Twenty Years of Progress Toward West Nile Virus Vaccine Development

Kaiser, Jaclyn A.; Barrett, Alan D.T.

doi:10.3390/v11090823

Cited by 57 publications

(44 citation statements)

References 81 publications

(123 reference statements)

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“…Nowadays, effective licensed vaccines, either attenuated (yellow fever, Dengue, and Japanese encephalitis), or inactivated (Japanese encephalitis, tick-borne encephalitis, and Kyasanur forest disease), are available against several flaviviruses. Nevertheless, none has been licensed for human use against WNV, and none of the six vaccines assayed in humans have progressed further than to phase I/II clinical trials [ 31 ]. Even more, only two attenuated recombinant candidates expressing the WNV prM and E proteins, ChimeriVax (in a yellow fever virus backbone) and rWN/DEN4Δ30 (in a truncated Dengue virus 4 backbone), induced strong immunity after a single dose [ 32 , 33 ].…”

Section: Vaccinesmentioning

confidence: 99%

Animal and Human Vaccines against West Nile Virus

Saiz

2020

Pathogens

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West Nile virus (WNV) is a widely distributed enveloped flavivirus transmitted by mosquitoes, which main hosts are birds. The virus sporadically infects equids and humans with serious economic and health consequences, as infected individuals can develop a severe neuroinvasive disease that can even lead to death. Nowadays, no WNV-specific therapy is available and vaccines are only licensed for use in horses but not for humans. While several methodologies for WNV vaccine development have been successfully applied and have contributed to significantly reducing its incidence in horses in the US, none have progressed to phase III clinical trials in humans. This review addresses the status of WNV vaccines for horses, birds, and humans, summarizing and discussing the challenges they face for their clinical advance and their introduction to the market.

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Section: Vaccinesmentioning

confidence: 99%

Animal and Human Vaccines against West Nile Virus

Saiz

2020

Pathogens

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“…Since 1999, WNV has been estimated to cause more than 6 million human infections [13], with over 24,000 neurological disease cases and 2300 deaths in the U.S. In addition, in 2018, a large outbreak occurred in Europe involving over 2000 human cases in 15 countries [15]. Therefore, there is an urgent need to understand in-depth the pathogenesis of WNV and develop specific treatment strategies.…”

Section: Wnv Epidemiologymentioning

confidence: 99%

“…Despite the development of four licensed veterinary WNV vaccines, there are still no approved vaccines or antivirals available for human use. Although several clinical trials have been initiated with multiple vaccine candidates, none have proceeded to the final phases of clinical testing or are even close to meeting U.S. Food and Drug Administration (FDA) approval (reviewed in [15]). The general reasons for the lack of a human vaccine may include scientific challenges (mainly in obtaining protective immunity), safety concerns (including potential antibody-dependent enhancement responses to other flavivirus infections), difficulties in clinical study design (due to lack of enough WNV cases for a phase III vaccine efficacy study), and economic considerations [175].…”

Section: Immunotherapeutic Interventionmentioning

confidence: 99%

Current Understanding of West Nile Virus Clinical Manifestations, Immune Responses, Neuroinvasion, and Immunotherapeutic Implications

et al. 2019

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West Nile virus (WNV) is the most common mosquito-borne virus in North America. WNV-associated neuroinvasive disease affects all ages, although elderly and immunocompromised individuals are particularly at risk. WNV neuroinvasive disease has killed over 2300 Americans since WNV entered into the United States in the New York City outbreak of 1999. Despite 20 years of intensive laboratory and clinical research, there are still no approved vaccines or antivirals available for human use. However, rapid progress has been made in both understanding the pathogenesis of WNV and treatment in clinical practices. This review summarizes our current understanding of WNV infection in terms of human clinical manifestations, host immune responses, neuroinvasion, and therapeutic interventions.

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“…For the development of a vaccine for humans, many different platforms were used in preclinical studies, and many of them entered into phase I/II trials, including hydrogen peroxide–inactivated whole virus (HydroVax) vaccine (NCT02337868) ( 103 ), a recombinant truncated form of WNV E protein ( 104 ), recombinant chimeric live attenuated viral vectors, employing YFV ( 105 ), or MVA ( 106 ) delivering WNV prM/E proteins (NCT00442169), pDNA vaccines encoding prM/E (NCT00106769) ( 70 , 107 ). All the Envelope-based vaccines induced NAbs against both WNV lineages 1 and 2, but some candidates are unable to generate long-lasting antibody responses, requiring multiple administrations ( 103 , 108 , 109 ). Thus, further improvements are needed for the development of next-generation vaccines ( 110 ).…”

Section: Vaccines For Viral Infectious Diseases: State Of Artmentioning

confidence: 99%

Viral Emerging Diseases: Challenges in Developing Vaccination Strategies

et al. 2020

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In the last decades, a number of infectious viruses have emerged from wildlife or reemerged, generating serious threats to the global health and to the economy worldwide. Ebola and Marburg hemorrhagic fevers, Lassa fever, Dengue fever, Yellow fever, West Nile fever, Zika, and Chikungunya vector-borne diseases, Swine flu, Severe acute respiratory syndrome (SARS), Middle East respiratory syndrome (MERS), and the recent Coronavirus disease 2019 (COVID-19) are examples of zoonoses that have spread throughout the globe with such a significant impact on public health that the scientific community has been called for a rapid intervention in preventing and treating emerging infections. Vaccination is probably the most effective tool in helping the immune system to activate protective responses against pathogens, reducing morbidity and mortality, as proven by historical records. Under health emergency conditions, new and alternative approaches in vaccine design and development are imperative for a rapid and massive vaccination coverage, to manage a disease outbreak and curtail the epidemic spread. This review gives an update on the current vaccination strategies for some of the emerging/re-emerging viruses, and discusses challenges and hurdles to overcome for developing efficacious vaccines against future pathogens.

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Twenty Years of Progress Toward West Nile Virus Vaccine Development

Cited by 57 publications

References 81 publications

Animal and Human Vaccines against West Nile Virus

Animal and Human Vaccines against West Nile Virus

Current Understanding of West Nile Virus Clinical Manifestations, Immune Responses, Neuroinvasion, and Immunotherapeutic Implications

Viral Emerging Diseases: Challenges in Developing Vaccination Strategies

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