Application of self-assembly in polypeptide drugs: a review / 生物工程学报

Self-assembly refers to the spontaneous process where basic units such as molecules and nanostructured materials form a stable and compact structure. Peptides can self-assemble by non-covalent driving forces to form various morphologies such as nanofibers, nano layered structures, and micelles. Peptide self-assembly technology has become a hot research topic in recent years due to the advantages of definite amino acid sequences, easy synthesis and design of peptides. It has been shown that the self-assembly design of certain peptide drugs or the use of self-assembled peptide materials as carriers for drug delivery can solve the problems such as short half-life, poor water solubility and poor penetration due to physiological barrier. This review summarizes the formation mechanism of self-assembled peptides, self-assembly morphology, influencing factors, self-assembly design methods and major applications in biomedical field, providing a reference for the efficient use of peptides.

Comparative study on analgesic effect of tetrodotoxin in four acute pain models / 药学实践杂志

Objective To evaluate the analgesic effect of tetrodotoxin (TTX) in four types of acute pain models and provide experimental support for its rational application. Methods Mice or rats were intramuscularly pretreated with morphine (1 mg/kg) or TTX (0, 0.5, 1, 2, 4 and 8 μg/kg) 40 min before acetic acid writhing test, formalin stimulation test, hot plate test or tail flick test. Pain response or pain threshold were recorded, and inhibition rate was calculated during the tests. The arachidonic acid of serum was determined by Elisa. Results Significant analgesic effects were observed with morphine in all four acute pain models. TTX dose-dependently reduced the number of writhing induced by acetic acid and inhibited the pain response induced by formalin during phase I and phase II, with the highest inhibition rate of more than 80.00% in two pain models. TTX showed analgesic effect in tail flick test and hot plate test, with the highest inhibition rate of 25.00% and 19.79%, respectively. Both acetic acid and formalin increased arachidonic acid in animal serum, but TTX had no significant inhibitory effect on the releasing of arachidonic acid. Conclusion TTX showed significant analgesic effect in the chemical stimulation pain models induced by acetic acid and formalin, but limited analgesic effect was observed on the physical stimulation pain model induced by heat (hot plate and hot water). TTX may produce analgesic effect by blocking the inflammatory mediators mediating pain response.