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2. A sequential high-yielding large-scale solution-method for synthesis of philanthotoxin analogues

Author

Wellendorph, Petrine, Jaroszewski, Jerzy W, Hansen, Steen Honoré, Franzyk, Henrik, Wellendorph, Petrine, Jaroszewski, Jerzy W, Hansen, Steen Honoré, and Franzyk, Henrik

Abstract

A general, improved procedure for rapid synthesis of philanthotoxin analogues, a pharmacologically important class of polyamine conjugates, is described. The solution-phase procedure is illustrated by gram-scale synthesis of philanthotoxins PhTX-343 and PhTX-12. Selectively protected polyamines are coupled to N(alpha)-Fmoc-protected amino acid pentafluorophenyl esters. After removal of the N(alpha)-Fmoc group, the amine is coupled with carboxylic acid pentafluorophenyl esters. Deprotection followed by a rapid and efficient purification by vacuum liquid chromatography on octadecylsilyl silica (RP-18 phase) gave the philanthotoxin analogues in 74-78% overall yield.

Published
2003

3. A sequential high-yielding large-scale solution-method for synthesis of philanthotoxin analogues

Author

Wellendorph, Petrine, Jaroszewski, Jerzy W, Hansen, Steen Honoré, Franzyk, Henrik, Wellendorph, Petrine, Jaroszewski, Jerzy W, Hansen, Steen Honoré, and Franzyk, Henrik

Abstract

A general, improved procedure for rapid synthesis of philanthotoxin analogues, a pharmacologically important class of polyamine conjugates, is described. The solution-phase procedure is illustrated by gram-scale synthesis of philanthotoxins PhTX-343 and PhTX-12. Selectively protected polyamines are coupled to N(alpha)-Fmoc-protected amino acid pentafluorophenyl esters. After removal of the N(alpha)-Fmoc group, the amine is coupled with carboxylic acid pentafluorophenyl esters. Deprotection followed by a rapid and efficient purification by vacuum liquid chromatography on octadecylsilyl silica (RP-18 phase) gave the philanthotoxin analogues in 74-78% overall yield.

Published
2003

6. Assessment of structurally diverse philanthotoxin analogues for inhibitory activity on ionotropic glutamate receptor subtypes:Discovery of nanomolar, nonselective, and use-dependent antagonists

Author

Frølund, Sidsel, Bella, Angelo, Kristensen, Anders Skov, Ziegler, Hanne Lindvig, Witt, Matthias, Olsen, Christian Adam, Strømgaard, Kristian, Franzyk, Henrik, Jaroszewski, Jerzy W, Frølund, Sidsel, Bella, Angelo, Kristensen, Anders Skov, Ziegler, Hanne Lindvig, Witt, Matthias, Olsen, Christian Adam, Strømgaard, Kristian, Franzyk, Henrik, and Jaroszewski, Jerzy W

Abstract

An array of analogues of the wasp toxin philanthotoxin-433, in which the asymmetric polyamine moiety was exchanged for spermine and the headgroup replaced with a variety of structurally diverse moieties, was prepared using parallel solid-phase synthesis approaches. In three analogues, the spermine moiety was extended with an amino acid tail, six compounds contained an N-acylated cyclohexylalanine, and four analogues were based on a novel diamino acid design with systematically changed spacer length between N-cyclohexylcarbonyl and N-phenylacetyl substituents. The analogues were studied using two-electrode voltage-clamp electrophysiology employing Xenopus laevis oocytes expressing GluA1(i) AMPA or GluN1/2A NMDA receptors. Several of the analogues showed significantly increased inhibition of the GluN1/2A NMDA receptor. Thus, an analogue containing N-(1-naphtyl)acetyl group showed an IC(50) value of 47 nM. For the diamino acid-based analogues, the optimal spacer length between two N-acyl groups was determined, resulting in an analogue with an IC(50) value of 106 nM.

