A New Regioselective Synthesis of the Cysteine-Rich Peptide Linaclotide.

Linaclotide is a 14-amino acid residue peptide approved by the FDA for the treatment of irritable bowel syndrome with constipation (IBS-C), which activates guanylate cyclase C to accelerate intestinal transit. Here we show a new method for the synthesis of linaclotide through the completely selective formation of three disulfide bonds in satisfactory overall yields via mild oxidation reactions of the solid phase and liquid phase, using 4-methoxytrityl (Mmt), diphenylmethyl (Dpm) and 2-nitrobenzyl (O-NBn) protecting groups of cysteine as substrate, respectively.

Identification of Glutamine Synthetase as a Contryphan-Bt Binding Protein by His-Tag Pull-Down.

Background & Objective: Contryphan-Bt is a D-tryptophan-containing disulfide-constrained decapeptide recently isolated from the venom of Conus betulinus. The molecular targets of contryphans are controversial, and the identification of its interacting proteins may be of great importance.

Methods: His-tag pull-down assays were performed to investigate intracellular binding proteins of contryphan-Bt from rat brain lysate.

The first Conus genome assembly reveals a primary genetic central dogma of conopeptides in C. betulinus.

Although there are various Conus species with publicly available transcriptome and proteome data, no genome assembly has been reported yet. Here, using Chinese tubular cone snail (C. betulinus) as a representative, we sequenced and assembled the first Conus genome with original identification of 133 genome-widely distributed conopeptide genes.

A novel granulin homologue isolated from the jellyfish Cyanea capillata promotes proliferation and migration of human umbilical vein endothelial cells through the ERK1/2-signaling pathway.

Jellyfish grow rapidly and have a strong regenerative ability, indicating that they may express high levels of growth factors. Therefore, the aim of this research was to isolate the growth-promoting components from the jellyfish Cyanea capillata (C. capillata) and to further explore the underlying mechanisms.

High-Throughput Identification and Analysis of Novel Conotoxins from Three Vermivorous Cone Snails by Transcriptome Sequencing.

The venom of each species consists of a diverse array of neurophysiologically active peptides, which are mostly unique to the examined species. In this study, we performed high-throughput transcriptome sequencing to extract and analyze putative conotoxin transcripts from the venom ducts of 3 vermivorous cone snails (, , and ), which are resident in offshore waters of the South China Sea. In total, 118, 61, and 48 putative conotoxins (across 22 superfamilies) were identified from the 3 species, respectively; most of them are novel, and some possess new cysteine patterns.

Contryphan-Bt: A pyroglutamic acid containing conopeptide isolated from the venom of Conus betulinus.

A new member of the contryphans family was isolated from the venom of Conus betilinus, a vermivorous species distributed in the South China Sea. Its sequence, ZSGCO(D-W)KPWC-NH (Z, pyroglutamic acid), was established by a combination of de novo MS/MS sequencing and venom-duct transcriptome sequencing. The occurrence of D-Trp was confirmed by chemical synthesis and HPLC behavior comparison.

The Role of Individual Disulfide Bonds of μ-Conotoxin GIIIA in the Inhibition of Na1.4.

μ-Conotoxin GIIIA, a peptide toxin isolated from , preferentially blocks the skeletal muscle sodium channel Na1.4. GIIIA folds compactly to a pyramidal structure stabilized by three disulfide bonds.

High-throughput identification of novel conotoxins from the Chinese tubular cone snail (Conus betulinus) by multi-transcriptome sequencing.

Background: The venom of predatory marine cone snails mainly contains a diverse array of unique bioactive peptides commonly referred to as conopeptides or conotoxins. These peptides have proven to be valuable pharmacological probes and potential drugs because of their high specificity and affinity to important ion channels, receptors and transporters of the nervous system. Most previous studies have focused specifically on the conopeptides from piscivorous and molluscivorous cone snails, but little attention has been devoted to the dominant vermivorous species.

The three-dimensional solution structure of mini-M conotoxin BtIIIA reveals a disconnection between disulfide connectivity and peptide fold.

Conotoxins are bioactive peptides from the venoms of marine snails and have been divided into several superfamilies based on homologies in their precursor sequences. The M-superfamily conotoxins can be further divided into five branches based on the number of residues in the third loop of the peptide sequence. Recently two M-1 branch conotoxins (tx3a and mr3e) with a C1-C5, C2-C4, C3-C6 disulfide connectivity and one M-2 branch conotoxin (mr3a) with a C1-C6, C2-C4, C3-C5 disulfide connectivity were described.

Critical effect of peptide cyclization on the potency of peptide inhibitors against Dengue virus NS2B-NS3 protease.

Dengue virus (DENV) infection is a serious public health threat worldwide that demands effective treatment. In the search for potent virus protease inhibitors, several cone snail venoms were screened against serotype 2 DENV NS2B-NS3 protease, and one conotoxin, MrIA, was identified to have inhibitory activity. The inhibitory activity was attributed to a disulfide bond-mediated loop, from which rational optimization was made to improve the potency and stability.

Two novel O-superfamily conotoxins from Conus vexillum.

O-superfamily conotoxins include several families that have diverse pharmacological activity on Na+, K+ or Ca2+ channels. These superfamily toxins have been mainly found in fish-hunting and mollusk-hunting Conus species. Here, we reported two novel O-superfamily conotoxins, vx6a and vx6b, purified from a worm-hunting cone snail, Conus vexillum.

A novel M-superfamily conotoxin with a unique motif from Conus vexillum.

Cone snails are tropical marine mollusks that envenomate prey with a complex mixture of neuropharmacologically active compounds for the purpose of feeding and defence, each evolved to act in a highly specific manner on different parts of the nervous system. Here, we report the peptide purification, molecular cloning, chemical synthesis, and functional characterization of a structurally unique toxin isolated from the venom of Conus vexillum. The novel peptide, designated Vx2, was composed of 21 amino acid residues cross-linked by 3 disulfide bonds (WIDPSHYCCCGGGCTDDCVNC).

[Determination of primary structure of a novel peptide from mistletoe and its antitumor activity].

Aim: To study the antitumor peptide components in the stems and leaves of mistletoe (Viscum coloratum (Kom.) Nakai), the primary structure of the novel peptide was elucidated.

Methods: Cation exchange, gel filtration and HPLC were employed for isolation and purification.

A novel conotoxin from Conus betulinus, kappa-BtX, unique in cysteine pattern and in function as a specific BK channel modulator.

A novel conotoxin, kappa-conotoxin (kappa-BtX), has been purified and characterized from the venom of a worm-hunting cone snail, Conus betulinus. The toxin, with four disulfide bonds, shares no sequence homology with any other conotoxins. Based on a partial amino acid sequence, its cDNA was cloned and sequenced.