Diverse cellular morphologies during lumen maturation in Anopheles gambiae larval salivary glands.
M ChiuB TriggMabel L TaracenaMichael B WellsPublished in: Insect molecular biology (2020)
Mosquitoes are the greatest animal threat to human health, causing hundreds of millions of infections and around 1 million deaths each year. All mosquito-borne pathogens must traverse the salivary glands (SGs) to be transmitted to the next host, making this organ an ideal target for interventions. The adult SG develops from precursor cells located in the larval SG duct bud. Characterization of the larval SG has been limited. We sought to better understand larval SG architecture, secretion and gene expression. We developed an optimized method for larval SG staining and surveyed hundreds of larval stage 4 (L4) SGs using fluorescence confocal microscopy. Remarkable variation in SG cell and chromatin organization differed among individuals and across the L4 stage. Lumen formation occurred during L4 stage through secretion likely involving a coincident cellular apical lipid enrichment and extracellular vesicle-like structures. Meta-analysis of microarray data showed that larval SG gene expression is divergent from adult SGs, more similar to larval gastric cecae, but different from other larval gut compartments. This work highlights the variable cell architecture of larval Anopheles gambiae SGs and provides candidate targets for genetic strategies aiming to disrupt SGs and transmission of mosquito-borne pathogens.
Keyphrases
- aedes aegypti
- zika virus
- gene expression
- dengue virus
- drosophila melanogaster
- human health
- single cell
- risk assessment
- dna methylation
- physical activity
- cell therapy
- genome wide
- bone marrow
- transcription factor
- ultrasound guided
- machine learning
- mass spectrometry
- cell cycle arrest
- single molecule
- copy number
- big data
- pi k akt