Published
2010

7. Assessment of structurally diverse philanthotoxin analogues for inhibitory activity on ionotropic glutamate receptor subtypes:Discovery of nanomolar, nonselective, and use-dependent antagonists

Author

Frølund, Sidsel, Bella, Angelo, Kristensen, Anders Skov, Ziegler, Hanne Lindvig, Witt, Matthias, Olsen, Christian Adam, Strømgaard, Kristian, Franzyk, Henrik, Jaroszewski, Jerzy W, Frølund, Sidsel, Bella, Angelo, Kristensen, Anders Skov, Ziegler, Hanne Lindvig, Witt, Matthias, Olsen, Christian Adam, Strømgaard, Kristian, Franzyk, Henrik, and Jaroszewski, Jerzy W

Abstract

An array of analogues of the wasp toxin philanthotoxin-433, in which the asymmetric polyamine moiety was exchanged for spermine and the headgroup replaced with a variety of structurally diverse moieties, was prepared using parallel solid-phase synthesis approaches. In three analogues, the spermine moiety was extended with an amino acid tail, six compounds contained an N-acylated cyclohexylalanine, and four analogues were based on a novel diamino acid design with systematically changed spacer length between N-cyclohexylcarbonyl and N-phenylacetyl substituents. The analogues were studied using two-electrode voltage-clamp electrophysiology employing Xenopus laevis oocytes expressing GluA1(i) AMPA or GluN1/2A NMDA receptors. Several of the analogues showed significantly increased inhibition of the GluN1/2A NMDA receptor. Thus, an analogue containing N-(1-naphtyl)acetyl group showed an IC(50) value of 47 nM. For the diamino acid-based analogues, the optimal spacer length between two N-acyl groups was determined, resulting in an analogue with an IC(50) value of 106 nM.

Published
2010

8. 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, Usherwood, Peter N R, 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 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

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, Usherwood, Peter N R, 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 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

14. Solid-phase synthesis and biological evaluation of a combinatorial library of philanthotoxin analogues

Author

Strømgaard, K, Brier, T J, Andersen, K, Mellor, I R, Saghyan, A, Tikhonov, D, Usherwood, P N, Krogsgaard-Larsen, P, Jaroszewski, J W, Strømgaard, K, Brier, T J, Andersen, K, Mellor, I R, Saghyan, A, Tikhonov, D, Usherwood, P N, 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 (1)H and (13)C 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 IC(50) 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 metho

Published
2000

15. Solid-phase synthesis and biological evaluation of a combinatorial library of philanthotoxin analogues

Author

Strømgaard, K, Brier, T J, Andersen, K, Mellor, I R, Saghyan, A, Tikhonov, D, Usherwood, P N, Krogsgaard-Larsen, P, Jaroszewski, J W, Strømgaard, K, Brier, T J, Andersen, K, Mellor, I R, Saghyan, A, Tikhonov, D, Usherwood, P N, 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 (1)H and (13)C 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 IC(50) 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 metho

Published
2000

19. Action of philanthotoxin on ion channels of arthropod muscle

Author

Khan, Tanwir Rahman and Khan, Tanwir Rahman

Abstract

Calcium ions play an important role in many signalling pathways involved in normal cell metabolism. Pertrebations of normal Ca++ signalling may also play a pivotal role in the initiation of cell death. In these studies I have examined the influx of 45Ca++ into the extensor tibiae muscle of the locust (Schistocerca gregaria ). 45Ca++ entry could be stimulated by the addition of glutamate receptor-agonists or by activation of voltage activated calcium channels. L-glutamate, L-quisqualate and NMDA stimulated the influx of 45Ca++ while L-aspartate had only a small effect. DL-ibotenate, kainate, AMPA and glycine had no effect on 45Ca++ uptake (all agonists were tested at concentrations up to (100μM). Glycine (1μM) enhanced the 45Ca++ entry induced by NMDA and L-glutamate. Only the glycine potentiation of L-glu-stimulated responses was abolished in the presence of Mg++ (2mM) or AP5 (10μM) whereas the NMDA-stimulated response was completely abolished by these agents. These finding suggests that in the presence of glycine, L-glutamate may activate NMDA receptors and that in the absence of glycine L-glu-stimulated 45Ca++ entry occurs via activation of the qGluR. Depolarisation of the extensor tibiae muscles (50mM KCl) stimulated 45Ca++ influx by activation of voltage-sensitive calcium channels. Philanthotoxin-343 (0.1μM) had no effect on depolarisation activated calcium entry, however, nifedipine (1μM) an L-type calcium channel antagonist inhibited this Ca++ influx. Nifedipine did not inhibit L-glu-stimulated Ca++ entry suggesting that in these muscles L-type Ca++ channels are not involved in the Ca++ influx pathway following G1uR activation. Philanthotoxin-433 (PhTX-433) and many of its synthetic analogues are potent inhibitors of locust GluR. In the future these analogues may prove as useful potential neuroprotective agents or as novel pesticides. Over 100 analogues of PhTX-433 have been synthesized with changes made in the four regions of the structure, the thermospermine

