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1. Distribution and kinetics of the Kv1.3-blocking peptide HsTX1[R14A] in experimental rats

Author

Bergmann, R., Kubeil, M., Zarschler, K., Chhabra, S., Tajhya, R. B., Beeton, C., Pennington, M. W., Bachmann, M., Norton, R. S., and Stephan, H.

Subjects
lifetime, small animal, Male, positron emission tomography, Kv1.3 Potassium Channel, scorpion toxin, labelling, Injections, Subcutaneous, Science, autoimmune disease, peptide, Article, Cell Line, Rats, Mice, distribution, Potassium Channel Blockers, Animals, Medicine, Administration, Intravenous, Rats, Wistar, Peptides, potassium channel
Abstract

The peptide HsTX1[R14A] is a potent and selective blocker of the voltage-gated potassium channel Kv1.3, which is a highly promising target for the treatment of autoimmune diseases and other conditions. In order to assess the biodistribution of this peptide, it was conjugated with NOTA and radiolabelled with copper-64. [64Cu]Cu-NOTA-HsTX1[R14A] was synthesised in high radiochemical purity and yield. The radiotracer was evaluated in vitro and in vivo. The biodistribution and PET studies after intravenous and subcutaneous injections showed similar patterns and kinetics. The hydrophilic peptide was rapidly distributed, showed low accumulation in most of the organs and tissues, and demonstrated high molecular stability in vitro and in vivo. The most prominent accumulation occurred in the epiphyseal plates of trabecular bones. The high stability and bioavailability, low normal-tissue uptake of [64Cu]Cu-NOTA-HsTX1[R14A], and accumulation in regions of up-regulated Kv channels both in vitro and in vivo demonstrate that HsTX1[R14A] represents a valuable lead for conditions treatable by blockade of the voltage-gated potassium channel Kv1.3. The pharmacokinetics shows that both intravenous and subcutaneous applications are viable routes for the delivery of this potent peptide.

Published
2017

4. Pharmacokinetic/ pharmacodynamic studies of a copper-64 labelled Kv1.3-blocking peptide targeting autoimmune diseases

Author

Kubeil, M., Bergmann, R., Zarschler, K., Stephan, H., and Norton, R. S.

Subjects
PET, autoimmune disease, peptide, potassium channel
Abstract

Objectives The voltage-gated potassium channel Kv1.3 is an attractive therapeutic target to treat autoimmune disorders such as multiple sclerosis, rheumatoid arthritis, systemic lupus erythematosus and type-1 diabetes mellitus [1, 2]. This channel is highly expressed in T effector memory lymphocytes and plays an important role in their activation. A scorpion toxin derived peptide analogue, HsTX1[R14A], blocks Kv1.3 with an affinity in the picomolar range [3].Moreover, this peptide is stabilized by four disulfide bridges, conferring high in vivo stability. Methods The peptide was synthesised by SPPS using Fmoc-tBu strategy [3]. The N-terminus of HsTX1[R14A] has been coupled to NOTA (1,4,7-triazacyclononane-triacetic acid) to permit labelling with the positron emitter copper-64. Biodistribution studies and metabolite analysis were carried out in healthy male Wistar rats using Positron Emission Tomography and Radioluminography. Results The distribution studies demonstrated a rapid blood clearance after intravenous injection and a fast renal elimination. The highest accumulation was found in the kidney and urine. As a consequence, a long in vivo half-life has been observed. Furthermore, there were no indications of lymphatic cell binding in direct measurements with unfractionated human Tcells. Conclusion The promising pharmacological profile of the radiotracer enhances the potential of this peptide to be developed as a therapeutic. Its extraordinary stability and high selectivity for the target channel Kv1.3 make it an attractive candidate for autoimmune disorders. References [1] V. Chi, M. W. Pennington, R. S. Norton, E. Tarcha, L. Londono, B. Sims-Fahey, S. K. Upadhyay, J. T. Lakey, S. Iadonato, H. Wulff, C. Beeton, K. G. Chandy, Toxicon 2012, 59, 529-546. [2] C. Beeton, et al. Proc. Natl. Acad. Sci. U. S. A. 2006, 103, 17414-17419. [3] M. H. Rashid, R. Huq, M. R. Tanner, S. Chhabra, K. K. Khoo, R. Estrada, V. Dhawan, S. Chauhan, M. W. Pennington, C. Beeton, S. Kuyucak, and R. S. Norton, Sci. Rep. 2014, 4, 1-9.

Published
2017

5. Pharmacokinetic/ pharmacodynamic studies of a copper-64 labelled Kv1.3-blocking peptide targeting autoimmune diseases

Author

(0000-0001-8857-5922) Kubeil, M., Bergmann, R., Zarschler, K., Stephan, H., Norton, R. S., (0000-0001-8857-5922) Kubeil, M., Bergmann, R., Zarschler, K., Stephan, H., and Norton, R. S.

