AI Article Synopsis
- Researchers used human monoclonal antibodies (humAbs) to explore how tetanus neurotoxin affects neurons and assess these antibodies as a potential alternative to hyperimmune sera for preventing and treating tetanus in mice.
- They identified two highly effective tetanus neurotoxin-specific antibodies that block the toxin's ability to bind to and enter neurons, providing insights into the disease's cellular mechanisms.
- The findings indicate that these antibodies could not only prevent experimental tetanus when administered beforehand but also effectively neutralize the toxin even after exposure, suggesting promising applications for human treatment in future clinical trials.
Article Abstract
We used human monoclonal antibodies (humAbs) to study the mechanism of neuron intoxication by tetanus neurotoxin and to evaluate these antibodies as a safe preventive and therapeutic substitute for hyperimmune sera to treat tetanus in mice. By screening memory B cells from immune donors, we selected 2 tetanus neurotoxin-specific mAbs with exceptionally high neutralizing activities and extensively characterized them both structurally and functionally. We found that these antibodies interfered with the binding and translocation of the neurotoxin into neurons by interacting with 2 epitopes, whose identification pinpoints crucial events in the cellular pathogenesis of tetanus. Our observations explain the neutralization ability of these antibodies, which we found to be exceptionally potent in preventing experimental tetanus when injected into mice long before the toxin. Moreover, their Fab derivatives neutralized tetanus neurotoxin in post-exposure experiments, suggesting their potential for therapeutic use via intrathecal injection. As such, we believe these humAbs, as well as their Fab derivatives, meet the requirements to be considered for prophylactic and therapeutic use in human tetanus and are ready for clinical trials.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8592554 | PMC |
| http://dx.doi.org/10.1172/JCI151676 | DOI Listing |
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