20. Developmental expression of Ca2+-permeable AMPA receptors underlies depolarization-induced long-term depression at mossy fiber-CA3 pyramid Synapses

Author

Ho, Michelle T.W., Pelkey, Kenneth A., Topolnik, Lisa, Petralia, Ronald S., Takamiya, Kogo, Xia, Jun, Huganir, Richard L., Lacaille, Jean-ClauDe, McBain, Chris J., Ho, Michelle T.W., Pelkey, Kenneth A., Topolnik, Lisa, Petralia, Ronald S., Takamiya, Kogo, Xia, Jun, Huganir, Richard L., Lacaille, Jean-ClauDe, and McBain, Chris J.

Abstract

Many central excitatory synapses undergo developmental alterations in the molecular and biophysical characteristics of postsynaptic ionotropic glutamate receptors via changes in subunit composition. Concerning AMPA receptors (AMPARs), glutamate receptor 2 subunit (GluR2)-containing, Ca2+ -impermeable AMPARs (CI-AMPARs) prevail at synapses between mature principal neurons; however, accumulating evidence indicates that GluR2-lacking, Ca2+ permeable AMPARs(CP-AMPARs) contribute at these synapses early in development. Here, we used a combination of imaging and electrophysiological recording techniques to investigate potential roles for CP-AMPARs at developing hippocampal mossy fiber-CA3 pyramidal cell (MF-PYR) synapses. We found that transmission at nascent MF-PYR synapses is mediated by a mixed population of CP- and CI-AMPARs as evidenced by polyamine-dependent inwardly rectifying current-voltage (I-V) relationships, and partial philanthotoxin sensitivity of synaptic events. CP-AMPAR expression at MF-PYR synapses is transient, being limited to the first 3 postnatal weeks. Moreover, the expression of CP- AMPARs is regulated by the PDZ ( postsynaptic density-95/ Discs large/zona occludens-1) domain-containing protein interacting with C kinase 1 (PICK1), because MF-PYR synapses in young PICK1 knock-out mice are philanthotoxin insensitive with linear I-V relationships. Strikingly, MF-PYR transmission via CP- AMPARs is selectively depressed during depolarization-induced long-term depression (DiLTD), a postsynaptic form of MF-PYR plasticity observed only at young MF-PYR synapses. The selective depression of CP- AMPARs during DiLTD was evident as a loss of postsynaptic CP- AMPAR-mediated Ca2+ transients in PYR spines and reduced rectification of MF-PYR synaptic currents. Preferential targeting of CP- AMPARs during DiLTD is further supported by a lack of DiLTD in young PICK1 knock-out mice. Together, these findings indicate that the transient participation of CP- AMPARs at you

Published
2007

21. Developmental expression of Ca2+-permeable AMPA receptors underlies depolarization-induced long-term depression at mossy fiber-CA3 pyramid Synapses

Author

Ho, Michelle T.W., Pelkey, Kenneth A., Topolnik, Lisa, Petralia, Ronald S., Takamiya, Kogo, Xia, Jun, Huganir, Richard L., Lacaille, Jean-ClauDe, McBain, Chris J., Ho, Michelle T.W., Pelkey, Kenneth A., Topolnik, Lisa, Petralia, Ronald S., Takamiya, Kogo, Xia, Jun, Huganir, Richard L., Lacaille, Jean-ClauDe, and McBain, Chris J.

