Projekty
Novel peptides of the venom of the Hymenoptera (wasps and ants)
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The venom reservoirs of wasps or ants are obtained by dissection, venom is extracted and the peptides are isolated by RP-HPLC. The primary structures of peptides are determined with the help of mass spectrometry, enzymatic digestions and Edman degradation. Several peptides of mastoparan group and their analogues were already synthesized by the method of solid phase peptide synthesis providing a material for biological assays. In the antimicrobial test using the disc diffusion method carried on Petri dishes, some of these synthetic peptides exhibited strong antimicrobial activities against Bacillus subtilis and Escherichia coli in addition to the mast cell degranulation activity.
At the moment, biological testing of the isolated substances and their synthetic analogues consists primarily from the assay of
antimicrobial activities using different gram positive and gram negative bacteria, hemolytic test using rat red blood cells, mast
cell degranulating activity using rat mast cells and kinin activity (rat uterus). We intend to introduce also the test for the
chemotactic activity.
Antimicrobial peptides for treatment of osteomyelitisOsteomyelitis, the infection of the bones is a refractory disease which may lead to amputation or even death. Despite the improving of prevention, operating technique, postoperative care and better availability of antibiotics, bone infection remains one of the most serious complications in orthopedics and traumatology. The main reason is growing resistance of causative microorganisms such as Staphylococcus aureus, Enterobacter species, Streptococcus species and Pseudomonas aeruginosa against conventional antibiotics. Currently the treatment of osteomyelitis is based on antimicrobial therapy (traditional antibiotics) combined with surgical treatment and adjuvant therapy. A key problem is the treatment of the "dead space" after debridement and removal of sequester formation which is colonized by bacterial biofilm. One of the ways of increasing the therapeutic potential is filling the cavity in the infected bone with local carriers loaded with antibiotics. Local application of antimicrobial peptide (AMP) released from local carrier to the site of the bone infection seems to be very promising therapeutic method for treatment of osteomyelitis caused by resistant pathogens. Our former discoveries of potent AMP challenge us to apply synthetically available AMP for eradication of the bone infections. We will prepare series of analogs of native AMP named LL-III, select the most promising one and incorporate it into various local carriers and test it against bone infection in the in vitro experiments and in animal models. The design of this analog will aim to the improvement of its antimicrobial potency against bacteria as well as those in biofilm and to elimination of its side effects. This will include chemical modifications of native peptide structure resulting to the change of the desired parameters such as net charge, helicity, hydrophobicity, amphipathicity and stability against degradation in biological fluids. The development of the analog of interest will involve flexible and economic synthetic route. In parallel we will search for novel AMP from natural sources aiming to identify another lead compound of promising antimicrobial activity. The final goal of this proposal is to find out suitable combination of selected AMP with a local carrier as a safe formula for the treatment of osteomyelitis. Hopefully, some of our compounds will lead to the promising formula that can enter into preclinical and clinical development. |