The potential for flower nectar to allow mosquito to mosquito transmission of Francisella tularensis.

The potential for flower nectar to allow mosquito to mosquito transmission of Francisella tularensis.

Francisella tularensis is disseminated in nature by biting arthropods such as mosquitoes. The relationship between mosquitoes and F. tularensis in nature is highly ambiguous, due in part to the fact that mosquitoes have caused significant tularemia outbreaks despite being classified as a mechanical...

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Main Authors: Adam Kenney, Austin Cusick, Jessica Payne, Anna Gaughenbaugh, Andrea Renshaw, Jenna Wright, Roger Seeber, Rebecca Barnes, Aleksandr Florjanczyk, Joseph Horzempa
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2017-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5423603?pdf=render
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spelling doaj-44d2135b1f4741d6a2af9cf41ccfb5982020-11-25T02:48:54ZengPublic Library of Science (PLoS)PLoS ONE1932-62032017-01-01125e017515710.1371/journal.pone.0175157The potential for flower nectar to allow mosquito to mosquito transmission of Francisella tularensis.Adam KenneyAustin CusickJessica PayneAnna GaughenbaughAndrea RenshawJenna WrightRoger SeeberRebecca BarnesAleksandr FlorjanczykJoseph HorzempaFrancisella tularensis is disseminated in nature by biting arthropods such as mosquitoes. The relationship between mosquitoes and F. tularensis in nature is highly ambiguous, due in part to the fact that mosquitoes have caused significant tularemia outbreaks despite being classified as a mechanical vector of F. tularensis. One possible explanation for mosquitoes being a prominent, yet mechanical vector is that these insects feed on flower nectar between blood meals, allowing for transmission of F. tularensis between mosquitoes. Here, we aimed to assess whether F. tularensis could survive in flower nectar. Moreover, we examined if mosquitoes could interact with or ingest and transmit F. tularensis from one source of nectar to another. F. tularensis exhibited robust survivability in flower nectar with concentrations of viable bacteria remaining consistent with the rich growth medium. Furthermore, F. tularensis was able to survive (albeit to a lesser extent) in 30% sucrose (a nectar surrogate) over a period of time consistent with that of a typical flower bloom. Although we observed diminished bacterial survival in the nectar surrogate, mosquitoes that fed on this material became colonized with F. tularensis. Finally, colonized mosquitoes were capable of transferring F. tularensis to a sterile nectar surrogate. These data suggest that flower nectar may be capable of serving as a temporary source of F. tularensis that could contribute to the amplification of outbreaks. Mosquitoes that feed on an infected mammalian host and subsequently feed on flower nectar could deposit some F. tularensis bacteria into the nectar in the process. Mosquitoes subsequently feeding on this nectar source could potentially become colonized by F. tularensis. Thus, the possibility exists that flower nectar may allow for vector-vector transmission of F. tularensis.http://europepmc.org/articles/PMC5423603?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Adam Kenney
Austin Cusick
Jessica Payne
Anna Gaughenbaugh
Andrea Renshaw
Jenna Wright
Roger Seeber
Rebecca Barnes
Aleksandr Florjanczyk
Joseph Horzempa
spellingShingle Adam Kenney
Austin Cusick
Jessica Payne
Anna Gaughenbaugh
Andrea Renshaw
Jenna Wright
Roger Seeber
Rebecca Barnes
Aleksandr Florjanczyk
Joseph Horzempa
The potential for flower nectar to allow mosquito to mosquito transmission of Francisella tularensis.
PLoS ONE
author_facet Adam Kenney
Austin Cusick
Jessica Payne
Anna Gaughenbaugh
Andrea Renshaw
Jenna Wright
Roger Seeber
Rebecca Barnes
Aleksandr Florjanczyk
Joseph Horzempa
author_sort Adam Kenney
title The potential for flower nectar to allow mosquito to mosquito transmission of Francisella tularensis.
title_short The potential for flower nectar to allow mosquito to mosquito transmission of Francisella tularensis.
title_full The potential for flower nectar to allow mosquito to mosquito transmission of Francisella tularensis.
title_fullStr The potential for flower nectar to allow mosquito to mosquito transmission of Francisella tularensis.
title_full_unstemmed The potential for flower nectar to allow mosquito to mosquito transmission of Francisella tularensis.
title_sort potential for flower nectar to allow mosquito to mosquito transmission of francisella tularensis.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2017-01-01
description Francisella tularensis is disseminated in nature by biting arthropods such as mosquitoes. The relationship between mosquitoes and F. tularensis in nature is highly ambiguous, due in part to the fact that mosquitoes have caused significant tularemia outbreaks despite being classified as a mechanical vector of F. tularensis. One possible explanation for mosquitoes being a prominent, yet mechanical vector is that these insects feed on flower nectar between blood meals, allowing for transmission of F. tularensis between mosquitoes. Here, we aimed to assess whether F. tularensis could survive in flower nectar. Moreover, we examined if mosquitoes could interact with or ingest and transmit F. tularensis from one source of nectar to another. F. tularensis exhibited robust survivability in flower nectar with concentrations of viable bacteria remaining consistent with the rich growth medium. Furthermore, F. tularensis was able to survive (albeit to a lesser extent) in 30% sucrose (a nectar surrogate) over a period of time consistent with that of a typical flower bloom. Although we observed diminished bacterial survival in the nectar surrogate, mosquitoes that fed on this material became colonized with F. tularensis. Finally, colonized mosquitoes were capable of transferring F. tularensis to a sterile nectar surrogate. These data suggest that flower nectar may be capable of serving as a temporary source of F. tularensis that could contribute to the amplification of outbreaks. Mosquitoes that feed on an infected mammalian host and subsequently feed on flower nectar could deposit some F. tularensis bacteria into the nectar in the process. Mosquitoes subsequently feeding on this nectar source could potentially become colonized by F. tularensis. Thus, the possibility exists that flower nectar may allow for vector-vector transmission of F. tularensis.
url http://europepmc.org/articles/PMC5423603?pdf=render
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