Abstract

Many central excitatory synapses undergo developmental alterations in the molecular and biophysical characteristics of postsynaptic ionotropic glutamate receptors via changes in subunit composition. Concerning AMPA receptors (AMPARs), glutamate receptor 2 subunit (GluR2)-containing, Ca2+ -impermeable AMPARs (CI-AMPARs) prevail at synapses between mature principal neurons; however, accumulating evidence indicates that GluR2-lacking, Ca2+ permeable AMPARs(CP-AMPARs) contribute at these synapses early in development. Here, we used a combination of imaging and electrophysiological recording techniques to investigate potential roles for CP-AMPARs at developing hippocampal mossy fiber-CA3 pyramidal cell (MF-PYR) synapses. We found that transmission at nascent MF-PYR synapses is mediated by a mixed population of CP- and CI-AMPARs as evidenced by polyamine-dependent inwardly rectifying current-voltage (I-V) relationships, and partial philanthotoxin sensitivity of synaptic events. CP-AMPAR expression at MF-PYR synapses is transient, being limited to the first 3 postnatal weeks. Moreover, the expression of CP- AMPARs is regulated by the PDZ ( postsynaptic density-95/ Discs large/zona occludens-1) domain-containing protein interacting with C kinase 1 (PICK1), because MF-PYR synapses in young PICK1 knock-out mice are philanthotoxin insensitive with linear I-V relationships. Strikingly, MF-PYR transmission via CP- AMPARs is selectively depressed during depolarization-induced long-term depression (DiLTD), a postsynaptic form of MF-PYR plasticity observed only at young MF-PYR synapses. The selective depression of CP- AMPARs during DiLTD was evident as a loss of postsynaptic CP- AMPAR-mediated Ca2+ transients in PYR spines and reduced rectification of MF-PYR synaptic currents. Preferential targeting of CP- AMPARs during DiLTD is further supported by a lack of DiLTD in young PICK1 knock-out mice. Together, these findings indicate that the transient participation of CP- AMPARs at you

Published
2007

22. Developmental expression of Ca2+-permeable AMPA receptors underlies depolarization-induced long-term depression at mossy fiber-CA3 pyramid Synapses

Author

Ho, Michelle T.W., Pelkey, Kenneth A., Topolnik, Lisa, Petralia, Ronald S., Takamiya, Kogo, Xia, Jun, Huganir, Richard L., Lacaille, Jean-ClauDe, McBain, Chris J., Ho, Michelle T.W., Pelkey, Kenneth A., Topolnik, Lisa, Petralia, Ronald S., Takamiya, Kogo, Xia, Jun, Huganir, Richard L., Lacaille, Jean-ClauDe, and McBain, Chris J.

Abstract

Many central excitatory synapses undergo developmental alterations in the molecular and biophysical characteristics of postsynaptic ionotropic glutamate receptors via changes in subunit composition. Concerning AMPA receptors (AMPARs), glutamate receptor 2 subunit (GluR2)-containing, Ca2+ -impermeable AMPARs (CI-AMPARs) prevail at synapses between mature principal neurons; however, accumulating evidence indicates that GluR2-lacking, Ca2+ permeable AMPARs(CP-AMPARs) contribute at these synapses early in development. Here, we used a combination of imaging and electrophysiological recording techniques to investigate potential roles for CP-AMPARs at developing hippocampal mossy fiber-CA3 pyramidal cell (MF-PYR) synapses. We found that transmission at nascent MF-PYR synapses is mediated by a mixed population of CP- and CI-AMPARs as evidenced by polyamine-dependent inwardly rectifying current-voltage (I-V) relationships, and partial philanthotoxin sensitivity of synaptic events. CP-AMPAR expression at MF-PYR synapses is transient, being limited to the first 3 postnatal weeks. Moreover, the expression of CP- AMPARs is regulated by the PDZ ( postsynaptic density-95/ Discs large/zona occludens-1) domain-containing protein interacting with C kinase 1 (PICK1), because MF-PYR synapses in young PICK1 knock-out mice are philanthotoxin insensitive with linear I-V relationships. Strikingly, MF-PYR transmission via CP- AMPARs is selectively depressed during depolarization-induced long-term depression (DiLTD), a postsynaptic form of MF-PYR plasticity observed only at young MF-PYR synapses. The selective depression of CP- AMPARs during DiLTD was evident as a loss of postsynaptic CP- AMPAR-mediated Ca2+ transients in PYR spines and reduced rectification of MF-PYR synaptic currents. Preferential targeting of CP- AMPARs during DiLTD is further supported by a lack of DiLTD in young PICK1 knock-out mice. Together, these findings indicate that the transient participation of CP- AMPARs at you

