argiotoxin 636 was unaffected by increasing the glycine concentration, but was reversed by increasing theN-methyl-d-aspartate concentration, suggesting that the toxin may act as a competitive antagonist at theN-methyl-d-aspartate recognition site. This mechanism was further supported by the near identity of the time constant for argiotoxin 636 block with the time constant for agonist dissociation, irrespective of whether the rapidly dissociating agonistN-methyl-d-aspartate or the more slowly dissociating agonist glutamate was used. With high concentrations ofN-methyl-d-aspartate (≥ 100 μM), argiotoxin 636 produced a potentiation of the peakN-methyl-d-aspartate response (at +60 mV) that was accompanied by a slowing in the rate of current desensitization and an increase in the affinity for glycine.

Published

1996

17. Evaluation of PhTX-74 as Subtype-Selective Inhibitor of GluA2-Containing AMPA Receptors▪

Author

Poulsen, Mette H., Lucas, Simon, Strømgaard, Kristian, and Kristensen, Anders S.

Abstract

The α-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid receptors (AMPARs) are glutamate-gated cation channels that mediate fast excitatory synaptic transmission in the central nervous system. AMPARs are tetramers formed by homo- or heteromeric assembly of GluA1–4 subunits to produce multiple subtypes with varying biophysical properties. Polyamine toxins such as joro spider toxins, philanthotoxins (PhTXs), and argiotoxins are use-dependent ion channel blockers of AMPARs widely employed as highly potent antagonists of GluA2-lacking receptor subtypes. In addition to this use, recent findings have indicated that a philanthotoxin analog, PhTX-74, can distinguish among GluA2-containing AMPAR subtypes in the presence of the prototypical transmembrane AMPAR regulatory protein γ-2 (or stargazin). Thus, PhTX-74 may be of potential use in studies of the neurobiological role of GluA2-containing subtypes. We have evaluated the pharmacological profile of PhTX-74 and related polyamine toxins at homo- and heteromeric AMPARs in the presence and absence of γ-2. Determination of IC50values for inhibition of glutamate-evoked currents from Xenopusoocytes expressing recombinant homo- or heteromeric combinations of GluA1, GluA2, and GluA3 in the presence of γ-2 shows that PhTX-74 inhibits homomeric GluA1 and GluA3 receptors nonselectively, with IC50values in the nanomolar range (252–356 nM), and heteromeric GluA1/A2 and GluA2/A3 receptors nonselectively, with IC50values in the micromolar range (22 μM). Thus, in contrast to earlier findings, we find that PhTX-74 cannot pharmacologically discriminate between GluA2-containing AMPAR subtypes.

Published

2014

18. Evaluation of PhTX-74 as Subtype-Selective Inhibitor of GluA2-Containing AMPA Receptors

Author

Poulsen, Mette H., Lucas, Simon, Strømgaard, Kristian, and Kristensen, Anders S.

Abstract

The α-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid receptors (AMPARs) are glutamate-gated cation channels that mediate fast excitatory synaptic transmission in the central nervous system. AMPARs are tetramers formed by homo- or heteromeric assembly of GluA1–4 subunits to produce multiple subtypes with varying biophysical properties. Polyamine toxins such as joro spider toxins, philanthotoxins (PhTXs), and argiotoxins are use-dependent ion channel blockers of AMPARs widely employed as highly potent antagonists of GluA2-lacking receptor subtypes. In addition to this use, recent findings have indicated that a philanthotoxin analog, PhTX-74, can distinguish among GluA2-containing AMPAR subtypes in the presence of the prototypical transmembrane AMPAR regulatory protein γ-2 (or stargazin). Thus, PhTX-74 may be of potential use in studies of the neurobiological role of GluA2-containing subtypes. We have evaluated the pharmacological profile of PhTX-74 and related polyamine toxins at homo- and heteromeric AMPARs in the presence and absence of γ-2. Determination of IC50values for inhibition of glutamate-evoked currents from Xenopusoocytes expressing recombinant homo- or heteromeric combinations of GluA1, GluA2, and GluA3 in the presence of γ-2 shows that PhTX-74 inhibits homomeric GluA1 and GluA3 receptors nonselectively, with IC50values in the nanomolar range (252–356 nM), and heteromeric GluA1/A2 and GluA2/A3 receptors nonselectively, with IC50values in the micromolar range (22 μM). Thus, in contrast to earlier findings, we find that PhTX-74 cannot pharmacologically discriminate between GluA2-containing AMPAR subtypes.

Published

2014

19. Polyamine Permeation and Rectification of Kir4.1 Channels

Author

Kucheryavykh, Yury V., Pearson, Wade L., Kurata, Harley T., Eaton, Misty J., Skatchkov, Serguei N., and Nichols, Colin G.

