Abstract
Sensing incoming nutrients is an important and critical event for intestinal cells to sustain life of the whole organism. The TORC is a major protein complex involved in monitoring the nutritional status and is activated by elevated amino acid concentrations. An important feature of haematophagy is that huge amounts of blood are ingested in a single meal, which results in the release of large quantities of amino acids, together with the haemoglobin prosthetic group, haem, which decomposes hydroperoxides and propagates oxygen-derived free radicals. Our previous studies demonstrated that reactive oxygen species (ROS) levels were diminished in the mitochondria and midgut of the Dengue fever mosquito, Aedes aegypti, immediately after a blood meal. We proposed that this mechanism serves to avoid oxidative damage that would otherwise be induced by haem following a blood meal. Studies also performed in mosquitoes have shown that blood or amino acids controls protein synthesis through TORC activation. It was already proposed, in different models, a link between ROS and TOR, however, little is known about TOR signalling in insect midgut nor about the involvement of ROS in this pathway. Here, we studied the effect of a blood meal on ROS production in the midgut of Rhodnius prolixus We observed that blood meal amino acids decreased ROS levels in the R. prolixus midgut immediately after feeding, via lowering mitochondrial superoxide production and involving the amino acid-sensing TORC pathway.
Highlights
Sensing incoming nutrients is a major signalling event that shapes physiology of most cell types, but is critical for intestinal cells in order to perform their role in providing nutrients to sustain life of the whole organism
As the actual capacity of haem to promote oxidative stress is linked to the functioning of reactive oxygen species (ROS)-generating cell metabolism [5,6], we studied here the effect of blood meal on redox balance in the midgut of R. prolixus
These results are in line with the hypothesis proposed for A. aegypti that some of the antioxidant mechanisms triggered by a blood meal are adaptations to prevent oxidative
Summary
Sensing incoming nutrients is a major signalling event that shapes physiology of most cell types, but is critical for intestinal cells in order to perform their role in providing nutrients to sustain life of the whole organism. We observed that blood meal amino acids decreased ROS levels in the R. prolixus midgut immediately after feeding, via lowering mitochondrial superoxide production and involving the amino acid-sensing TORC pathway.
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