Published
2007

23. Spontaneous neurotransmission at evocable synapses predicts their responsiveness to action potentials

Author

Grasskamp, Andreas T., Jusyte, Meida, McCarthy, Anthony W., Götz, Torsten W.B., Ditlevsen, Susanne, Walter, Alexander M., Grasskamp, Andreas T., Jusyte, Meida, McCarthy, Anthony W., Götz, Torsten W.B., Ditlevsen, Susanne, and Walter, Alexander M.

Abstract

Synaptic transmission relies on presynaptic neurotransmitter (NT) release from synaptic vesicles (SVs) and on NT detection by postsynaptic receptors. Transmission exists in two principal modes: action-potential (AP) evoked and AP-independent, “spontaneous” transmission. AP-evoked neurotransmission is considered the primary mode of inter-neuronal communication, whereas spontaneous transmission is required for neuronal development, homeostasis, and plasticity. While some synapses appear dedicated to spontaneous transmission only, all AP-responsive synapses also engage spontaneously, but whether this encodes functional information regarding their excitability is unknown. Here we report on functional interdependence of both transmission modes at individual synaptic contacts of Drosophila larval neuromuscular junctions (NMJs) which were identified by the presynaptic scaffolding protein Bruchpilot (BRP) and whose activities were quantified using the genetically encoded Ca2+ indicator GCaMP. Consistent with the role of BRP in organizing the AP-dependent release machinery (voltage-dependent Ca2+ channels and SV fusion machinery), most active BRP-positive synapses (>85%) responded to APs. At these synapses, the level of spontaneous activity was a predictor for their responsiveness to AP-stimulation. AP-stimulation resulted in cross-depletion of spontaneous activity and both transmission modes were affected by the non-specific Ca2+ channel blocker cadmium and engaged overlapping postsynaptic receptors. Thus, by using overlapping machinery, spontaneous transmission is a continuous, stimulus independent predictor for the AP-responsiveness of individual synapses.

Published
2023

24. Spontaneous neurotransmission at evocable synapses predicts their responsiveness to action potentials

Author

Grasskamp, Andreas T., Jusyte, Meida, McCarthy, Anthony W., Götz, Torsten W.B., Ditlevsen, Susanne, Walter, Alexander M., Grasskamp, Andreas T., Jusyte, Meida, McCarthy, Anthony W., Götz, Torsten W.B., Ditlevsen, Susanne, and Walter, Alexander M.

Abstract

Synaptic transmission relies on presynaptic neurotransmitter (NT) release from synaptic vesicles (SVs) and on NT detection by postsynaptic receptors. Transmission exists in two principal modes: action-potential (AP) evoked and AP-independent, “spontaneous” transmission. AP-evoked neurotransmission is considered the primary mode of inter-neuronal communication, whereas spontaneous transmission is required for neuronal development, homeostasis, and plasticity. While some synapses appear dedicated to spontaneous transmission only, all AP-responsive synapses also engage spontaneously, but whether this encodes functional information regarding their excitability is unknown. Here we report on functional interdependence of both transmission modes at individual synaptic contacts of Drosophila larval neuromuscular junctions (NMJs) which were identified by the presynaptic scaffolding protein Bruchpilot (BRP) and whose activities were quantified using the genetically encoded Ca2+ indicator GCaMP. Consistent with the role of BRP in organizing the AP-dependent release machinery (voltage-dependent Ca2+ channels and SV fusion machinery), most active BRP-positive synapses (>85%) responded to APs. At these synapses, the level of spontaneous activity was a predictor for their responsiveness to AP-stimulation. AP-stimulation resulted in cross-depletion of spontaneous activity and both transmission modes were affected by the non-specific Ca2+ channel blocker cadmium and engaged overlapping postsynaptic receptors. Thus, by using overlapping machinery, spontaneous transmission is a continuous, stimulus independent predictor for the AP-responsiveness of individual synapses.