Abstract

Objectives The voltage-gated potassium channel Kv1.3 is an attractive therapeutic target to treat autoimmune disorders such as multiple sclerosis, rheumatoid arthritis, systemic lupus erythematosus and type-1 diabetes mellitus [1, 2]. This channel is highly expressed in T effector memory lymphocytes and plays an important role in their activation. A scorpion toxin derived peptide analogue, HsTX1[R14A], blocks Kv1.3 with an affinity in the picomolar range [3].Moreover, this peptide is stabilized by four disulfide bridges, conferring high in vivo stability. Methods The peptide was synthesised by SPPS using Fmoc-tBu strategy [3]. The N-terminus of HsTX1[R14A] has been coupled to NOTA (1,4,7-triazacyclononane-triacetic acid) to permit labelling with the positron emitter copper-64. Biodistribution studies and metabolite analysis were carried out in healthy male Wistar rats using Positron Emission Tomography and Radioluminography. Results The distribution studies demonstrated a rapid blood clearance after intravenous injection and a fast renal elimination. The highest accumulation was found in the kidney and urine. As a consequence, a long in vivo half-life has been observed. Furthermore, there were no indications of lymphatic cell binding in direct measurements with unfractionated human Tcells. Conclusion The promising pharmacological profile of the radiotracer enhances the potential of this peptide to be developed as a therapeutic. Its extraordinary stability and high selectivity for the target channel Kv1.3 make it an attractive candidate for autoimmune disorders. References [1] V. Chi, M. W. Pennington, R. S. Norton, E. Tarcha, L. Londono, B. Sims-Fahey, S. K. Upadhyay, J. T. Lakey, S. Iadonato, H. Wulff, C. Beeton, K. G. Chandy, Toxicon 2012, 59, 529-546. [2] C. Beeton, et al. Proc. Natl. Acad. Sci. U. S. A. 2006, 103, 17414-17419. [3] M. H. Rashid, R. Huq, M. R. Tanner, S. Chhabra, K. K. Khoo, R. Estrada, V. Dhawan, S. Chauhan, M. W. Pennington, C. Beeton, S. Kuyuca

Published
2017

10. Engineering a Stable and Selective Peptide Blocker of the Kv1.3 Channel in T Lymphocytes

Author

Pennington, M. W., primary, Beeton, C., additional, Galea, C. A., additional, Smith, B. J., additional, Chi, V., additional, Monaghan, K. P., additional, Garcia, A., additional, Rangaraju, S., additional, Giuffrida, A., additional, Plank, D., additional, Crossley, G., additional, Nugent, D., additional, Khaytin, I., additional, LeFievre, Y., additional, Peshenko, I., additional, Dixon, C., additional, Chauhan, S., additional, Orzel, A., additional, Inoue, T., additional, Hu, X., additional, Moore, R. V., additional, Norton, R. S., additional, and Chandy, K. G., additional

Published
2009
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13. Balloon-borne direct search for ionizing massive particles as a component of the galactic halo dark matter (The Arizona-IMAX Collaboration)

Author

McGuire, P. C., primary, Bowen, T., additional, Barker, D. L., additional, Halverson, P. G., additional, Kendall, K. R., additional, Metcalfe, T. S., additional, Norton, R. S., additional, Pifer, A. E., additional, Barbier, L. M., additional, Christian, E. R., additional, Krombel, K. E., additional, Mitchell, J. W., additional, Ormes, J. F., additional, Streitmatter, R. E., additional, Davis, A. J., additional, Labrador, A. W., additional, Mewaldt, R. A., additional, Schindler, S. M., additional, Golden, R. L., additional, Stochaj, S. J., additional, and Webber, W. R., additional

Published
1995
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18. Stabilization of the Helical Structure of Y2-Selective Analogues of Neuropeptide Y by Lactam Bridges

Author

Yao, S., Smith-White, M. A., Potter, E. K., and Norton, R. S.

Abstract

The importance of helical structure in an analogue of NPY selective for the Y2 receptor, Ac[Leu28,31]NPY24-36, has been investigated by introducing a lactam bridge between positions 28 and 32. The resulting analogue, Ac-cyclo28/32[Ala24,Lys28,Leu31,Glu32]NPY24-36, is a potent Y2-selective agonist. Structural analysis by NMR shows that this analogue forms a helical structure in a 40% trifluoroethanol/water mixture, whereas in water only the region around the lactam bridge (Lys28-Glu32) adopts helical-like structure, with both N- and C-termini being poorly defined. The observation of well-defined helical structure in aqueous TFE contrasts with that reported for a similar analogue, Ac-cyclo28/32[Lys28,Glu32]NPY25-36 (Rist et al. FEBS Lett. 1996, 394, 169−173), which consisted of a hairpin-like structure that brought the N- and C-termini into proximity. We have therefore determined the structures of this analogue, as well as those of Ac-cyclo28/32[Ala24,Lys28,Leu31,Glu32]NPY24-36 and Ac-cyclo28/32[Ala24,Lys28,Glu32]NPY24-36, under identical solution conditions (30% TFE/H2O mixture at 308 K) and find essentially the same helical structure in all three peptides. These findings support the proposal that these Y2-selective analogues adopt a helical structure when bound to the Y2 receptor.