Abstract

Inward rectifier K+ (Kir) channels are expressed in multiple neuronal and glial cells. Recent studies have equated certain properties of exogenously expressed Kir4.1 channels with those of native K+ currents in brain cells, as well as demonstrating the expression of Kir4.1 subunits in these tissues. There are nagging problems however with assigning native currents to Kir4.1 channels. One major concern is that in many native tissues, the putatively correlated currents show much weaker rectification than typically reported for cloned Kir4.1 channels. We have now examined the polyamine-dependence of Kir4.1 channels expressed at high density in Cosm6 cells, using inside-out membrane patches. The experiments reveal a complex and variable rectification that can help explain the variability reported for candidate Kir4.1 currents in native cells. Most importantly, rectification seems to be incomplete, even at high polyamine concentrations. In excised membrane patches, with high levels of expression, and high concentrations of spermine, there is ~15% residual conductance that is insensitive to spermine. From a biophysical perspective, this is a striking finding, and indicates either that a bound spermine fails to completely block permeation or that significant spermine permeation (i.e. 'punchthrough') is occurring. To examine this further, we have examined block by philanthotoxin (PhTx, essentially spermine with a bulky tail). PhTx block, while less potent, is more complete than spermine block. This leads us to propose that spermine 'punchthrough' may be significant in Kir4 channels, and that this may be a major contributor to the weak rectification observed under physiological conditions.

Published

2007

20. Uncompetitive Antagonism of AMPA Receptors:  Mechanistic Insights from Studies of Polyamine Toxin Derivatives

Author

F. Andersen, Trine, B. Tikhonov, Denis, Bølcho, Ulrik, Bolshakov, Konstantin, K. Nelson, Jared, Pluteanu, Florentina, R. Mellor, Ian, Egebjerg, Jan, and Strømgaard, Kristian

Abstract

Philanthotoxins are uncompetitive antagonists of Ca2-permeable AMPA receptors presumed to bind to the pore-forming region, but a detailed molecular mechanism for this interaction is missing. Here a small library of novel philanthotoxins was designed and synthesized using a solid-phase strategy. The biological activities were investigated at cloned and “native” AMPA receptors using electrophysiological techniques. A distinct relationship between length of the polyamine moiety and the location of a secondary amino group was observed. Fitting the data to the Woodhull equation allowed the first experimental demonstration of the relative location and orientation of the philanthotoxin molecule in the receptor. These results were corroborated by in silico studies using a homology model of the AMPA receptor ion channel. Together these studies provide strong evidence for a molecular mechanism by which polyamine toxins antagonize the AMPA receptor ion channel and provide the basis for rational development of uncompetitive antagonists of AMPA receptors.

Published

2006

21. The Effects of Conformational Constraints and Steric Bulk in the Amino Acid Moiety of Philanthotoxins on AMPAR Antagonism

Author

Jorgensen, M. R., Olsen, C. A., Mellor, I. R., Usherwood, P. N. R., Witt, M., Franzyk, H., and Jaroszewski, J. W.

Abstract

Philanthotoxin-343 (PhTX-343), a synthetic analogue of wasp toxin PhTX-433, is a noncompetitive antagonist at ionotropic receptors (e.g., AChR or iGluR). To determine possible effects of variations of the amino acid side chain, a library consisting of seventeen PhTX-343 analogues was prepared. Thus, tyrosine was replaced by either apolar, conformationally constrained, or bulky amino acids, whereas the acyl unit and the polyamine moiety were kept unchanged. Analogues with tertiary amide groups were prepared for the first time. Pentafluorophenyl esters were employed for amide bond formation, establishing general protocols for philanthotoxin solution- and solid-phase synthesis (39−90% and 42−54% overall yields, respectively). The analogues were tested for their ability to antagonize kainate-induced currents of 2-amino-3-(3-hydroxy-5-methyl-4-isoxazoyl)propanoic acid receptors (AMPAR) expressed in Xenopus oocytes from rat brain mRNA. This showed that steric bulk in the amino acid moiety is well tolerated and suggests that binding to AMPAR does not involve the α-NHCO group as a donor in hydrogen bonding.

Published

2005

22. Calcium-permeable alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid/kainate receptors mediate development, but not maintenance, of secondary allodynia evoked by first-degree burn in the rat.

