Abstract EN:

Aphids are highly specialized insects that feed on the phloem-sap of plants, the amino acid composition of which is unbalanced. Nevertheless, on such a diet, aphids complete bath high development rates and fast reproduction. This adaptive response suppose that aphids display an important amino acid metabolism. In this context, free amino acid pool was analyzed in Acyrthosiphon pisum reared on Vicia faba and on three artificial diets with different amino acid profiles: the two first diets (name "luzerne" and "fève diets) copying the unbalanced profiles of phloem saps of alfalfa and broad bean respectively, the last one, diet AP2, deriving from aphid carcass analysis. Whatever the food source was, the free amino acid pool of aphids displayed roughly similar patterns. The role played by the symbionts in this homeostasis was investigated with aposymbiotic aphids reared on the same diets. The treated aphids had significantly higher free amino acid content than control ones. In contrast to the symbiotic situation, the well balanced free amino acid pool were not maintained in aposymbiotic aphids. Then, the metabolism of sixteen amino acids was studied on diets AP2 and "luzerne" using metabolic radio-tracers in the pea aphid. The most amino acids were subject to substantial catabolism as measured by high 14C02 production. For the first time in an aphid, we directly demonstrated the synthesis of three essential amino-acids (threonine, isoleucine and lysine) from carbons of common amino acids. The synthesis of these three compounds was only observed from amino acids that were previously converted into glutamate. To explain the quantitative results of interconversion between amino acids, we propose a compartmentalization model with the intervention of bacterial endosymbiotes for the synthesis of essential amino-acids. According to our results, glutamate is the only amino acid provided by the insect to its symbiotic bacteria. It would be used for synthesis of the essential amino acids, they would then be used by the aphid.