Published
2023

25. Evoked and spontaneous transmission favored by distinct sets of synapses.

Author

Peled, Einat S, Peled, Einat S, Newman, Zachary L, Isacoff, Ehud Y, Peled, Einat S, Peled, Einat S, Newman, Zachary L, and Isacoff, Ehud Y

Abstract

BackgroundSpontaneous "miniature" transmitter release takes place at low rates at all synapses. Long thought of as an unavoidable leak, spontaneous release has recently been suggested to be mediated by distinct pre- and postsynaptic molecular machineries and to have a specialized role in setting up and adjusting neuronal circuits. It remains unclear how spontaneous and evoked transmission are related at individual synapses, how they are distributed spatially when an axon makes multiple contacts with a target, and whether they are commonly regulated.ResultsElectrophysiological recordings in the Drosophila larval neuromuscular junction, in the presence of the use-dependent glutamate receptor (GluR) blocker philanthotoxin, indicated that spontaneous and evoked transmission employ distinct sets of GluRs. In vivo imaging of transmission using synaptically targeted GCaMP3 to detect Ca(2+) influx through the GluRs revealed little spatial overlap between synapses participating in spontaneous and evoked transmission. Spontaneous and evoked transmission were oppositely correlated with presynaptic levels of the protein Brp: synapses with high Brp favored evoked transmission, whereas synapses with low Brp were more active spontaneously. High-frequency stimulation did not increase the overlap between evoked and spontaneous transmission, and instead decreased the rate of spontaneous release from synapses that were highly active in evoked transmission.ConclusionsAlthough individual synapses can participate in both evoked and spontaneous transmission, highly active synapses show a preference for one mode of transmission. The presynaptic protein Brp promotes evoked transmission and suppresses spontaneous release. These findings suggest the existence of presynaptic mechanisms that promote synaptic specialization to either evoked or spontaneous transmission.

Published
2014

26. Uncompetitive antagonism of AMPA receptors:Mechanistic insights from studies of polyamine toxin derivatives

Author

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

27. Uncompetitive antagonism of AMPA receptors:Mechanistic insights from studies of polyamine toxin derivatives

Author

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

28. Uncompetitive antagonism of AMPA receptors:Mechanistic insights from studies of polyamine toxin derivatives

Author

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

29. The effects of conformational constraints and steric bulk in the amino acid moiety of philanthotoxins on AMPAR antagonism

Author

Jørgensen, Malene, Olsen, Christian A, Mellor, Ian R, Usherwood, Peter N R, Witt, Matthias, Franzyk, Henrik, Jaroszewski, Jerzy W, Jørgensen, Malene, Olsen, Christian A, Mellor, Ian R, Usherwood, Peter N R, Witt, Matthias, Franzyk, Henrik, and Jaroszewski, Jerzy 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 alpha-NHCO group as a donor in hydrogen bonding.

Published
2005

30. The effects of conformational constraints and steric bulk in the amino acid moiety of philanthotoxins on AMPAR antagonism

Author

Jørgensen, Malene, Olsen, Christian A, Mellor, Ian R, Usherwood, Peter N R, Witt, Matthias, Franzyk, Henrik, Jaroszewski, Jerzy W, Jørgensen, Malene, Olsen, Christian A, Mellor, Ian R, Usherwood, Peter N R, Witt, Matthias, Franzyk, Henrik, and Jaroszewski, Jerzy 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 alpha-NHCO group as a donor in hydrogen bonding.

