Potent neutralizing human monoclonal antibodies protect from Rift Valley fever encephalitis
Kaleigh A. Connors, … , James E. Crowe Jr., Amy L. Hartman
Kaleigh A. Connors, … , James E. Crowe Jr., Amy L. Hartman
Published August 1, 2024
Citation Information: JCI Insight. 2024;9(18):e180151. https://doi.org/10.1172/jci.insight.180151.
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Research Article Immunology Infectious disease

Potent neutralizing human monoclonal antibodies protect from Rift Valley fever encephalitis

Abstract

Rift Valley fever (RVF) is an emerging arboviral disease affecting both humans and livestock. In humans, RVF displays a spectrum of clinical manifestations, including encephalitis. To date, there are no FDA-approved vaccines or therapeutics for human use, although several are in preclinical development. Few small-animal models of RVF encephalitis exist, further complicating countermeasure assessment. Human mAbs RVFV-140, RVFV-268, and RVFV-379 are recombinant potently neutralizing antibodies that prevent infection by binding the RVFV surface glycoproteins. Previous studies showed that both RVFV-268 and RVFV-140 improve survival in a lethal mouse model of disease, and RVFV-268 has prevented vertical transmission in a pregnant rat model of infection. Despite these successes, evaluation of mAbs in the context of brain disease has been limited. This is the first study to our knowledge to assess neutralizing antibodies for prevention of RVF neurologic disease using a rat model. Administration of RVFV-140, RVFV-268, or RVFV-379 24 hours prior to aerosol exposure to the virulent ZH501 strain of RVFV resulted in substantially enhanced survival and lack of neurological signs of disease. These results using a stringent and highly lethal aerosol infection model support the potential use of human mAbs to prevent the development of RVF encephalitis.

Authors

Kaleigh A. Connors, Nathaniel S. Chapman, Cynthia M. McMillen, Ryan M. Hoehl, Jackson J. McGaughey, Zachary D. Frey, Morgan Midgett, Connor Williams, Douglas S. Reed, James E. Crowe Jr., Amy L. Hartman

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Figure 1

Human mAbs RVFV-140, RVFV-268, and RVFV-379 delivered prior to challenge significantly improve survival in rats exposed to pathogenic RVFV by inhalation.

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Human mAbs RVFV-140, RVFV-268, and RVFV-379 delivered prior to challenge...
(A) Experimental design. Rats pretreated (n = 42 total) 24 hours prior to exposure with 10 mg/kg control (purple) or RVFV (blue) human mAbs by i.p. injection. Rats were exposed via whole-body aerosol to pathogenic RVFV (average 500 PFU) at 0 dpi and monitored for morbidity. (B) Survival from aerosol challenge after a total of 4 separate experiments. The gray box indicates the clinical window of neurologic disease (6–10 dpi). (C) The mean change in weight and temperature from baseline across all experiments (n = 5), grouped by mAb. Data are shown as mean ± SD. (D) Rats were monitored for morbidity using a clinical scoring system. Healthy rats displayed no clinical symptoms and had normal temperature. Symptomatic animals displayed fever, ruffled fur, perforin staining, or had weight loss ≥5% baseline weight. Rats with neurological symptoms displayed circling, head tremor, paralysis, and seizure. Rats meeting euthanasia criteria were humanely euthanized. Log-rank (Mantel-Cox) test was used to compare survival curves between RVFV mAb and control. *P < 0.05; **P < 0.01; ***P < 0.001.