Transmission Of Yersinia Pestis By Fleas: Molecular Mechanisms
National Institute Of Allergy And Infectious Diseases
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Abstract
Plague is a zoonosis that is present in wild rodent populations worldwide and is transmitted primarily by fleas. Yersinia pestis, the plague bacillus, is unique among the enteric group of gram-negative bacteria in having adopted an arthropod-borne route of transmission. Y. pestis has evolved in such a way as to be transmitted during the brief encounter between a feeding flea and a host. A transmissible infection depends on the ability of Y. pestis to grow in the flea as a biofilm that is embedded in a complex extracellular matrix. Bacteria in the biofilm phenotype are deposited into the dermis together with flea saliva, elements which cannot be satisfactorily mimicked by needle-injection of Y. pestis from laboratory cultures. The objective of this project is to identify and determine the function of Y. pestis genes that mediate flea-borne transmission and the initial encounter with the host innate immune system at the infection site in the skin. We are studying the interaction of Y. pestis with its insect vector by using an artificial feeding apparatus to infect fleas with uniform doses of wild type or specific Y. pestis mutants. We seek to identify Y. pestis genes that are required for the bacteria to infect the flea midgut and to produce a biofilm that blocks the flea foregut and that is required for efficient transmission. The strategy entails first identifying bacterial genes that are differentially expressed in the flea by gene expression analysis and other techniques. Specific mutations are then introduced into these genes, and the mutants tested for their ability to infect and block the flea vector. Identification of such transmission factors allows further studies into the molecular mechanisms of the bacterial infection of the flea vector. Detailed understanding of the interaction with the insect host may lead to novel strategies to interrupt the transmission cycle.[unreadable] During the last year, we have characterized the gene expression profile of Y. pestis during infection of the flea vector and identified new bacterial genes that are required to produce a transmissible infection in the flea. We determined that loss of the transcriptional regulator pseudogene rcsA of Y. pestis resulted in enhanced transmissibility of Y. pestis by fleas. We determined that the Y. pestis F1 capsule is important for flea-borne transmission of plague. We determined that the Y. pestis surface protein Ail is not required for flea-borne transmission, but that it induces a specific antibody response following transmisison by fleas. We have also developed models to examine host-parasite interactions in the dermis after transmission by flea bite and the effects of flea saliva on this interaction.
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