Studies on the improvement of immunogenicity of elapid snake postsynaptic neurotoxins
Issued Date
2023
Copyright Date
1991
Language
eng
File Type
application/pdf
No. of Pages/File Size
xvi, 112 leaves : ill.
Access Rights
restricted access
Rights Holder(s)
Mahidol University
Bibliographic Citation
Thesis (Ph.D. (Microbiology))--Mahidol University, 1991
Suggested Citation
Patcharee Sunthornandh Studies on the improvement of immunogenicity of elapid snake postsynaptic neurotoxins. Thesis (Ph.D. (Microbiology))--Mahidol University, 1991. Retrieved from: https://repository.li.mahidol.ac.th/handle/20.500.14594/89643
Title
Studies on the improvement of immunogenicity of elapid snake postsynaptic neurotoxins
Alternative Title(s)
การศึกษาเพื่อเพิ่มความสามารถในการกระตุ้นการสร้างแอนติบอดี้ในหนูต่ออิมมูโนเจนชนิดต่างๆ ที่เตรียมจากพิษประสาทของงูพิษในวงศ์ Elapidae
Author(s)
Abstract
Nine polymeric forms and conjugates of purified principal postsynaptic neurotoxins of Naja naja siamensis (NNS),OPhiophagus hannah (OH) and Bungarus fasciatus (BF) have been synthesized by controlled polymerization in which only 25-60 % of the toxins were allowed to react. A carbodiimide (ECDI) and glutaraldehyde (GA) were used as coupling agents while BSA, diphtheria toxiod (DT) and tetanus toxoid (TT) were used as carries. The antigenic mosaic of these immunogens were: I, NNS-ECDI; II, NNS-OH-BF-ECDI; III, NNS-BSA-ECDI; IV, NNS-TT-ECDI; V, NNS-OH-BF-TT-ECDI; VI, NNS-GA; VII, NNS-OH-BF-GA; VIII, NNS-DT-ECDI and IX, NNS-OH-BF-DT-ECDI. By using SDS-PAGE and radioactive toxin, each immunogen preparation was characterized in terms of molecular size and abundance of protein components, percent toxin reacted and toxin density. The relative immunogenicities of seven immunogens (I to VII) along with those of crude NNS venom and pure NNS postsynaptic neurotoxin were evaluated in groups of 8 rats using incomplete Freunds adjuvant (IFA). The levels of specific antibody against each of the neurotoxins were determined by ELISAs. Multiple comparisons between antibody responses to these immunogens were made. All the chemically modified immunogens were found to be at least as immunogenic as NNS venom. NNS-TT-ECDI gave the highest antibody response (2.7-6.2 fold higher than that induced by NNS venom) while pure NNS postsynapic neurotoxin was among the least immunogenuc. The 3 multispecific immunogens (II, V and VII) induced comparable specific antibodies to BF,OH and NNS neurotoxins. The results showed that the presence of protein carrier and the relative degree of toxin density affected the immunogenicities. In another set of experiment, the effect of 3 adjuvants: IFA, bentonite and squalene-Arlacel A were studied in groups of 8 rats using one monospecific (VIII) and two multispecific (VII and IX) immunogens while crude NNS venom was used as control. It was found that IFA gave the highest antibody responses with each of the 4 immunogens. The 3 chemically modified immunogens were also shown to be more immunogenic than the crude NNS venom in most adjuvants. The two multispecific immunogens (VII and IX) also stimulated high antibody titers against OH and BF neurotoxins in all 3 adjuvants. The results of this study should pave the way to the production of potent, polyvalent antivenoms against these and other deadly elapid snakes.
Degree Name
Doctor of Philosophy
Degree Level
Doctoral Degree
Degree Department
Faculty of Science
Degree Discipline
Microbiology
Degree Grantor(s)
Mahidol University