Literature DB >> 15056359

Reassessing the role of defensin in the innate immune response of the mosquito, Aedes aegypti.

L C Bartholomay1, J F Fuchs, L-L Cheng, E T Beck, J Vizioli, C Lowenberger, B M Christensen.   

Abstract

Defensin is the predominant inducible immune peptide in Aedes aegypti. In spite of its activity against Gram-positive bacteria in vitro, defensin expression is detected in mosquitoes inoculated with Gram-positive or negative bacteria, or with filarial worms. Defensin transcription and expression are dependent upon bacterial dose; however, translation is inconsistent with transcription because peptide is detectable only in mosquitoes inoculated with large doses. In vitro translation assays provide further evidence for post-transcriptional regulation of defensin. Clearance assays show that a majority of bacteria are cleared before defensin is detected. In gene silencing experiments, no significant difference in mortality was observed between defensin-deficient and control mosquitoes after bacteria inoculation. These studies suggest that defensin may have an alternative function in mosquito immunity.

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Year:  2004        PMID: 15056359     DOI: 10.1111/j.0962-1075.2004.00467.x

Source DB:  PubMed          Journal:  Insect Mol Biol        ISSN: 0962-1075            Impact factor:   3.585


  22 in total

1.  Pathogenomics of Culex quinquefasciatus and meta-analysis of infection responses to diverse pathogens.

Authors:  Lyric C Bartholomay; Robert M Waterhouse; George F Mayhew; Corey L Campbell; Kristin Michel; Zhen Zou; Jose L Ramirez; Suchismita Das; Kanwal Alvarez; Peter Arensburger; Bart Bryant; Sinead B Chapman; Yuemei Dong; Sara M Erickson; S H P Parakrama Karunaratne; Vladimir Kokoza; Chinnappa D Kodira; Patricia Pignatelli; Sang Woon Shin; Dana L Vanlandingham; Peter W Atkinson; Bruce Birren; George K Christophides; Rollie J Clem; Janet Hemingway; Stephen Higgs; Karine Megy; Hilary Ranson; Evgeny M Zdobnov; Alexander S Raikhel; Bruce M Christensen; George Dimopoulos; Marc A T Muskavitch
Journal:  Science       Date:  2010-10-01       Impact factor: 47.728

2.  Description of the transcriptomes of immune response-activated hemocytes from the mosquito vectors Aedes aegypti and Armigeres subalbatus.

Authors:  Lyric C Bartholomay; Wen-Long Cho; Thomas A Rocheleau; Jon P Boyle; Eric T Beck; Jeremy F Fuchs; Paul Liss; Michael Rusch; Katherine M Butler; Roy Chen-Chih Wu; Shih-Pei Lin; Hang-Yen Kuo; I-Yu Tsao; Chiung-Yin Huang; Tze-Tze Liu; Kwang-Jen Hsiao; Shih-Feng Tsai; Ueng-Cheng Yang; Anthony J Nappi; Nicole T Perna; Chen-Cheng Chen; Bruce M Christensen
Journal:  Infect Immun       Date:  2004-07       Impact factor: 3.441

3.  An insight into the sialome of the blood-sucking bug Triatoma infestans, a vector of Chagas' disease.

Authors:  Teresa C F Assumpção; Ivo M B Francischetti; John F Andersen; Alexandra Schwarz; Jaime M Santana; José M C Ribeiro
Journal:  Insect Biochem Mol Biol       Date:  2007-11-17       Impact factor: 4.714

4.  Mosquito transcriptome profiles and filarial worm susceptibility in Armigeres subalbatus.

Authors:  Matthew T Aliota; Jeremy F Fuchs; Thomas A Rocheleau; Amanda K Clark; Julián F Hillyer; Cheng-Chen Chen; Bruce M Christensen
Journal:  PLoS Negl Trop Dis       Date:  2010-04-20

5.  The malaria vector mosquito Anopheles gambiae expresses a suite of larval-specific defensin genes.

Authors:  J M Meredith; H Hurd; M J Lehane; P Eggleston
Journal:  Insect Mol Biol       Date:  2008-04       Impact factor: 3.585

6.  Using RNA interference to determine the role of varisin in the innate immune system of the hard tick Dermacentor variabilis (Acari: Ixodidae).

Authors:  Wayne L Hynes; Martha M Stokes; Shannon M Hensley; S Michelle Todd; Daniel E Sonenshine
Journal:  Exp Appl Acarol       Date:  2008-05-28       Impact factor: 2.132

7.  The impact of insecticide resistance on Culex pipiens immunity.

Authors:  Julien Vézilier; Antoine Nicot; Julien Lorgeril; Sylvain Gandon; Ana Rivero
Journal:  Evol Appl       Date:  2012-12-11       Impact factor: 5.183

8.  Differential gene expression from midguts of refractory and susceptible lines of the mosquito, Aedes aegypti, infected with Dengue-2 virus.

Authors:  Olga L Barón; Raul J Ursic-Bedoya; Carl A Lowenberger; Clara B Ocampo
Journal:  J Insect Sci       Date:  2010       Impact factor: 1.857

9.  RNA-seq analyses of blood-induced changes in gene expression in the mosquito vector species, Aedes aegypti.

Authors:  Mariangela Bonizzoni; W Augustine Dunn; Corey L Campbell; Ken E Olson; Michelle T Dimon; Osvaldo Marinotti; Anthony A James
Journal:  BMC Genomics       Date:  2011-01-28       Impact factor: 3.969

10.  A transcriptome analysis of the Aedes aegypti vitellogenic fat body.

Authors:  Fabiana M Feitosa; Eric Calvo; Emilio F Merino; Alan M Durham; Anthony A James; Antonio G de Bianchi; Osvaldo Marinotti; Margareth L Capurro
Journal:  J Insect Sci       Date:  2006       Impact factor: 1.857
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