Published
2005

31. Role of GluR2 expression in AMPA-induced toxicity in cultured murine cerebral cortical neurons

Author

Jensen, Jette Bisgaard, Lund, Trine Meldgaard, Timmermann, Daniel B., Schousboe, Arne, Pickering, Darryl S., Jensen, Jette Bisgaard, Lund, Trine Meldgaard, Timmermann, Daniel B., Schousboe, Arne, and Pickering, Darryl S.

Abstract

Udgivelsesdato: 2001-Aug-1, alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor (AMPA-R)-mediated neurotoxicity was studied in relation to subunit expression and the presence of Ca(2+)-permeable receptor channels. AMPA-mediated toxicity had two components: 1) a direct AMPA-R-mediated component, which was not due to Ca(2+) influx through voltage-gated Ca(2+) channels, reversal of the Na(+)/Ca(2+) exchanger or release of calcium from dantrolene-sensitive intracellular Ca(2+) stores, and 2) a minor, indirect component involving activation of NMDA receptor channels, because of glutamate release and removal of the Mg(2+) block of the NMDA receptor on AMPA-R stimulation. The involvement of Ca(2+) influx through AMPA-R was also examined. The number of neurons possessing Ca(2+)-permeable AMPA-R increased during culture development, concurrently with an increasing susceptibility for AMPA-induced toxicity during development. GluR2(R) levels also increased during development, and channel blockers of Ca(2+)-permeable AMPA-R lacking the GluR2(R) subunit (spermine and philanthotoxin) failed to prevent neurotoxicity or increases in [Ca(2+)](i). Thus, the direct AMPA-R-mediated toxicity may be explained by initiation of cell death by Ca(2+) fluxing through AMPA-R containing GluR2(R). The components of direct AMPA-R-mediated toxicity are proposed to be 1) toxicity mediated by GluR2(R)-lacking AMPA-R and 2) toxicity mediated by low-Ca(2+)-permeability AMPA-R containing GluR2(R).

Published
2001

32. Role of GluR2 expression in AMPA-induced toxicity in cultured murine cerebral cortical neurons

Author

Jensen, Jette Bisgaard, Lund, Trine Meldgaard, Timmermann, Daniel B., Schousboe, Arne, Pickering, Darryl S., Jensen, Jette Bisgaard, Lund, Trine Meldgaard, Timmermann, Daniel B., Schousboe, Arne, and Pickering, Darryl S.

Abstract

Udgivelsesdato: 2001-Aug-1, alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor (AMPA-R)-mediated neurotoxicity was studied in relation to subunit expression and the presence of Ca(2+)-permeable receptor channels. AMPA-mediated toxicity had two components: 1) a direct AMPA-R-mediated component, which was not due to Ca(2+) influx through voltage-gated Ca(2+) channels, reversal of the Na(+)/Ca(2+) exchanger or release of calcium from dantrolene-sensitive intracellular Ca(2+) stores, and 2) a minor, indirect component involving activation of NMDA receptor channels, because of glutamate release and removal of the Mg(2+) block of the NMDA receptor on AMPA-R stimulation. The involvement of Ca(2+) influx through AMPA-R was also examined. The number of neurons possessing Ca(2+)-permeable AMPA-R increased during culture development, concurrently with an increasing susceptibility for AMPA-induced toxicity during development. GluR2(R) levels also increased during development, and channel blockers of Ca(2+)-permeable AMPA-R lacking the GluR2(R) subunit (spermine and philanthotoxin) failed to prevent neurotoxicity or increases in [Ca(2+)](i). Thus, the direct AMPA-R-mediated toxicity may be explained by initiation of cell death by Ca(2+) fluxing through AMPA-R containing GluR2(R). The components of direct AMPA-R-mediated toxicity are proposed to be 1) toxicity mediated by GluR2(R)-lacking AMPA-R and 2) toxicity mediated by low-Ca(2+)-permeability AMPA-R containing GluR2(R).

