Influence of long-term hypoxia on the energy metabolism of the haemoglobin-containing bivalve Scapharca inaequivalvis: critical O2 levels for metabolic depression |
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| Authors: | G. van den Thillart G. van Lieshout K. Storey P. Cortesi A. de Zwaan |
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| Affiliation: | (1) Department of Biology, Gorlaeus laboratoria, University of Leiden, POB 9502, 2300-RA Leiden, The Netherlands;(2) Delta Institute for Hydrobiological Research, vierstraat 28, 4401-EA Yerseke, The Netherlands;(3) Department of Biology, Carleton University, K1S 5B6 Ottawa, Ontario, Canada;(4) Department of Biochemistry, University of Bologna, via Belmeloro 8/2, 40126 Bologna, Italy |
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| Abstract: | Summary The oxygen consumption rate of Scapharca inaequivalvis measured under normoxic conditions over 48 h showed a significant daily cycle with lowest values occurring shortly after the dark period; all hypoxia exposure experiments were carried out during the declining part of the cycle. Animals were exposed to a constant level of hypoxia for a 12-h period in a series of 14 experiments, each at a different oxygen tension. The oxygen consumption was measured continuously, and the extent of accumulation of end-products (succinate and propionate), and the inhibitory effect of adenosine triphosphate on phosphofructokinase were determined at the end of exposures. All three parameters (oxygen consumption, end-product accumulation, phosphofructokinase inhibition) showed a remarkable correlation with major changes occurring between 2.5 and 1.5 ppm (7 and 4 kPa) O2. The oxygen consumption rates showed a drop to 6% of the normoxic rate, but a consistent low consumption remained below 2 ppm (5.5 kPa) which partly recovered over the 12-h exposure period by about three-fold. Succinate and propionate accumulated progressively between 2.5 and 1.5 ppm (7 and 4 kPa); at [O2]<1.5 ppm (4kPa) the concentration did not increase further, indicating that anaerobic metabolism had reached a maximum. Over the same range, phosphofructokinase showed an increased sensitivity for adenosine triphosphate, the lower inhibitor concentration at 50% Vmax value pointing to depression of glycolytic rate. Despite the activation of anaerobic metabolism and the evident depression of aerobic metabolism, simple calculation demonstrates that Scapharca inaequivalvis relies mainly on aerobic metabolism even during severe hypoxia. It is assumed that the occurrence of haemoglobin in this species is essential for its capacity to survive long periods of hypoxia.Abbreviations ATP adenosine triphosphate - I50 inhibitor concentration at 50% Vmax - PFK phosphofructokinase - Pc critical PO2 - SEM standard error of mean - VO2 oxygen consumption rate - ww wet weight |
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| Keywords: | Hypoxia Phosphofructokinase Energy metabolism Haemoglobin Bivalve, Scapharca inaequivalvis |
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