Author

L, Jones Toni and S, Sorkin Linda

Abstract

Intrathecal pretreatment with N-methyl-D-aspartate (NMDA) receptor antagonists blocks development of spinal sensitization in a number of pain models. In contrast, secondary mechanical allodynia evoked by thermal injury (52.5 degrees C for 45 s) applied to the hind paw of the rat is not blocked by intrathecal pretreatment with NMDA receptor antagonists. It is, however, blocked by antagonists to the non-NMDA, alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid/kainate (AMPA/KA) and calcium-permeable AMPA/KA receptors. These findings suggest a role for these receptors in the development of spinal sensitization. The present study used the same thermal injury model to assess the effects of the AMPA/KA receptor antagonist 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX) and specific calcium-permeable AMPA/KA receptor antagonists philanthotoxin (PHTx) and joro spider toxin (JST) when given as postinjury treatments. Intrathecal saline injection at 5 and 30 min postinjury had no effect on thermal injury-evoked allodynia as measured by calibrated von Frey filaments. In contrast, 36 nmol of CNQX given at either time point reversed allodynia. Intrathecal 13 nmol of PHTx or 9 nmol of JST (higher doses than that required for pretreatment) reversed allodynia at the 5-min time point, but neither drug was antiallodynic at the 30-min time point. Thus, secondary mechanical allodynia in this model is not maintained by calcium-permeable AMPA/KA receptors, but instead requires activation of calcium-impermeable AMPA/KA receptors. This finding supports a role for AMPA/KA receptor function in responses occurring during spinal sensitization.

Published

2004

23. Polyvalent Cations as Permeant Probes of MIC and TRPM7 Pores

Author

Kerschbaum, Hubert H., Kozak, J. Ashot, and Cahalan, Michael D.

Abstract

Recent studies in Jurkat T cells and in rat basophilic leukemia cells revealed an Mg2+-inhibited cation (MIC) channel that has electrophysiological properties similar to TRPM7 Eyring rate model expressed exogenously in mammalian cells. Here we compare the characteristics of several polyvalent cations and Mg2+ to block monovalent MIC current from the outside. Putrescine, spermidine, spermine, PhTX-343 (a derivative of the naturally occurring polyamine toxin philanthotoxin), and Mg2+ each blocked in a dose- and voltage-dependent manner, indicating a blocking site within the electric field of the ion channel. Spermine and the relatively bulky PhTX-343 exhibited voltage dependence steeper than that expected for the number of charges on the molecule. Polyamines and Mg2+ are permeant blockers, as judged by relief of block at strongly negative membrane potentials. Intracellular dialysis with spermine (300μM) had no effect, indicating an asymmetrical pore. At the single-channel level, spermine and Mg2+ induced flickery block of 40-pS single channels. I/V characteristics and polyamine block are similar in expressed TRPM7 and in native MIC currents, consistent with the conclusion that native MIC channels are composed of TRPM7 subunits. An Eyring rate model is developed to account for I/V characteristics and block of MIC channels by polyvalent cations from the outside.

Published

2003

24. Synthesis and paralytic activities of squaryl amino acid-containing polyamine toxins

Author

Shinada, T., Nakagawa, Y., Hayashi, K., Corzo, G., Nakajima, T., and Ohfune, Y.

Abstract

Summary.:  Eight analogs 4a-7a and 4b-7b of philanthotoxin (PhTX) from wasp venom and nephilatoxin-8 (NPTX-8) from spider venom whose tyrosine or asparagine linker is replaced by squaryl (sq) amino acid or 4-amino squaryl (4-asq) amino acid have been synthesized in an efficient manner via coupling of N-acyl squaryl amino acid intermediate 19 or 26 with the corresponding polyamine part. Preliminary bioassay using crickets revealed that the analogs substituted by glutamate-type squaryl amino acid-containing NPTX 7a and 7b showed more potent paralytic activities than that of NPTX-8.

Published

2003

25. Active zone compaction correlates with presynaptic homeostatic potentiation

Author

Mrestani, Achmed, Pauli, Martin, Kollmannsberger, Philip, Repp, Felix, Kittel, Robert J., Eilers, Jens, Doose, Sören, Sauer, Markus, Sirén, Anna-Leena, Heckmann, Manfred, and Paul, Mila M.

Abstract

Neurotransmitter release is stabilized by homeostatic plasticity. Presynaptic homeostatic potentiation (PHP) operates on timescales ranging from minute- to life-long adaptations and likely involves reorganization of presynaptic active zones (AZs). At Drosophila melanogasterneuromuscular junctions, earlier work ascribed AZ enlargement by incorporating more Bruchpilot (Brp) scaffold protein a role in PHP. We use localization microscopy (direct stochastic optical reconstruction microscopy [dSTORM]) and hierarchical density-based spatial clustering of applications with noise (HDBSCAN) to study AZ plasticity during PHP at the synaptic mesoscale. We find compaction of individual AZs in acute philanthotoxin-induced and chronic genetically induced PHP but unchanged copy numbers of AZ proteins. Compaction even occurs at the level of Brp subclusters, which move toward AZ centers, and in Rab3 interacting molecule (RIM)-binding protein (RBP) subclusters. Furthermore, correlative confocal and dSTORM imaging reveals how AZ compaction in PHP translates into apparent increases in AZ area and Brp protein content, as implied earlier.