Published
2002
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19. Structure-guided transformation of charybdotoxin yields an analog that selectively targets Ca(2+)-activated over voltage-gated K(+) channels.

Author

Rauer, H, Lanigan, M D, Pennington, M W, Aiyar, J, Ghanshani, S, Cahalan, M D, Norton, R S, and Chandy, K G

Abstract

We have used a structure-based design strategy to transform the polypeptide toxin charybdotoxin, which blocks several voltage-gated and Ca(2+)-activated K(+) channels, into a selective inhibitor. As a model system, we chose two channels in T-lymphocytes, the voltage-gated channel Kv1.3 and the Ca(2+)-activated channel IKCa1. Homology models of both channels were generated based on the crystal structure of the bacterial channel KcsA. Initial docking of charybdotoxin was undertaken with both models, and the accuracy of these docking configurations was tested by mutant cycle analyses, establishing that charybdotoxin has a similar docking configuration in the external vestibules of IKCa1 and Kv1.3. Comparison of the refined models revealed a unique cluster of negatively charged residues in the turret of Kv1.3, not present in IKCa1. To exploit this difference, three novel charybdotoxin analogs were designed by introducing negatively charged residues in place of charybdotoxin Lys(32), which lies in close proximity to this cluster. These analogs block IKCa1 with approximately 20-fold higher affinity than Kv1.3. The other charybdotoxin-sensitive Kv channels, Kv1.2 and Kv1. 6, contain the negative cluster and are predictably insensitive to the charybdotoxin position 32 analogs, whereas the maxi-K(Ca) channel, hSlo, lacking the cluster, is sensitive to the analogs. This provides strong evidence for topological similarity of the external vestibules of diverse K(+) channels and demonstrates the feasibility of using structure-based strategies to design selective inhibitors for mammalian K(+) channels. The availability of potent and selective inhibitors of IKCa1 will help to elucidate the role of this channel in T-lymphocytes during the immune response as well as in erythrocytes and colonic epithelia.

Published
2000

20. Structure-function relationships of omega-conotoxin GVIA. Synthesis, structure, calcium channel binding, and functional assay of alanine-substituted analogues.

Author

Lew, M J, Flinn, J P, Pallaghy, P K, Murphy, R, Whorlow, S L, Wright, C E, Norton, R S, and Angus, J A

Abstract

The structure-function relationships of the N-type calcium channel blocker, omega-conotoxin GVIA (GVIA), have been elucidated by structural, binding and in vitro and in vivo functional studies of alanine-substituted analogues of the native molecule. Alanine was substituted at all non-bridging positions in the sequence. In most cases the structure of the analogues in aqueous solution was shown to be native-like by 1H NMR spectroscopy. Minor conformational changes observed in some cases were characterized by two-dimensional NMR. Replacement of Lys2 and Tyr13 with Ala caused reductions in potency of more than 2 orders of magnitude in three functional assays (sympathetic nerve stimulation of rat isolated vas deferens, right atrium and mesenteric artery) and a rat brain membrane binding assay. Replacement of several other residues with Ala (particularly Arg17, Tyr22 and Lys24) resulted in significant reductions in potency (<100-fold) in the functional assays, but not the binding assay. The potencies of the analogues were strongly correlated between the different functional assays but not between the functional assays and the binding assay. Thus, the physiologically relevant assays employed in this study have shown that the high affinity of GVIA for the N-type calcium channel is the result of interactions between the channel binding site and the toxin at more sites than the previously identified Lys2 and Tyr13.

Published
1997

21. ShK-Dap22, a potent Kv1.3-specific immunosuppressive polypeptide.

Author

Kalman, K, Pennington, M W, Lanigan, M D, Nguyen, A, Rauer, H, Mahnir, V, Paschetto, K, Kem, W R, Grissmer, S, Gutman, G A, Christian, E P, Cahalan, M D, Norton, R S, and Chandy, K G

