Papel da trealose no metabolismo de larvas de Pyrearinus termitilluminas (coleoptera: elateridae) sob estresse hídrico / The role o trehalose in the metabolism of Pyresrinus termitilluminas larvae (coleoptera: elateridae) under hidric stress
AUTOR(ES)
Moacir Aluisio Torres
DATA DE PUBLICAÇÃO
2003
RESUMO
The life cycle of Pyrearinus termitilluminans (Coleoptera: Elateridae) takes place totally into the so-called luminous termite mounds located in Central Brazil, which are clearly observed during the rainy season. Light emission by the elaterid larvae acts like a trap attracting flying insects. The bioluminescence disappears in the dry months together with the food supply. The trehalose metabolism study described here could provide information about larva capacity to survive throughout hard climatic changes. Trehalose and glucose concentrations are determined in the larva extracts with a DIONEX® ion chromatography system. The trehalase activity was measured with 17 mM trehalose. The glycogen level was estimated with amyloglucosidase. In parallel oxidative stress associated to water deprivation was evaluated through determination of TBARS and the catalase, glutathione peroxidase and glutathione reductase activities. In larvae submitted to dryness in a growth chamber (25% humidity) we have found 80-fold higher trehalase activity (159.69±10.95 mU/animal) than in the control group raised under room conditions (2.02±1.41 mU/animal). Stressed larvae showed distinct trehalose and glucose contents (29.85±3.20 µmol/animal and 18.27±0.82 µmol/animal, respectively) when compared with the control group(64.61±1.54 µmol/animal and 2.16±0.11 µmol/animal, respectively), whereas the glycogen level was lower (11.53±2.01 mg/animal and 28.26±2.31 mg/animal, respectively). Elevation of the antioxidant enzyme levels (4-fold, 4.3-fold and 2.4-fold respectively) with maintenance of TBARS pointed to depletion to exacerbated production of reactive oxygen species. Insects submitted to water restriction lost about 35% wet weight. The observed increase of trehalase activity and concomitant decrease of trehalose level suggest that trehalose could be used as a metabolic water source. Moreover, the 10-fold higher glucose level in the stressed group could be used by the trehalose biosynthetic pathway as the glycogen level decreases in parallel. The trehalose metabolic and redox balance changes described here may shed light on the yet unknown physiological mechanisms of larval elaterid adaptation to water stress.
ASSUNTO(S)
elatevidae trealose bioluminescence estresse oxidativo elaterídeo trehalose bioluminescência oxidative stress
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