Pharmacological Classes of Peptides Targeted to Calcium, Sodium, and Potassium Channels.

This review describes the specific features of families of Conus venom peptides (conotoxins or conopeptides) that represent twelve pharmacological classes. Members of these conopeptide families are targeted to voltage-gated ion channels, such as calcium, sodium, and potassium channels. The conopeptides covered in this work include omega-conotoxins and contryphans with calcium channels as targets; mu-conotoxins, muO-conotoxins, muP-conotoxins, delta-conotoxins and iota-conotoxin with sodium channels as targets; and kappa-conotoxins, kappaM-conotoxins, kappaO-conotoxin, conkunitzins, and conorfamide with potassium channels as targets.

Peptide antagonists of NMDA receptors: Structure-activity relationships for potential therapeutics.

The N-methyl-D-aspartate (NMDA) receptors are heteromeric cation channels involved in memory, learning, and synaptic plasticity. The dysfunction associated with NMDA receptors results in neurodegenerative conditions. The conantokins comprise a family of Conus venom peptides that induce sleep upon intracranial injection into young mice and are known to be NMDA receptor antagonists.

Post-translationally modified conopeptides: Biological activities and pharmacological applications.

Conus venoms comprise a large variety of biologically active peptides (conopeptides or conotoxins) that are employed for prey capture and other biological functions. Throughout the course of evolution of the cone snails, they have developed an envenomation scheme that necessitates a potent mixture of peptides, most of which are highly post-translationally modified, that can cause rapid paralysis of their prey. The great diversity of these peptides defines the ecological interactions and evolutionary strategy of cone snails.

D-Amino Acids in Peptides from Animals, Including Human: Occurrence, Structure, Bioactivity and Pharmacology.

All life forms typically possess homochirality, with rare exceptions. In the case of peptides and proteins, only L-amino acids are known to be encoded by genes. Nevertheless, D-amino acids have been identified in a variety of peptides, synthesized by animal cells.

Bromotryptophan and its Analogs in Peptides from Marine Animals.

Bromotryptophan is a nonstandard amino acid that is rarely incorporated in ribosomally synthesized and post-translationally modified peptides (ribosomal peptides). Bromotryptophan and its analogs sometimes occur in non-ribosomal peptides. This paper presents an overview of ribosomal and non-ribosomal peptides that are known to contain bromotryptophan and its analogs.

Divergent M- and O-superfamily peptides from venom of fish-hunting Conus parius.

Six novel peptides from the piscivorous cone snail, Conus parius were purified by reverse-phase HPLC fractionation of crude venom. With the use of matrix-assisted laser desorption ionization mass spectrometry and standard Edman sequencing methods, the peptides were characterized. Two peptides were identified as members of the m-2 and m-4 branches of the M-superfamily and were designated as pr3a and pr3b, while four peptides were identified as members of the O-superfamily and were designated as pr6a, pr6b, pr6c and pr6d.

I(1)-superfamily conotoxins and prediction of single D-amino acid occurrence.

The considerable diversity of Conus peptides in the I(1)-superfamily provides a rare opportunity to define parameters important for the post-translational l- to d-isomerization of amino acids. This subtlest of post-translational modifications is not readily detectable by most techniques, and it would be a considerable advance if one could predict its potential occurrence purely from gene sequences. We previously described three I(1)-conotoxins, iota-RXIA (formerly designated r11a), r11b and r11c, each containing a d-amino acid at the third position from the C-terminus.

Novel conantokins from Conus parius venom are specific antagonists of N-methyl-D-aspartate receptors.

We report the discovery and characterization of three conantokin peptides from the venom of Conus parius. Each peptide (conantokin-Pr1, -Pr2, and -Pr3) contains 19 amino acids with three gamma-carboxyglutamate (Gla) residues, a post-translationally modified amino acid characteristic of conantokins. The new peptides contain several amino acid residues that differ from previous conantokin consensus sequences.

AlphaC-conotoxin PrXA: a new family of nicotinic acetylcholine receptor antagonists.

We have purified a novel paralytic peptide with 32 AA and a single disulfide bond from the venom of Conus parius, a fish-hunting species. The peptide has the following sequence: TYGIYDAKPOFSCAGLRGGCVLPONLROKFKE-NH2, where O is 4-trans-hydroxyproline. The peptide, designated alphaC-conotoxin PrXA (alphaC-PrXA), is the defining member of a new, structurally distinct family of Conus peptides.