Abstract

The voltage-gated potassium channel in T lymphocytes, Kv1.3, is an important molecular target for immunosuppressive agents. A structurally defined polypeptide, ShK, from the sea anemone Stichodactyla helianthus inhibited Kv1.3 potently and also blocked Kv1.1, Kv1.4, and Kv1.6 at subnanomolar concentrations. Using mutant cycle analysis in conjunction with complementary mutagenesis of ShK and Kv1.3, and utilizing the structure of ShK, we determined a likely docking configuration for this peptide in the channel. Based upon this topological information, we replaced the critical Lys22 in ShK with the positively charged, non-natural amino acid diaminopropionic acid (ShK-Dap22) and generated a highly selective and potent blocker of the T-lymphocyte channel. ShK-Dap22, at subnanomolar concentrations, suppressed anti-CD3 induced human T-lymphocyte [3H]thymidine incorporation in vitro. Toxicity with this mutant peptide was low in a rodent model, with a median paralytic dose of approximately 200 mg/kg body weight following intravenous administration. The overall structure of ShK-Dap22 in solution, as determined from NMR data, is similar to that of native ShK toxin, but there are some differences in the residues involved in potassium channel binding. Based on these results, we propose that ShK-Dap22 or a structural analogue may have use as an immunosuppressant for the prevention of graft rejection and for the treatment of autoimmune diseases.

Published
1998

22. Solution structure of leukemia inhibitory factor.

Author

Hinds, M G, Maurer, T, Zhang, J G, Nicola, N A, and Norton, R S

Abstract

The solution structure of a murine-human chimera of leukemia inhibitory factor (LIF), a 180-residue cytokine with a molecular mass of 20 kDa, has been determined using multidimensional heteronuclear NMR techniques. The protein contains four alpha-helices, the relative orientations of which are well defined on the basis of long-range interhelical nuclear Overhauser effects. The helices are arranged in an up-up-down-down orientation, as found in other four-helix bundle cytokines, and the overall topology of the chimera is similar to that of the crystal structure of murine LIF (Robinson, R. C., Grey, L. M., Staunton, D., Vankelecom, H. Vernallis, A. B., Moreau, J. F., Stuart, D. I., Heath, J. K., and Jones, E. Y. (1994) Cell 77, 1101-1116). Differences between the structures are evident in the N-terminal region, where the peptide bond preceding Pro17 has a trans-conformation in solution but a cis-conformation in the crystal, and in the small antiparallel beta-sheet encompassing residues in the N terminus and the CD loop in the crystal structure, which is not apparent in solution. There are also minor differences in the extent of the helices. Other than at the N terminus, the main difference between the two structures occurs at the C-terminal end of the CD loop. As this loop is close to a receptor-binding site on LIF that makes a major contribution to high affinity binding to the LIF receptor alpha-chain, these differences between the solution and crystal structures should be taken into account in structural models of LIF receptor interactions.

Published
1998

23. 31P nuclear magnetic resonance studies of the fermentation of glucose to ethanol by Zymomonas mobilis.

Author

Barrow, K D, Collins, J G, Norton, R S, Rogers, P L, and Smith, G M

Abstract

High resolution 31P nuclear magnetic resonance spectroscopy has been employed to study the fermentation of glucose to ethanol by Zymomonas mobilis, strain ZM4, a bacterium which uses the Entner-Doudoroff pathway. The levels of nucleoside triphosphates, sugar phosphates, UDP-sugars and Pi in intact fermenting cells have been studied with a time resolution of 1 min. It is suggested that a pH gradient is established across the cell membrane during fermentation and that the intracellular pH does not rise above approximately 6.4. 31P resonances from most phosphorus-containing intermediates in the Entner-Doudoroff pathway, as well as adenosine and uridine nucleotides and a number of other intracellular metabolites, have been assigned in perchloric extracts of fermenting cells by means of a number of techniques, including two-dimensional homonuclear J-resolved and two-dimensional homonuclear shift-correlated spectroscopy. Quantification of these metabolites in spectra of extracts of fermenting cells indicates that the rate-limiting steps in the Entner-Doudoroff pathway in Z. mobilis are the conversions of glucose 6-phosphate to 6-phosphogluconate and of 3-phosphoglycerate to 2-phosphoglycerate.

Published
1984
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24. The physical state of osmoregulatory solutes in unicellular algae. A natural-abundance carbon-13 nuclear-magnetic-resonance relaxation study

Author

Norton, R S, MacKay, M A, and Borowitzka, L J

Abstract

Natural-abundance 13C n.m.r. spin-lattice relaxation-time measurements have been carried out on intact cells of the unicellular blue-green alga Synechococcus sp. and the unicellular green alga Dunaliella salina, with the aim of characterizing the environments of the organic osmoregulatory solutes in these salt-tolerant organisms. In Synechococcus sp., all of the major organic osmoregulatory solute, 2-O-alpha-D-glucopyranosylglycerol, is visible in spectra of intact cells. Its rotational motion in the cell is slower by a factor of approx. 2.4 than in aqueous solution, but the molecule is still freely mobile and therefore able to contribute to the osmotic balance. In D. salina, only about 60% of the osmoregulatory solute glycerol is visible in spectra of intact cells. The rotational mobility of this observable fraction is approximately half that found in aqueous solution, but the data also indicate that there is a significant concentration of some paramagnetic species in D. salina which contributes to the overall spin-lattice relaxation of the glycerol carbon atoms. The non-observable fraction, which must correspond to glycerol molecules that have very broad 13C resonances and that are in slow exchange with bulk glycerol, has not been properly characterized as yet, but may represent glycerol in the chloroplast. The implications of these findings in relation to the physical state of the cytoplasm and the mechanism of osmoregulation in these cells are discussed.

