AI Article Synopsis
- Ocean deoxygenation due to climate change prompts fish to adapt by regulating hemoglobin (Hb) expression for better oxygen uptake.
- Research focused on red drum fish showed significant up-regulation of a specific Hb subunit (hbα 2) within just 4 days of acclimation to low oxygen conditions.
- The increased Hb expression and changes in oxygen binding led to higher metabolic rates and improved aerobic performance in hypoxic environments, highlighting how Hb diversity aids fish in respiratory efficiency under stress.
Article Abstract
Ocean deoxygenation is a pressing concern in the face of climate change. In response to prolonged hypoxia, fishes have demonstrated the ability to dynamically regulate hemoglobin (Hb) expression to enhance oxygen (O) uptake. Here, we examined hypoxia-inducible Hb expression in red drum (Sciaenops ocellatus) and the subsequent implications on Hb-O binding affinity and aerobic scope. Fish were acclimated to 30 % air saturation for 1 d, 4 d, 8 d, 2 w, or 6 w, and red blood cells were collected for gene expression and biochemical profiling. Hypoxia acclimation induced significant up-regulation of one Hb subunit isoform (hbα 2) relative to control by 4 d with consistent upregulation thereafter. Hematocrit increased in hypoxia, with no changes in the allosteric modulator [NTP] at any time point. Changes in Hb expression co-occurred with a reduced Root effect (~26 % in normoxia, ~14 % in hypoxia) at a physiologically relevant pH while increasing O binding affinity (i.e., lower P). These changes correlated with increased maximum metabolic rate and aerobic scope relative to controls when fish were tested in hypoxia. These results demonstrate an important role for Hb multiplicity in improving O affinity and maximizing respiratory performance in hypoxia.
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| http://dx.doi.org/10.1016/j.scitotenv.2022.157880 | DOI Listing |
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