BACKGROUND: Understanding the tissue-specific molecular cross-talk mechanism during the mosquito-parasite interaction is of prime importance in the design of new strategies for malaria control. Because mosquito salivary glands are the final destination for the parasite maturation and transmission of vector-borne diseases, identification and characterization of salivary genes and their products are equally important in order to access their effect on the infectivity of the parasite. During the last five years there have been several studies on the sialomes of Anopheles mosquitoes, however very limited information is available on the changes in the salivary gland transcriptome in the presence of Plasmodium, and this information is limited to the mosquito Anopheles gambiae. METHODS: In this study we aimed to explore and identify parasite-induced transcripts from the salivary glands of Anopheles stephensi, using a subtractive hybridization protocol. RESULTS: Ninety-four percent of expressed sequence tags (ESTs) showed close homology to previously known families of mosquito salivary gland secretary proteins, representing the induced expression of alternative splicing and/or additional new members of the protein family. The remaining 6% of ESTs did not yield significant homology to any known proteins in the non-redundant database and thus may represent a class of unknown/novel salivary proteins. Primary analysis of the ESTs also revealed identification of several novel immune-related transcripts, including defensin and cecropins, probably involved in counter-activation of the antagonistic defense system. A comprehensive description of each family of proteins has been discussed in relation to the tissue-specific mosquito-parasite interaction. CONCLUSION: This is the first report on the identification of new putative salivary genes, presumably activated during parasite infection.
BACKGROUND: Understanding the tissue-specific molecular cross-talk mechanism during the mosquito-parasite interaction is of prime importance in the design of new strategies for malaria control. Because mosquito salivary glands are the final destination for the parasite maturation and transmission of vector-borne diseases, identification and characterization of salivary genes and their products are equally important in order to access their effect on the infectivity of the parasite. During the last five years there have been several studies on the sialomes of Anopheles mosquitoes, however very limited information is available on the changes in the salivary gland transcriptome in the presence of Plasmodium, and this information is limited to the mosquito Anopheles gambiae. METHODS: In this study we aimed to explore and identify parasite-induced transcripts from the salivary glands of Anopheles stephensi, using a subtractive hybridization protocol. RESULTS: Ninety-four percent of expressed sequence tags (ESTs) showed close homology to previously known families of mosquito salivary gland secretary proteins, representing the induced expression of alternative splicing and/or additional new members of the protein family. The remaining 6% of ESTs did not yield significant homology to any known proteins in the non-redundant database and thus may represent a class of unknown/novel salivary proteins. Primary analysis of the ESTs also revealed identification of several novel immune-related transcripts, including defensin and cecropins, probably involved in counter-activation of the antagonistic defense system. A comprehensive description of each family of proteins has been discussed in relation to the tissue-specific mosquito-parasite interaction. CONCLUSION: This is the first report on the identification of new putative salivary genes, presumably activated during parasite infection.
Authors: Ellen A Kearney; Paul A Agius; Victor Chaumeau; Julia C Cutts; Julie A Simpson; Freya J I Fowkes Journal: Elife Date: 2021-12-23 Impact factor: 8.140
Authors: Ana C Figueiredo; Daniele de Sanctis; Ricardo Gutiérrez-Gallego; Tatiana B Cereija; Sandra Macedo-Ribeiro; Pablo Fuentes-Prior; Pedro José Barbosa Pereira Journal: Proc Natl Acad Sci U S A Date: 2012-12-05 Impact factor: 11.205
Authors: Renato Pinheiro-Silva; Lara Borges; Luís Pedro Coelho; Alejandro Cabezas-Cruz; James J Valdés; Virgílio do Rosário; José de la Fuente; Ana Domingos Journal: Parasit Vectors Date: 2015-09-23 Impact factor: 3.876