Published
2001

33. Novel gating mechanism of polyamine block in the strong inward rectifier K channel Kir2.1.

Author

Lee, JK, Lee, JK, John, SA, Weiss, JN, Lee, JK, Lee, JK, John, SA, and Weiss, JN

Abstract

Inward rectifying K channels are essential for maintaining resting membrane potential and regulating excitability in many cell types. Previous studies have attributed the rectification properties of strong inward rectifiers such as Kir2.1 to voltage-dependent binding of intracellular polyamines or Mg to the pore (direct open channel block), thereby preventing outward passage of K ions. We have studied interactions between polyamines and the polyamine toxins philanthotoxin and argiotoxin on inward rectification in Kir2.1. We present evidence that high affinity polyamine block is not consistent with direct open channel block, but instead involves polyamines binding to another region of the channel (intrinsic gate) to form a blocking complex that occludes the pore. This interaction defines a novel mechanism of ion channel closure.

Published
1999

34. Novel gating mechanism of polyamine block in the strong inward rectifier K channel Kir2.1.

Author

Lee, JK, Lee, JK, John, SA, Weiss, JN, Lee, JK, Lee, JK, John, SA, and Weiss, JN

Abstract

Inward rectifying K channels are essential for maintaining resting membrane potential and regulating excitability in many cell types. Previous studies have attributed the rectification properties of strong inward rectifiers such as Kir2.1 to voltage-dependent binding of intracellular polyamines or Mg to the pore (direct open channel block), thereby preventing outward passage of K ions. We have studied interactions between polyamines and the polyamine toxins philanthotoxin and argiotoxin on inward rectification in Kir2.1. We present evidence that high affinity polyamine block is not consistent with direct open channel block, but instead involves polyamines binding to another region of the channel (intrinsic gate) to form a blocking complex that occludes the pore. This interaction defines a novel mechanism of ion channel closure.

Published
1999

35. Exploring block and permeation of N-methyl-D-Aspartate (NMDA) receptor channels for treatment of neurodegenerative disorders

Author

Abu, Izuddin Fahmy and Abu, Izuddin Fahmy

Abstract

N-methyl-D-aspartate receptors (NMDAR) are ionotropic glutamate receptors which can be blocked by Mg2+ in a voltage-dependent manner and are highly permeable to Ca2+, hence they represent a medically relevant target for neurodegenerative disorders caused by excitotoxicity. The two main objectives of this study were, (i) to determine the impact of Q/R/N, +1 and -8 sites modification in the M2 pore region of GluN2A NMDAR subunit on Mg2+ block and other open channel blockers; and (ii) to evaluate novel multi-target-directed ligands (MTDL) for Alzheimer’s disease therapy. The Xenopus laevis oocyte expression system was employed where NMDAR subunit cRNAs were injected into the oocytes and responses to NMDA/glycine and channel blockers were recorded using two-electrode voltage clamp (TEVC) electrophysiology. Pore region mutations to investigate the impact of Q/R/N and adjacent sites were characterized using Mg2+, memantine, MK-801, philanthotoxin analogues and an MTDL compound, CR18. NN at the Q/R/N and +1 sites in GluN2A subunits were mutated to GR and RR, while W at the -8 position (in relation to the Q/R/N site), was mutated to N. Wild type and mutated GluN2A were co-expressed with GluN1-1a in Xenopus oocytes and antagonistic responses by channel blockers were recorded with TEVC. At -75 mV, the RR mutation significantly increased IC50s of Mg2+, memantine and MK-801 by 27-, 42- and 325-fold respectively, compared to wild-type. As for the GR mutation, IC50s were also significantly increased for memantine and MK-801 by 5- and 132-fold respectively, compared to wild type. W to N mutation at the -8 position did not significantly affect blocking potencies for all channel blockers. Blocking potency for PhTX-343 was not significantly altered by any mutations. This study provided evidence that the presence of G and R at the Q/R/N and +1 sites are likely responsible for the changes in blocking sensitivity and play important roles in ion permeability. The fact that PhTX-343 remai

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