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Feb 01, 2025;17 (2):

The Temperature-Associated Effects of Rift Valley Fever Virus Infections in Mosquitoes and Climate-Driven Epidemics: A Review.

Faustus A Azerigyik, Shelby M Cagle, William C Wilson, Dana N Mitzel, Rebekah C Kading
Author Information
  1. Faustus A Azerigyik: Center for Vector-Borne Infectious Diseases, Department of Microbiology, Immunology & Pathology, Colorado State University, Fort Collins, CO 80523, USA.
  2. Shelby M Cagle: Center for Vector-Borne Infectious Diseases, Department of Microbiology, Immunology & Pathology, Colorado State University, Fort Collins, CO 80523, USA. ORCID
  3. William C Wilson: Foreign Arthropod-Borne Animal Diseases Research Unit, Agricultural Research Service, United States Department of Agriculture, 1515 College Ave., Manhattan, KS 66502, USA. ORCID
  4. Dana N Mitzel: Foreign Arthropod-Borne Animal Diseases Research Unit, Agricultural Research Service, United States Department of Agriculture, 1515 College Ave., Manhattan, KS 66502, USA.
  5. Rebekah C Kading: Center for Vector-Borne Infectious Diseases, Department of Microbiology, Immunology & Pathology, Colorado State University, Fort Collins, CO 80523, USA. ORCID
PMID: 40006972 DOI: 10.3390/v17020217

Abstract

Rift Valley fever virus (RVFV) is a mosquito-borne zoonotic disease within the genus . Symptoms of the disease in animals range from moderate to severe febrile illness, which significantly impacts the livestock industry and causes severe health complications in humans. Similar to bunyaviruses in the genus transmitted by mosquitoes, RVFV progression is dependent on the susceptibility of the physical, cellular, microbial, and immune response barriers of the vectors. These barriers, shaped by the genetic makeup of the mosquito species and the surrounding environmental temperature, exert strong selective pressure on the virus, affecting its replication, evolution, and spread. The changing climate coupled with the aforementioned bottlenecks are significant drivers of RVF epidemics and expansion into previously nonendemic areas. Despite the link between microclimatic changes and RVF outbreaks, there is still a dearth of knowledge on how these temperature effects impact RVF transmission and vector competence and virus persistence during interepidemic years. This intricate interdependence between the virus, larval habitat temperatures, and vector competence necessitates increased efforts in addressing RVFV disease burden. This review highlights recent advancements made in response to shifting demographics, weather patterns, and conveyance of RVFV. Additionally, ongoing studies related to temperature-sensitive variations in RVFV-vector interactions and knowledge gaps are discussed.

Keywords

Culex and Aedes species Orthobunyavirus Phlebovirus mosquito genetics and immunity reassortment temperature effects transovarial transmission vector competence vector-borne diseases

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Grants

  1. 58-3022-1-001/United State Department of Agriculture, Agricultural Research Service

MeSH Term

Animals
Rift Valley Fever
Rift Valley fever virus
Mosquito Vectors
Temperature
Humans
Climate Change
Culicidae
Epidemics
Climate
Journal Article Review

Word Cloud

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