Affiliation:
1. Arboviral Diseases Branch, Division of Vector-Borne Infectious Diseases, National Center for Infectious Diseases, Centers for Disease Control and Prevention, Fort Collins, Colorado
Abstract
SUMMARY
Among animal viruses, arboviruses are unique in that they depend on arthropod vectors for transmission. Field research and laboratory investigations related to the three components of this unique mode of transmission, virus, vector, and vertebrate host, have produced an enormous amount of valuable information that may be found in numerous publications. However, despite many reviews on specific viruses, diseases, or interests, a systematic approach to organizing the available information on all facets of biological transmission and then to interpret it in the context of the evolutionary process has not been attempted before. Such an attempt in this review clearly demonstrates tremendous progress made worldwide to characterize the viruses, to comprehend disease transmission and pathogenesis, and to understand the biology of vectors and their role in transmission. The rapid progress in molecular biologic techniques also helped resolve many virologic puzzles and yielded highly valuable data hitherto unavailable, such as characterization of virus receptors, the genetic basis of vertebrate resistance to viral infection, and phylogenetic evidence of the history of host range shifts in arboviruses. However, glaring gaps in knowledge of many critical subjects, such as the mechanism of viral persistence and the existence of vertebrate reservoirs, are still evident. Furthermore, with the accumulated data, new questions were raised, such as evolutionary directions of virus virulence and of host range. Although many fundamental questions on the evolution of this unique mode of transmission remained unresolved in the absence of a fossil record, available observations for arboviruses and the information derived from studies in other fields of the biological sciences suggested convergent evolution as a plausible process. Overall, discussion of the diverse range of theories proposed and observations made by many investigators was found to be highly valuable for sorting out the possible mechanism(s) of the emergence of arboviral diseases.
Publisher
American Society for Microbiology
Subject
Infectious Diseases,Microbiology (medical),Public Health, Environmental and Occupational Health,General Immunology and Microbiology,Epidemiology
Reference362 articles.
1. Ability of the Matrix Protein of Vesicular Stomatitis Virus To Suppress Beta Interferon Gene Expression Is Genetically Correlated with the Inhibition of Host RNA and Protein Synthesis
2. Aitken, T. H. G., R. W. Kowalski, B. J. Beaty, S. M. Buckley, J. D. Wright, R. E. Shope, and B. R. Miller. 1984. Arthropod studies with rabies-related Mokola virus. Am. J. Trop. Med. Hyg.33:945-952.
3. Alekseev, A. N., and S. P. Chunikhin. 1990. Exchange of tick-borne encephalitis virus between Ixodidae simultaneously feeding on animals with subthreshold levels of viremia. Med. Parazitol. Bolezni.2:48-50. (In Russian.)
4. Alekseev, A. N., S. P. Chunikhin, M. Y. Khkhkyan, and L. F. Stefutkina, L. F. 1991. Possible role of Ixodoidea salivary gland substrates as an adjuvant enhancing the arbovirus transmission. Med. Parazitol. Parazitol. Bolezni1:28-31. (In Russian.)
5. Alonso, W. J., T. D. Wyatt, D. W. Kelly. 2003. Are vectors able to learn about their hosts? A case study with Aedes aegypti mosquitoes. Mem. Inst. Oswaldo Cruz98:665-672.
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