Estuardo López‐Vera scite author profile

Conus species are characterized by their hyperdiverse toxins, encoded by a few gene superfamilies. Our phylogenies of the genus, based on mitochondrial genes, confirm previous results that C. californicus is highly divergent from all other species. Genetic and biochemical analysis of their venom peptides comprise the fifteen most abundant conopeptides and over 50 mature cDNA transcripts from the venom duct. Although C. californicus venom retains many of the general properties of other Conus species, they share only half of the toxin gene superfamilies found in other Conus species. Thus, in these two lineages, approximately half of the rapidly diversifying gene superfamilies originated after an early Tertiary split. Such results demonstrate that, unlike endogenously acting gene families, these genes are likely to be significantly more restricted in their phylogenetic distribution. In concordance with the evolutionary duistance of C. californicus from other species, there are aspects of prey-capture behavior and prey preferences of this species that diverges significantly from all other Conus.

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A Novel Conotoxin Inhibitor of Kv1.6 Channel and nAChR Subtypes Defines a New Superfamily of Conotoxins^,

Imperial

Bansal

Alewood

et al. 2006

Biochemistry

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Using assay-directed fractionation of the venom from the vermivorous cone snail Conus planorbis, we isolated a new conotoxin, designated pl14a, with potent activity at both nicotinic acetylcholine receptors and a voltage-gated potassium channel subtype. pl14a contains 25 amino acid residues with an amidated C-terminus, an elongated N-terminal tail (six residues), and two disulfide bonds (1-3, 2-4 connectivity) in a novel framework distinct from other conotoxins. The peptide was chemically synthesized, and its three-dimensional structure was demonstrated to be well-defined, with an alpha-helix and two 3(10)-helices present. Analysis of a cDNA clone encoding the prepropeptide precursor of pl14a revealed a novel signal sequence, indicating that pl14a belongs to a new gene superfamily, the J-conotoxin superfamily. Five additional peptides in the J-superfamily were identified. Intracranial injection of pl14a in mice elicited excitatory symptoms that included shaking, rapid circling, barrel rolling, and seizures. Using the oocyte heterologous expression system, pl14a was shown to inhibit both a K+ channel subtype (Kv1.6, IC50 = 1.59 microM) and neuronal (IC50 = 8.7 microM for alpha3beta4) and neuromuscular (IC50 = 0.54 microM for alpha1beta1 epsilondelta) subtypes of the nicotinic acetylcholine receptor (nAChR). Similarities in sequence and structure are apparent between the middle loop of pl14a and the second loop of a number of alpha-conotoxins. This is the first conotoxin shown to affect the activity of both voltage-gated and ligand-gated ion channels.

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Role of Hydroxyprolines in the in Vitro Oxidative Folding and Biological Activity of Conotoxins

et al. 2008

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Hydroxylation of proline residue occurs in specific peptides and proteins derived from plants and animals, but the functional role of this modification has been characterized primarily in collagen. Marine cone snails produce disulfide-rich peptides that have undergone a plethora of posttranslational modifications, including proline hydroxylation. Although Conus snails extensively utilize proline hydroxylation, the consequences of this modification remain largely unexplored. In this work, we investigated the function of 4-hydroxyproline (Hyp) in conotoxins from three distinct gene families: mu-, omega-, and alpha-conotoxins. Analogues of mu-GIIIA, omega-MVIIC, alpha-GI, and alpha-ImI were synthesized with either Pro or Hyp, and their in vitro oxidative folding and biological activity were characterized. For GIIIA, which naturally contains three Hyp residues, the modifications improved the ability to block NaV1.4 sodium channels but did not affect folding. In contrast, the presence of Hyp in MVIIC had a significant impact on the oxidative folding but not on the biological activity. The folding yields for the MVIIC[Pro7Hyp] analogue were approximately 2-fold higher than for MVIIC under a variety of optimized oxidation conditions. For alpha-conotoxins ImI and GI, the hydroxylation of the conserved Pro residue improved their folding but impaired their activities against target receptors. Since prolyl-4-hydroxylase and protein disulfide isomerase coexist as a heterotetramer in the ER, we discuss the effects of Hyp on the folding of conotoxins in the context of cis-trans isomerization of Pro and Hyp. Taken together, our data suggest that proline hydroxylation is important for both in vitro oxidative folding and the bioactivity of conotoxins.

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