Published
1982
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25. Assignment of aromatic resonances in the 1H nuclear magnetic resonance spectra of cardioactive polypeptides from sea anemones.

Author

Gooley, P R, Blunt, J W, Beress, L, Norton, T R, and Norton, R S

Abstract

High-resolution 1H NMR spectroscopy at 300 MHz has been used to investigate the aromatic residues of a series of homologous polypeptides from sea anemones: anthopleurin-A from Anthopleura xanthogrammica and toxins I and II from Anemonia sulcata. Using two-dimensional NMR techniques, specific assignments to individual protons have been made for all aromatic resonances in the spectra of these molecules. In all three polypeptides the resonances from the two conserved Trp residues, 23 and 33, are shifted significantly from their random coil values, and the indole NH resonance of Trp-23 is not observed. These shift perturbations are due in part to a mutual interaction of the two indole rings, which is also indicated by the observation of nuclear Overhauser enhancements between protons of the two rings. Several other nonpolar side chains also interact with these two Trp residues, forming a hydrophobic region, the overall structure of which is conserved throughout the series. The other aromatic residues in these polypeptides appear not to participate in this structural region.

Published
1986
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27. Backbone dynamics measurements on leukemia inhibitory factor, a rigid four-helical bundle cytokine

Author

Yao, S., Smith, D. K., Hinds, M. G., Zhang, J. -G, Nicos Nicola, and Norton, R. S.

Subjects
Amide exchange, Leukemia inhibitory factor, 15N relaxation, Cytokine, NMR
Abstract

The backbone dynamics of the four-helical bundle cytokine leukemia inhibitory factor (LIF) have been investigated using 15N NMR relaxation and amide proton exchange measurements on a murine-human chimera, MH35-LIF. For rapid backbone motions (on a time scale of 10 ps to 100 ns), as probed by 15N relaxation measurements, the dynamics parameters were calculated using the model-free formalism incorporating the model selection approach. The principal components of the inertia tensor of MH35-LIF, as calculated from its NMR structure, were 1:0.98:0.38. The global rotational motion of the molecule was, therefore, assumed to be axially symmetric in the analysis of its relaxation data. This yielded a diffusion anisotropy D(parallel)/D(perpendicular) of 1.31 and an effective correlation time (4D(perpendicular) + 2D(parallel))(-1) of 8.9 ns. The average values of the order parameters (S2) for the four helices, the long interhelical loops, and the N-terminus were 0.91, 0.84, and 0.65, respectively, indicating that LIF is fairly rigid in solution, except at the N-terminus. The S2 values for the long interhelical loops of MH35-LIF were higher than those of their counterparts in short-chain members of the four-helical bundle cytokine family. Residues involved in LIF receptor binding showed no consistent pattern of backbone mobilities, with S2 values ranging from 0.71 to 0.95, but residues contributing to receptor binding site III had relatively lower S2 values, implying higher amplitude motions than for the backbone of sites I and II. In the relatively slow motion regime, backbone amide exchange measurements showed that a number of amides from the helical bundle exchanged extremely slowly, persisting for several months in 2H2O at 37 degrees C. Evidence for local unfolding was considered, and correlations among various structure-related parameters and the backbone amide exchange rates were examined. Both sets of data concur in showing that LIF is one of the most rigid four-helical bundle cytokines., published_or_final_version

42. High-resolution 1H NMR study of the solution structure of δ-hemolysin

Author

Tappin M.J., Pastore A, Norton R.S., Freer J.H., Campbell L.D., Tappin, M. J., Pastore, A, Norton, R. S., Freer, J. H., and Campbell, L. D.

Abstract

The 26-residue toxin from Staphylococcus aureus, delta-hemolysin, is thought to act by traversing the plasma membrane. The structure of this peptide, in methanol solution, has been investigated by using high-resolution NMR in combination with molecular dynamics calculations. The 1H NMR spectrum has been completely assigned, and it is shown that residues 2-20 form a relatively stable helix while the residues at the C-terminal end appear to be more flexible. The structures were calculated only from nuclear Overhauser effect data and standard bond lengths. It is shown that the results are consistent with 3JNH-alpha CH coupling constants and amide hydrogen exchange rates.