Published

2021

26. Glutamate receptors of Drosophila melanogaster: cloning of a kainate-selective subunit expressed in the central nervous system.

Author

Ultsch, A, Schuster, C M, Laube, B, Schloss, P, Schmitt, B, and Betz, H

Abstract

We report the isolation and functional characterization of cDNAs encoding a Drosophila kainate-selective glutamate receptor. The deduced mature 964-residue protein (DGluR-I) is 108,482 Da and exhibits significant homology to mammalian glutamate receptor subunits. Injection of DGluR-I cRNA into Xenopus oocytes generated kainate-operated ion channels which were blocked by the selective non-N-methyl-D-aspartate receptor antagonist 6-cyano-7-nitro-quinoxaline-2,3-dione and philanthotoxin. DGluR-I transcripts are differentially expressed during Drosophila development and, in late embryogenesis, accumulate in the central nervous system.

Published

1992

27. Structure and synthesis of a potent glutamate receptor antagonist in wasp venom.

Author

Eldefrawi, A T, Eldefrawi, M E, Konno, K, Mansour, N A, Nakanishi, K, Oltz, E, and Usherwood, P N

Abstract

A low molecular weight toxin isolated from the venom of the digger wasp Philanthus triangulum, first noted by T. Piek, is a potent antagonist of transmission at quisqualate-sensitive glutamate synapses of locust leg muscle. This philanthotoxin 433 (PTX-433) has been purified, chemically characterized, and subsequently synthesized along with two closely related analogues. It has a butyryl/tyrosyl/spermine sequence and a molecular weight of 435. Its two analogues, PTX-343 and PTX-334 (the numerals denoting the number of methylenes between the amino groups of the spermine moiety), are also active on the glutamate synapse of the locust leg muscle; PTX-334 was more potent and PTX-343 was less potent than the natural toxin. Such chemicals are useful for studying, labeling, and purifying glutamate receptors and may become models for an additional class of therapeutic drugs and possibly insecticides.

Published

1988

28. Permeation and block of rat glur6 glutamate receptor channels by internal and external polyamines

Author

Bähring, Robert, Bowie, Derek, Benveniste, Morris, and Mayer, Mark L.

Abstract

1Polyamine block of rat GluR6(Q) glutamate receptor channels was studied in outside‐out patches from transiently transfected HEK 293 cells. With symmetrical 150 mmNa+and 30 μminternal spermine there was biphasic voltage dependence with 95% block at +40 mV but only 20% block at +140mV. Dose–inhibition analysis for external spermine also revealed biphasic block; the Kaat +40 mV (54 μm) was lower than at +80 (167μm) and –80 mV (78 μm).2For internal polyamines relief from block was most pronounced for spermine, weaker for N‐(4‐hydroxyphenylpropanoyl)‐spermine (PPS), and virtually absent for philanthotoxin 343 (PhTX 343), suggesting that permeation of polyamines varies with cross‐sectional width (spermine, 0.44 nm; PPS, 0.70 nm; PhTX 343, 0.75 nm).3With putrescine, spermidine, or spermine as sole external cations, inward currents at –120 mV confirmed permeation of polyamines. For bi‐ionic conditions with 90 mmpolyamine and 150 mmNa+ireversal potentials were –12.4 mV for putrescine (permeability ratio relative to Na+, PPut/PNa= 0.42) and –32.7 mV for spermidine (PSpd/PNa= 0.07). Currents carried by spermine were too small to analyse accurately in the majority of patches.4Increasing [Na+]ifrom 44 to 330 mmhad no effect on the potential for 50% block (V½) by 30 μminternal spermine; however, relief from block at positive membrane potentials increased with [Na+]i. In contrast, raising [Na+]ofrom 44 to 330 mmresulted in a depolarizing shift in V½, indicating a strong interaction between internal polyamines and external per meant ions.5The Woodhull infinite barrier model of ion channel block adequately described the action of spermine at membrane potentials insufficient to produce relief from block. For 30 μminternal spermine such analysis gave Kd(0)= 2.5 μm, z θ= 1.97; block by 30 μmexternal spermine was weaker and less voltage dependent (Kd(0)= 37.8 μmand zδ= 0.55); δand θare electrical distances measured from the outside and inside, respectively.6Fits of the Woodhull equation for a permeable blocker adequately described both onset and relief from block by spermine over a wide range of membrane potentials. However, the rate constants and zδvalues estimated for block by internal spermine predicted much stronger external block than was measured experimentally, and vice versa.7An Eyring rate theory model with two energy wells and three barriers explained qualitatively many characteristic features of the action of polyamines on GluPvs, including biphasic I–Vrelationships, weaker block by external than internal spermine and low permeability.

Published

1997