Characterization of D-amino-acid-containing excitatory conotoxins and redefinition of the I-conotoxin superfamily.

Post-translational isomerization of l-amino acids to d-amino acids is a subtle modification, not detectable by standard techniques such as Edman sequencing or MS. Accurate predictions require more sequences of modified polypeptides. A 46-amino-acid-long conotoxin, r11a, belonging to the I-superfamily was previously shown to have a d-Phe residue at position 44.

Definition of the M-conotoxin superfamily: characterization of novel peptides from molluscivorous Conus venoms.

Most of the >50,000 different pharmacologically active peptides in Conus venoms belong to a small number of gene superfamilies. In this work, the M-conotoxin superfamily is defined using both biochemical and molecular criteria. Novel excitatory peptides purified from the venoms of the molluscivorous species Conus textile and Conus marmoreus all have a characteristic pattern of Cys residues previously found in the mu-, kappaM-, and psi-conotoxins (CC-C-C-CC).

Alpha S-conotoxin RVIIIA: a structurally unique conotoxin that broadly targets nicotinic acetylcholine receptors.

We report the purification and characterization of a new conotoxin from the venom of Conus radiatus. The peptide, alphaS-conotoxin RVIIIA (alphaS-RVIIIA), is biochemically unique with respect to its amino acid sequence, post-translational modification, and molecular targets. In comparison to other nicotinic antagonists from Conus venoms, alphaS-RVIIIA exhibits an unusually broad targeting specificity for nicotinic acetylcholine receptor (nAChR) subtypes, as assayed by electrophysiology.

Post-translational amino acid isomerization: a functionally important D-amino acid in an excitatory peptide.

The post-translational modification of an L- to a D-amino acid has been documented in relatively few gene products, mostly in small peptides under 10 amino acids in length. In this report, we demonstrate that a 46-amino acid polypeptide toxin has one D-phenylalanine at position 44, and that the epimerization from an L-Phe to a D-Phe has a dramatic effect on the excitatory effects of the peptide. In one electrophysiological assay carried out, the D-Phe-containing peptide was extremely potent, whereas the unmodified polypeptide had no biological activity, demonstrating that the chirality of the post-translationally modified amino acid is functionally significant.

Multiple 6-bromotryptophan residues in a sleep-inducing peptide.

We have characterized a novel sleep-inducing peptide comprising 33 amino acids with three residues of the unusual posttranslationally modified amino acid, 6-bromotryptophan. The peptide, termed "light sleeper" or the r7a conotoxin, was purified from the venom of the fish-hunting Conus radiatus. The light sleeper peptide has additional notable biochemical properties; it equilibrates slowly between two distinct conformers, and has four gamma-carboxyglutamate residues.

Efficient oxidative folding of conotoxins and the radiation of venomous cone snails.

The 500 different species of venomous cone snails (genus Conus) use small, highly structured peptides (conotoxins) for interacting with prey, predators, and competitors. These peptides are produced by translating mRNA from many genes belonging to only a few gene superfamilies. Each translation product is processed to yield a great diversity of different mature toxin peptides (approximately 50,000-100,000), most of which are 12-30 aa in length with two to three disulfide crosslinks.

Novel excitatory Conus peptides define a new conotoxin superfamily.

A new class of Conus peptides, the I-superfamily of conotoxins, has been characterized using biochemical, electrophysiological and molecular genetic methods. Peptides in this superfamily have a novel pattern of eight Cys residues. Five peptides that elicited excitatory symptomatology, r11a, r11b, r11c, r11d and r11e, were purified from Conus radiatus venom; four were tested on amphibian peripheral axons and shown to elicit repetitive action potentials, consistent with being members of the 'lightning-strike cabal' of toxins that effect instant immobilization of fish prey.

Conantokin-L, a new NMDA receptor antagonist: determinants for anticonvulsant potency.

Conantokins are N-methyl-D-aspartate receptor antagonist peptides found in the venoms of marine cone snails. Current intense interest in this peptide family stems from the discovery of their therapeutic potential as anticonvulsants. It was recently reported that conantokin-R is a highly potent anticonvulsant compound, with a protective index of 17.