Published
1988

43. Designed peptide analogues of the potassium channel blocker ShK toxin.

Author

Lanigan MD, Pennington MW, Lefievre Y, Rauer H, and Norton RS

Subjects
Amino Acid Sequence, Animals, Cnidarian Venoms chemistry, Cnidarian Venoms metabolism, Kv1.3 Potassium Channel, L Cells, Mice, Molecular Sequence Data, Oocytes physiology, Patch-Clamp Techniques, Peptide Fragments chemistry, Peptide Fragments metabolism, Potassium Channels metabolism, Protein Binding, Sea Anemones chemistry, Transfection, Xenopus, Cnidarian Venoms chemical synthesis, Peptide Fragments chemical synthesis, Potassium Channel Blockers, Potassium Channels, Voltage-Gated
Abstract

ShK toxin, a potassium channel blocker from the sea anemone Stichodactyla helianthus, is a 35-residue polypeptide cross-linked by 3 disulfide bridges. In an effort to generate truncated peptidic analogues of this potent channel blocker, we have evaluated three analogues, one in which the native sequence was truncated and then stabilized by the introduction of additional covalent links (a non-native disulfide and two lactam bridges), and two in which non-native structural scaffolds stabilized by disulfide and/or lactam bridges were modified to include key amino acid residues from the native toxin. The effect of introducing a lactam bridge in the first helix of ShK toxin (to create cyclo14/18[Lys14,Asp18]ShK) was also examined to confirm that this modification was compatible with activity. All four analogues were tested in vitro for their ability to block Kv1.3 potassium channels in Xenopus oocytes, and their solution structures were determined using 1H NMR spectroscopy. The lactam bridge in full-length ShK is well tolerated, with only a 5-fold reduction in binding to Kv1.3. The truncated and stabilized analogue was inactive, apparently due to a combination of slight deviations from the native structure and alterations to side chains required for binding. One of the peptide scaffolds was also inactive because it failed to adopt the required structure, but the other had a K(d) of 92 microM. This active peptide incorporated mimics of Lys22 and Tyr23, which are essential for activity in ShK, and an Arg residue that could mimic Arg11 or Arg24 in the native toxin. Modification of this peptide should produce a more potent, low molecular weight peptidic analogue which will be useful not only for further in vitro and in vivo studies of the effect of blocking Kv1.3, but also for mapping the interactions with the pore and vestibule of this K(+) channel that are required for potent blockade.

Published
2001
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44. Design and synthesis of type-III mimetics of omega-conotoxin GVIA.

Author

Baell JB, Forsyth SA, Gable RW, Norton RS, and Mulder RJ

Subjects
Analgesics chemical synthesis, Analgesics chemistry, Binding Sites, Calcium Channel Blockers chemical synthesis, Calcium Channel Blockers chemistry, Calcium Channels, N-Type chemistry, Calcium Channels, N-Type drug effects, Crystallography, X-Ray, Humans, In Vitro Techniques, Magnetic Resonance Spectroscopy, Models, Molecular, Molecular Mimicry, Protein Conformation, Drug Design, omega-Conotoxin GVIA chemistry
Abstract

Our interest lies in the rational design and synthesis of type-III mimetics of protein and polypeptide structure and function. Our approach involves interactive design of conformationally defined molecular scaffolds that project certain functional groups in a way that mimics the projection of important binding residues as determined in the parent structure. These design principles are discussed and applied to the structurally defined polypeptide, omega-conotoxin GVIA, which blocks voltage-gated, neuronal N-type calcium channels. These ion channels represent therapeutic targets for the development of new analgesics that can treat chronic pain. It is shown how a discontinuous, 3-residue pharmacophore of GVIA can be mimicked by different molecular scaffolds. It is illustrated how such 1st generation leads must necessarily be weak and that optimisability must therefore be built-in during the design process.

Published
2001
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45. Antiviral activity and structural characteristics of the nonglycosylated central subdomain of human respiratory syncytial virus attachment (G) glycoprotein.

Author

Gorman JJ, McKimm-Breschkin JL, Norton RS, and Barnham KJ

Subjects
Alanine chemistry, Amino Acid Sequence, Animals, Cattle, Glycosylation, Humans, Inhibitory Concentration 50, Magnetic Resonance Spectroscopy, Models, Molecular, Molecular Sequence Data, Mutagenesis, Site-Directed, Peptides chemistry, Protein Binding, Protein Conformation, Protein Structure, Tertiary, Sequence Homology, Amino Acid, Sheep, Antiviral Agents pharmacology, Membrane Glycoproteins chemistry, Peptides pharmacology, Respiratory Syncytial Virus, Human chemistry, Viral Envelope Proteins chemistry
Abstract

