Project description:Pathological angiogenesis, the abnormal or excessive generation of blood vessels, plays an important role in many diseases including cancer, diabetic retinopathy, psoriasis, and arthritis. Additionally, increasing evidence supports the close linkage between angiogenesis and inflammation. Snake venoms are a rich natural source of biologically active molecules and carry rich potential for the discovery anti-angiogenic and anti-inflammatory modulators. Here, we isolated and purified a novel protein, ZK002, from the venom of the snake Deinagkistrodon acutus, and investigated its anti-angiogenic and anti-inflammatory activities and mechanisms.
Project description:Snake venom protein from Deinagkistrodon acutus (DA protein), one of the major venomous species in Taiwan, causes hemorrhagic symptoms that can lead to death. Although horse-derived antivenin is a major treatment, relatively strong and detrimental side effects are seen occasionally. In our study, yolk immunoglobulin (IgY) was purified from eggs, and DA protein was recognized using Western blotting and an enzyme-linked immunosorbent assay (ELISA), similar to therapeutic horse antivenin. The ELISA also indicated that specific IgY antibodies were elicited after the fifth booster, plateaued, and lasted for at least 3 months. To generate monoclonal single-chain variable fragment (scFv) antibodies, we used phage display technology to construct two libraries with short or long linkers, containing 6.24 × 10(8) and 5.28 × 10(8) transformants, respectively. After four rounds of biopanning, the eluted phage titer increased, and the phage-based ELISA indicated that the specific clones were enriched. Nucleotide sequences of 30 individual clones expressing scFv were analyzed and classified into four groups that all specifically recognized the DA venom protein. Furthermore, based on mass spectrometry, the scFv-bound protein was deduced to be snake venom metalloproteinase proteins. Most importantly, both IgY and mixed scFv inhibited the lethal effect in mice injected with the minimum lethal dosage of the DA protein. We suggest that together, these antibodies could be applied to the development of diagnostic agents or treatments for snakebite envenomation in the future.
