1. Protective Effect of Different Anti-Rabies Virus VHH Constructs against Rabies Disease in Mice
- Author
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Catelijne Stortelers, Aurélie Francart, Ingrid Ottevaere, Thomas Stohr, Sophie Lamoral, Heidi Rommelaere, Steven Van Gucht, Angela Wittelsberger, Sanne Terryn, Kris Meerschaert, Peter Vanlandschoot, Filip Callewaert, Anna Hultberg, and Michael Kalai
- Subjects
NANOBODIES ,medicine.medical_treatment ,lcsh:Medicine ,medicine.disease_cause ,Antibodies, Viral ,Biochemistry ,Mice ,INFECTION ,Tissue Distribution ,lcsh:Science ,Multidisciplinary ,Immune System Proteins ,biology ,DOMAIN ANTIBODY FRAGMENTS ,Viral Load ,IMMUNIZATION ,Female ,Antibody ,Immunoglobulin Heavy Chains ,Research Article ,Half-Life ,Rabies ,Intraperitoneal injection ,Immunology ,Antiviral Therapeutics ,IMMUNITY ,Microbiology ,Virus ,Antibodies ,MECHANISMS ,Cell Line ,Virology ,medicine ,Potency ,Animals ,Veterinary Sciences ,Rabies virus ,Lethal dose ,CENTRAL-NERVOUS-SYSTEM ,lcsh:R ,Biology and Life Sciences ,Proteins ,Single-Domain Antibodies ,medicine.disease ,PREVENTION ,Antibodies, Neutralizing ,Animal Models of Infection ,Disease Models, Animal ,Rabies Vaccines ,biology.protein ,Nasal administration ,lcsh:Q ,MONOCLONAL-ANTIBODIES ,CVS STRAIN - Abstract
Rabies virus causes lethal brain infection in about 61000 people per year. Each year, tens of thousands of people receive anti-rabies prophylaxis with plasma-derived immunoglobulins and vaccine soon after exposure. Anti-rabies immunoglobulins are however expensive and have limited availability. VHH are the smallest antigen-binding functional fragments of camelid heavy chain antibodies, also called Nanobodies. The therapeutic potential of anti-rabies VHH was examined in a mouse model using intranasal challenge with a lethal dose of rabies virus. Anti-rabies VHH were administered directly into the brain or systemically, by intraperitoneal injection, 24 hours after virus challenge. Anti-rabies VHH were able to significantly prolong survival or even completely rescue mice from disease. The therapeutic effect depended on the dose, affinity and brain and plasma half-life of the VHH construct. Increasing the affinity by combining two VHH with a glycine-serine linker into bivalent or biparatopic constructs, increased the neutralizing potency to the picomolar range. Upon direct intracerebral administration, a dose as low as 33 mu g of the biparatopic Rab-E8/H7 was still able to establish an anti-rabies effect. The effect of systemic treatment was significantly improved by increasing the half-life of Rab-E8/H7 through linkage with a third VHH targeted against albumin. Intraperitoneal treatment with 1.5 mg (2505 IU, 1 ml) of anti-albumin Rab-E8/H7 prolonged the median survival time from 9 to 15 days and completely rescued 43% of mice. For comparison, intraperitoneal treatment with the highest available dose of human anti-rabies immunoglobulins (65 mg, 111 IU, 1 ml) only prolonged survival by 2 days, without rescue. Overall, the therapeutic benefit seemed well correlated with the time of brain exposure and the plasma half-life of the used VHH construct. These results, together with the ease-of-production and superior thermal stability, render anti-rabies VHH into valuable candidates for development of alternative post exposure treatment drugs against rabies.
- Published
- 2014