Abstract
Venomous animals from distinct phyla such as spiders, scorpions, snakes, cone snails, or sea anemones produce small toxic proteins interacting with a variety of cell targets. Their bites often cause pain. One of the ways of pain generation is the activation of TRPV1 channels. Screening of 30 different venoms from spiders and sea anemones for modulation of TRPV1 activity revealed inhibitors in tropical sea anemone Heteractis crispa venom. Several separation steps resulted in isolation of an inhibiting compound. This is a 56-residue-long polypeptide named APHC1 that has a Bos taurus trypsin inhibitor (BPTI)/Kunitz-type fold, mostly represented by serine protease inhibitors and ion channel blockers. APHC1 acted as a partial antagonist of capsaicin-induced currents (32 +/- 9% inhibition) with half-maximal effective concentration (EC(50)) 54 +/- 4 nm. In vivo, a 0.1 mg/kg dose of APHC1 significantly prolonged tail-flick latency and reduced capsaicin-induced acute pain. Therefore, our results can make an important contribution to the research into molecular mechanisms of TRPV1 modulation and help to solve the problem of overactivity of this receptor during a number of pathological processes in the organism.
Highlights
During the evolutionary process, different poisonous animals combined a set of bioactive compounds in their venoms used mainly to paralyze prey and/or as a defense against predators [1, 2]
We have found a sea anemone polypeptide representing the first polypeptide inhibitor of TRPV1
Isolation of analgesic polypeptide HC1 (APHC1)—Thirty different venoms from poisonous animals were tested for TRPV1 inhibition activity
Summary
Different poisonous animals combined a set of bioactive compounds in their venoms used mainly to paralyze prey and/or as a defense against predators [1, 2]. This is a 56-residue-long polypeptide named APHC1 that has a Bos taurus trypsin inhibitor (BPTI)/Kunitztype fold, mostly represented by serine protease inhibitors and ion channel blockers. APHC1 acted as a partial antagonist of capsaicin-induced currents (32 ؎ 9% inhibition) with half-maximal effective concentration (EC50) 54 ؎ 4 nM. The stage of active compound isolation was carried out on a reverse-phase column Jupiter C5 (Phenomenex) 4.6 ϫ 150 mm in a linear gradient of acetonitrile concentration in the presence of 0.1% trifluoroacetic acid (Fig. 1, 4th stage).
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