Segments of the cystine noose-containing nonglycosylated central subdomain, residues 149-197, of the attachment (G) glycoprotein of human respiratory syncytial virus (HRSV) have been assessed for impact on the cytopathic effect (CPE) of respiratory syncytial virus (RSV). Nalpha-acetyl residues 149-197-amide (G149-197), G149-189, and G149-177 of the A2 strain of HRSV protected 50% of human epithelial HEp-2 cells from the CPE of the A2 strain at concentrations (IC(50)) between 5 and 80 microm. Cystine noose-containing peptides G171-197 and G173-197 did not inhibit the CPE even at concentrations above 150 microm. Systematic C- and N-terminal truncations from G149-189 and G149-177 and alanine substitutions within G154-177 demonstrated that residues 166-170 (EVFNF), within a sequence that is conserved in HRSV strains, were critical for inhibition. Concordantly, G154-177 of bovine RSV and of an antibody escape mutant of HRSV with residues 166-170 of QTLPY and EVSNP, respectively, were not inhibitory. Surprisingly, a variant of G154-177 with an E166A substitution had an IC(50) of 750 nm. NMR analysis demonstrated that G149-177 adopted a well-defined conformation in solution, clustered around F168 and F170. G154-170, particularly EVFNF, may be important in binding of RSV to host cells. These findings constitute a promising platform for the development of antiviral agents for RSV.

Published
2001
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46. Characterization of unique amphipathic antimicrobial peptides from venom of the scorpion Pandinus imperator.

Author

Corzo G, Escoubas P, Villegas E, Barnham KJ, He W, Norton RS, and Nakajima T

Subjects
Amino Acid Sequence, Animals, Antifungal Agents chemistry, Antimicrobial Cationic Peptides chemistry, Candida albicans drug effects, Candida albicans growth & development, Circular Dichroism, Erythrocytes drug effects, Gram-Negative Bacteria drug effects, Gram-Negative Bacteria growth & development, Gram-Positive Bacteria drug effects, Gram-Positive Bacteria growth & development, Hemolysis drug effects, Humans, Magnetic Resonance Spectroscopy, Molecular Sequence Data, Peptides chemistry, Protein Conformation, Scorpion Venoms chemistry, Sequence Homology, Amino Acid, Sheep, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Xenopus laevis, Antifungal Agents pharmacology, Antimicrobial Cationic Peptides pharmacology, Peptides pharmacology, Scorpion Venoms pharmacology, Scorpions chemistry, Xenopus Proteins
Abstract

Two novel antimicrobial peptides have been identified and characterized from venom of the African scorpion Pandinus imperator. The peptides, designated pandinin 1 and 2, are alpha-helical polycationic peptides, with pandinin 1 belonging to the group of antibacterial peptides previously described from scorpions, frogs and insects, and pandinin 2 to the group of short magainin-type helical peptides from frogs. Both peptides demonstrated high antimicrobial activity against a range of Gram-positive bacteria (2.4-5.2 microM), but were less active against Gram-negative bacteria (2.4-38.2 microM), and only pandinin 2 affected the yeast Candida albicans. Pandinin 2 also demonstrated strong haemolytic activity (11.1-44.5 microM) against sheep erythrocytes, in contrast with pandinin 1, which was not haemolytic. CD studies and a high-resolution structure of pandinin 2 determined by NMR, showed that the two peptides are both essentially helical, but differ in their overall structure. Pandinin 2 is composed of a single alpha-helix with a predominantly hydrophobic N-terminal sequence, whereas pandinin 1 consists of two distinct alpha-helices separated by a coil region of higher flexibility. This is the first report of magainin-type polycationic antimicrobial peptides in scorpion venom. Their presence brings new insights into the mode of action of scorpion venom and also opens new avenues for the discovery of novel antibiotic molecules from arthropod venoms.

Published
2001
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48. Alzheimer's disease amyloid-beta binds copper and zinc to generate an allosterically ordered membrane-penetrating structure containing superoxide dismutase-like subunits.

Author

Curtain CC, Ali F, Volitakis I, Cherny RA, Norton RS, Beyreuther K, Barrow CJ, Masters CL, Bush AI, and Barnham KJ

Subjects
Allosteric Regulation, Cell Membrane metabolism, Circular Dichroism, Electron Spin Resonance Spectroscopy, Humans, Nuclear Magnetic Resonance, Biomolecular, Oxidation-Reduction, Protein Binding, Spin Labels, Superoxide Dismutase chemistry, Alzheimer Disease metabolism, Amyloid beta-Peptides metabolism, Copper metabolism, Superoxide Dismutase metabolism, Zinc metabolism
Abstract

