Journal
PATHOGENS
Volume 10, Issue 10, Pages -Publisher
MDPI
DOI: 10.3390/pathogens10101300
Keywords
Anopheles coluzzii; salivary glands; antimicrobial peptides; feeding behaviour; innate immunity; transmission
Categories
Funding
- Sapienza Research Project
- PhD program in Infectious Diseases, Microbiology and Public Health, the Sapienza University of Rome
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Salivary glands in mosquitoes play a crucial role in facilitating food acquisition, pathogen transmission, and immune protection. Studies have identified salivary gland-specific genes with unknown functions, some of which may have antimicrobial properties. Further research on these genes could lead to the discovery of novel antimicrobial peptides.
Salivary glands play a crucial tripartite role in mosquito physiology. First, they secrete factors that greatly facilitate both sugar and blood meal acquisition. Second, the transmission of pathogens (parasites, bacteria and viruses) to the vertebrate host requires both the recognition and invasion of the salivary glands. Third, they produce immune factors that both protect the organ from invading pathogens and are also able to exert their activity in the crop and the midgut when saliva is re-ingested during feeding. Studies on mosquito sialomes have revealed the presence of several female and/or male salivary gland-specific or enriched genes whose function is completely unknown so far. We focused our attention on these orphan genes, and we selected, according to sequence and structural features, a shortlist of 11 candidates with potential antimicrobial properties. Afterwards, using qPCR, we investigated their expression profile at 5 and 24 h after an infectious sugar meal (local challenge) or thoracic microinjection (systemic challenge) of Gram-negative (Escherichia coli, EC) or Gram-positive (Staphylococcus aureus, SA) bacteria. We observed a general increase in the transcript abundance of our salivary candidates between 5 and 24 h after local challenge. Moreover, transcriptional modulation was determined by the nature of the stimulus, with salivary gland-enriched genes (especially hyp15 upon SA stimulus) upregulated shortly after the local challenge and later after the systemic challenge. Overall, this work provides one of the first contributions to the understanding of the immune role of mosquito salivary glands. Further characterization of salivary candidates whose expression is modulated by immune challenge may help in the identification of possible novel antimicrobial peptides.
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