Uric acid metabolism during pupal-adult development of Pieris brassicae

Abstract

Uric acid metabolism has been investigated during the pupal and adult stages of Pieris brassicae. Uric acid and its main metabolite, allantoic acid, have been quantified in various organs (fat body, gut, wings) during development, in order to determine synthesis, degradation, and transport phenomena. Both labelling experiments (using 2-14C uric acid, guanine, and guanosine) and enzymatic studies (xanthine dehydrogenase, guanine deaminase, and uricase) were performed.Labelled uric acid, when injected into a young pupa, accumulates preferentially into the fat body, and its degradation leads to an increase in allantoic acid, which is found chiefly in imaginal structures (wings, heads, body wall). Since uricase is present only in low levels through the pupal stage, only a small fraction of uric acid is metabolized.In the developing pharate adult, uric acid is transported via the haemolymph from fat body to the wings and gut. Male wings accumulate more uric acid than female wings. At emergence, a large amount of uric acid and most of the allantoic acid are excreted into the meconium, but not together; uric acid is excreted into the so-called ‘meconium 1’ containing ommochromes, whereas its metabolite is eliminated only after wing expansion into ‘meconium 2’, a colourless fluid. Shortly before emergence, the fat body recovers its ability to synthesize uric acid, a fraction of which is excreted within ‘meconium 1’.During adult life, the synthesis of uric acid occurs in the fat body and ovaries, where it is especially abundant. Ageing organs (wings, heads, testes) accumulate it markedly. A small fraction is excreted together with allantoic acid by the butterfly.Purine catabolism pathways have been investigated, showing that in guanine derivatives, the freebase state of guanine leads quickly to uric acid (and its metabolites), whereas 14C-guanosine may be transformed into nucleotide and incorporated efficiently into wing pteridines when it is injected at the time of adult pigmentation.Another purine derivative, identified as adenosine, has been shown to accumulate in male fat body just before adult emergence. Its amount increases during the first days of emerged adult life, and it corresponds to an alternative pathway of purine catabolism. Its absence in females is related to development of the ovaries.