Amyloid beta peptide (Abeta) is the major constituent of extracellular plaques and perivascular amyloid deposits, the pathognomonic neuropathological lesions of Alzheimer's disease. Cu(2+) and Zn(2+) bind Abeta, inducing aggregation and giving rise to reactive oxygen species. These reactions may play a deleterious role in the disease state, because high concentrations of iron, copper, and zinc have been located in amyloid in diseased brains. Here we show that coordination of metal ions to Abeta is the same in both aqueous solution and lipid environments, with His(6), His(13), and His(14) all involved. At Cu(2+)/peptide molar ratios >0.3, Abeta coordinated a second Cu(2+) atom in a highly cooperative manner. This effect was abolished if the histidine residues were methylated at N(epsilon)2, indicating the presence of bridging histidine residues, as found in the active site of superoxide dismutase. Addition of Cu(2+) or Zn(2+) to Abeta in a negatively charged lipid environment caused a conformational change from beta-sheet to alpha-helix, accompanied by peptide oligomerization and membrane penetration. These results suggest that metal binding to Abeta generated an allosterically ordered membrane-penetrating oligomer linked by superoxide dismutase-like bridging histidine residues.

Published
2001
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49. A helical capping motif in ShK toxin and its role in helix stabilization.

Author

Lanigan MD, Tudor JE, Pennington MW, and Norton RS

Subjects
Amino Acid Motifs, Amino Acid Sequence, Binding Sites, Circular Dichroism, Cnidarian Venoms chemical synthesis, Cnidarian Venoms genetics, Magnetic Resonance Spectroscopy, Models, Molecular, Mutation, Peptides chemistry, Potassium Channels chemistry, Protein Structure, Secondary, Cnidarian Venoms chemistry
Abstract

ShK toxin, a 35-residue polypeptide cross-linked by three disulfides, is a potent blocker of voltage-gated potassium channels and is of interest as a lead in the development of new immunosuppressant agents. ShK toxin contains two short stretches of alpha-helix, the first of which is preceded by a putative N-capping box encompassing residues Thr13 and Gln16. (1)H and (13)C NMR data support the presence of this structural motif, but the hydrogen bonds involving residues 13 and 16 in the solution structure of ShK toxin do not match the pattern expected for a conventional N-cap motif. They do, however, fit the pattern for the recently described ST-motif, class 4a (Wan and Milner-White (1999) Journal of Molecular Biology, 1999, Vol. 286, pp. 1651-1662). The (1)H NMR chemical shifts, nuclear Overhauser effects, and amide exchange rates of native ShK toxin are compared with those of three synthetic analogues with the substitutions Thr13 to Ala and Gln16 to Glu and Ala in order to determine the contribution of this motif to the structure and stability of ShK toxin. Disruption of the capping interactions destabilizes the helices, with the Thr13 to Ala substitution being much more disruptive than Gln16 to Ala, consistent with the lack of hydrogen bonding to the side chain of residue i + 4 in a class 4a ST-motif. Mutation of residues 13 and 16 has only a minor effect on potassium channel binding, probably because the disulfide bonding network minimizes the effect of loss of the capping motif on the overall structure. The implications of these findings for the design of ShK analogues are discussed., (Copyright 2001 John Wiley & Sons, Inc. Biopolymers 58: 422-436, 2001.)

Published
2001
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50. The Val-210-Ile pathogenic Creutzfeldt-Jakob disease mutation increases both the helical and aggregation propensities of a sequence corresponding to helix-3 of PrP(C).

Author

Thompson AJ, Barnham KJ, Norton RS, and Barrow CJ

Subjects
Amino Acid Sequence, Circular Dichroism, Molecular Sequence Data, Nuclear Magnetic Resonance, Biomolecular, PrPC Proteins chemistry, PrPC Proteins physiology, Protein Structure, Secondary, Creutzfeldt-Jakob Syndrome genetics, Isoleucine genetics, Mutation, PrPC Proteins genetics, Valine genetics
Abstract

A peptide corresponding to the third helical region within the PrP(C) protein, from residues 198 to 218 (helix-3), was synthesised with and without the familial 210-Val to Ile Creutzfeldt-Jakob disease mutation. The NMR structure of PrP(C) predicts no global variation in stability for this mutation, indicating that local sequence rather than global structural factors are involved in the pathological effects of this mutation. 1H NMR analysis of peptides with and without this mutation indicated that it had no significant effect on local helical structure. Temperature denaturation studies monitored by CD showed that the mutation increased the helical content within this region (helical propensity), but did not stabilise the helix toward denaturation (helical stability). Aggregation data indicated that, in addition to increasing helical propensity, this mutation increased the aggregation propensity of this sequence. CD and NMR data indicate that helical interactions, stabilised by the Val-210-Ile mutation, may precede the formation of beta-sheet aggregates in this peptide sequence. Therefore, this pathological mutation probably does not facilitate PrP(C) to PrP(Sc) conversion by directly destabilising the helical structure of PrP(C), but may preferentially stabilise PrP(Sc) by facilitating beta-sheet formation within this sequence region of PrP. In addition, helical interactions between helix-3 in two or more PrP(C) molecules may promote conversion to PrP(Sc).

Published
2001
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