Abstract
Mu-conotoxins are small peptide inhibitors of muscle and neuronal tetrodotoxin (TTX)-sensitive voltage-gated sodium channels (VGSCs). Here we report the isolation of mu-conotoxins SIIIA and SIIIB by (125)I-TIIIA-guided fractionation of milked Conus striatus venom. SIIIA and SIIIB potently displaced (125)I-TIIIA from native rat brain Na(v)1.2 (IC(50) values 10 and 5 nm, respectively) and muscle Na(v)1.4 (IC(50) values 60 and 3 nm, respectively) VGSCs, and both inhibited current through Xenopus oocyte-expressed Na(v)1.2 and Na(v)1.4. An alanine scan of SIIIA-(2-20), a pyroglutamate-truncated analogue with enhanced neuronal activity, revealed residues important for affinity and selectivity. Alanine replacement of the solvent-exposed Trp-12, Arg-14, His-16, Arg-18 resulted in large reductions in SIIIA-(2-20) affinity, with His-16 replacement affecting structure. In contrast, [D15A]SIIIA-(2-20) had significantly enhanced neuronal affinity (IC(50) 0.65 nm), while the double mutant [D15A/H16R]SIIIA-(2-20) showed greatest Na(v)1.2 versus 1.4 selectivity (136-fold). (1)H NMR studies revealed that SIIIA adopted a single conformation in solution comprising a series of turns and an alpha-helical motif across residues 11-16 that is not found in larger mu-conotoxins. The structure of SIIIA provides a new structural template for the development of neuronally selective inhibitors of TTX-sensitive VGSCs based on the smaller mu-conotoxin pharmacophore.
Highlights
1.9 are implicated in neuropathic pain states (4, 5), the TTX-S Nav1.7 is implicated in allodynia and neuropathic pain (6 –10), and the TTX-S Nav1.3 is up-regulated in inflammatory pain (5)
Recent structure-activity studies on TIIIA (15) and KIIIA (20) have confirmed that the arginine in loop 2 is crucial for TIIIA affinity at both neuronal and skeletal muscle sodium channels, whereas the structurally equivalent lysine was only important for affinity at the skeletal muscle voltage-gated sodium channels (VGSCs)
Isolation of -Conotoxins SIIIA and SIIIB—To identify -conotoxins selective for neuronal VGSCs, fractionated milked C. striatus venom was assayed for the ability to displace 125I-TIIIA from rat brain sodium channels (15)
Summary
1.9 are implicated in neuropathic pain states (4, 5), the TTX-S Nav1.7 is implicated in allodynia and neuropathic pain (6 –10), and the TTX-S Nav1.3 is up-regulated in inflammatory pain (5). Isolation of -Conotoxins SIIIA and SIIIB—To identify -conotoxins selective for neuronal VGSCs, fractionated milked C. striatus venom was assayed for the ability to displace 125I-TIIIA from rat brain sodium channels (15).
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