The evolution of Root effect hemoglobins in the absence of intracellular pH protection of the red blood cell: insights from primitive fishes |
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Authors: | Matthew D Regan Colin J Brauner |
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Institution: | (1) Department of Zoology, University of British Columbia, 6270 University Boulevard, Vancouver, BC, Canada |
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Abstract: | The Root effect, a reduction in blood oxygen (O2) carrying capacity at low pH, is used by many fish species to maximize O2 delivery to the eye and swimbladder. It is believed to have evolved in the basal actinopterygian lineage of fishes, species
that lack the intracellular pH (pHi) protection mechanism of more derived species’ red blood cells (i.e., adrenergically activated Na+/H+ exchangers; βNHE). These basal actinopterygians may consequently experience a reduction in blood O2 carrying capacity, and thus O2 uptake at the gills, during hypoxia- and exercise-induced generalized blood acidoses. We analyzed the hemoglobins (Hbs) of
seven species within this group American paddlefish (Polyodon spathula), white sturgeon (Acipenser transmontanus), spotted gar (Lepisosteus oculatus), alligator gar (Atractosteus spatula), bowfin (Amia calva), mooneye (Hiodon tergisus), and pirarucu (Arapaima gigas)] for their Root effect characteristics so as to test the hypothesis of the Root effect onset pH value being lower than those
pH values expected during a generalized acidosis in vivo. Analysis of the haemolysates revealed that, although each of the
seven species displayed Root effects (ranging from 7.3 to 40.5% desaturation of Hb with O2, i.e., Hb O2 desaturation), the Root effect onset pH values of all species are considerably lower (ranging from pH 5.94 to 7.04) than
the maximum blood acidoses that would be expected following hypoxia or exercise (pHi 7.15–7.3). Thus, although these primitive fishes possess Hbs with large Root effects and lack any significant red blood cell
βNHE activity, it is unlikely that the possession of a Root effect would impair O2 uptake at the gills following a generalized acidosis of the blood. As well, it was shown that both maximal Root effect and
Root effect onset pH values increased significantly in bowfin over those of the more basal species, toward values of similar
magnitude to those of most of the more derived teleosts studied to date. This is paralleled by the initial appearance of the
choroid rete in bowfin, as well as a significant decrease in Hb buffer value and an increase in Bohr/Haldane effects, together
suggesting bowfin as the most basal species capable of utilizing its Root effect to maximize O2 delivery to the eye. |
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