COPRISIN is an antibiotic substance extracted from Copris tripartitus. This study is intended to identify various cell biological stimuli that COPRISIN, widely known as an antibacterial substance, has on human cells and to identify its molecule mechanism. A variety of human cell lines were divided into epithelial cells including kidney cells or womb cells, and immunocyte including T cells or macrophages and, after their being cultivated and maintained, cell biological changes of the respective cells according to COPRISIN treatment were compared. As a result, it was confirmed that, different from other experiment cells, COPRISIN specifically caused cell kill in T cells and macrophages. That is, fragmentation of DNA, typical characteristics observed in the process of apoptosis, was confirmed in the nucleus of cells dying owing to COPRISIN treatment. An Apoptosis process is one dependent upon activity of caspase family protein, it was proved that COPRISIN medium cell kill process was one through a caspase-independent route such as AIF. Though it was found out that transcription of TNF-α and extracellular TNF-α secretion increased in blood cells stimulated by COPRISIN, it was also confirmed that TNF-α was a major medium factor in a COPRISIN induced cell kill process from the fact that a cell kill process by COPRISIN was not inhibited at all with TNF-α inhibiting antibody treatment. Above results revealed that COPRISIN, different from other tissue origin cells including kidney cells, can specifically induce apoptosis in immunocyte, which is caused by a caspase-independent cell signal transmission route.

To find some antibacterial peptides responsible for bacterial resistance, we performed differential hybridization with total cDNA probes which synthesized from normal and immunized larvae. Thirteen individual cDNA transcripts were expressed differentially in a total 1,862 random cDNA clones. One of upregulated genes is a novel member of the insect defensin-like peptide(Coprisin), a family of antibacterial peptide. Northern blot analysis showed that Coprisin was up-regulated at 4h and reached the highest point level at 16h after injection of E.coli. The deduced amino acid sequence of Coprisin was composed of 80 amino acids with predicted molecular weight of 8.6 kDa and PI of 8.72. Comparison of the deduced amino acid mature portion of Coprisin with defensin-like peptide of other insect indicated that it has 79.1% and 67.4% identity with Anomala cuprea and Allomyrina dichotoma, respectively. To find antibacterial active region of Coprisin, we synthesized four peptides corresponding to amino acid residues 1V-43N-NH2(CopN1), 5-16(CopN2), 19-30(CopN3) and 31-43(CopN4) of coprisin having amidated amino acid residues at their Cterminal. A 12-mer amidated at its C-terminus, ACALHCIALRKK-NH2 (Ala19-Lys30-NH2) was synthesized based on the deduced amino acid sequence, assumed to be an active site sequence. This peptides showed antibacterial activity against E.coli, Staphylococcus aureus, MRSA, Psedomonas syringae, and Pectobacterium carotovorium. Modified 9-mer peptide, LRCIALRKK-NH2, showed strong antibacterial activity than mellitin peptide used as a positive control against gram-negative and gram-positive bacteria. This peptide showed no haemolytic activity and quite stable at 100℃ for several hours of incubation and in a wide pH range(pH2-12). Therefore, this peptide may be a good candidate for the development of new drug with potent antibacterial activity without cytotoxicity.