Chinese red head
The Chinese red-headed centipede, also known as the Chinese red head, (Scolopendra mutilans) is a centipede from East Asia (type locality: Japan). It averages 20 cm (8 in) in length and lives in damp environments.
In ancient Chinese traditions, this centipede is used for its healing properties. Putting a Chinese red head on a rash or other skin-disease is said to speed up the healing process. The roasted dry centipede is pulverized and used in Korea for the treatment of back pain, furuncles, and sores.
S. mutilans is known for harbouring little aggression to other centipedes, a trait very rare amongst giant centipedes, and allows it to be kept communally. Antimicrobial activities of the identified compounds were reported against Gram-positive and Gram-negative bacteria, fungi, viruses, and parasites, that possibly explain centipede's survival in harsh and polluted environments.
Females are incubator mothers, guarding the eggs by wrapping their bodies around their clutches until the eggs hatch.
S. mutilans differs from S. subspinipes in spination of the prefemur of the ventral legs, ventrally, dorsally, and medially.
S. mutilans, like other centipedes, is a predator that kills by injecting venom into its prey. Venom is injected to immobilize and break down internal tissues. Venoms of Scolopendridae, including Scolopendra mutilans, contain neurotoxins, which are suspected to be a significant fast-acting component in venoms of many centipedes. This species mainly feeds on live animals; plant materials are occasionally consumed but its consumption is considered negligible. To get hold of the prey, this centipede grabs prey with its anterior legs, and typically envenomates prey by stabbing it using its forcipules. Little quantitative ecological and behavioural work was done for centipedes. Some studies, however, have found that centipedes are highly selective and tend to strike at the head or thorax instead of the abdomen. If the bite was made on the abdomen, the centipede would usually reposition the prey and strike again on the head or thorax. Venom availability has a significant effect on predatory response. Returning to their normal attack rate after venom extraction takes more time when facing larger prey.
Research on these behaviours has suggested that the reason for centipedes to reposition their prey is to enhance the speed where neurotoxins in the venom arrive at the thoracic ganglia, where it controls limb movement or the brain. This explanation was based on the position of such ganglia locating on the abdominal side (i.e. ventral) side of the thorax, and the assumption that injecting venom in the prey's abdomen leads to venom dilution due to the mixing of fluids in the circulatory system and the guts; the distance where the venom has to travel to be effective also increases, making it less efficient in disabling the prey.
Two other concepts have been suggested to explain the reason for prey orientation - one suggested that venom is an expensive product to produce, hence venom conservation is essential; and the other concept suggested that striking the prey in that specific position (i.e. aligning the prey as the same orientation of the centipede) would allow the centipede to sufficiently restraint the prey until the venom takes effect.
Venoms of centipedes remained largely unstudied, and the components remain largely unknown. The venom of the Chinese red-headed centipede contains a small peptide toxin called RhTx, which increases activation of the TRPV1 ion channel, causing a localized burning pain. The crude venom is said to be toxic in mice and to induce platelet aggregation. In addition, another 26 neurotoxins belonging to 10 different groups of peptides have been identified. In January 2018, Chinese scientists found an antidote to the painful venom of centipede in the drug retigabine, used to treat epilepsy.
The biological actions of the toxins in centipede venom are mostly unknown. A peptide named S. mutilans venom toxin peptide (SsmTP) and S. mutilans 6 were identified in S. mutilans's venom. SsmTP consists of 66 amino acids, and its composition highly resembles those of neurotoxins. The peptide is found within the venom duct. SsmTP was found to be toxic to cells depending on the concentration administered. It promotes cell growth in low concentrations in vitro (i.e. outside a living organism), but is cytotoxic in high concentrations. A low concentration of SsmTP also protects cells from oxidative damage by inhibiting programmed cell death (apoptosis) and the inflammatory response initiator caspase-1.
Centipede venom generally contains a few different enzymes that are very different from other arthropods, where metalloprotease, an enzyme that breaks down protein plays an important role. Centipede venom has effects on skeletal muscles, heart muscles, and neurons, and the effects are attributed to the larger protein molecules in the venom.
Venoms of S. mutilans contain a diverse range of neurotoxins, including 26 neurotoxin-like peptides that belong to 10 different groups. Most of the 26 identified neurotoxin-like peptides have a different molecular structure compared to the neurotoxins found in spiders, snakes, scorpions, marine cone snails, and sea anemones. The functional mechanism of these peptides are similar to the neurotoxins of the mention venomous animals, yet their primary structures remain unique. A few were found to contain insecticidal properties and act on voltage-gated sodium, potassium, and calcium channels. It was found that both purified neurotoxins and unprocessed centipede venom are highly insecticidal, with the unprocessed venom being significantly stronger than all purified neurotoxins in insecticidal effects. Centipede venoms might have the potential to provide peptide candidates with potential pharmaceutical or agrochemical uses due to their high level of biochemical diversity.
