Biochemical bases for difference in oxygen affinity of maternal and fetal red blood cells of rattlesnakes

Abstract

Pregnancy in Crotalus viridis oreganus is associated with an increase in the nucleoside triphosphate (NTP) concentration and a concomitant decrease in the oxygen affinity of the adult red blood cell. However, although the red blood cells of non-pregnant adults and fetuses have indistinguishable NTP concentrations, they have different oxygen affinities. Therefore, red blood cell NTP concentrations alone cannot account for the oxygen-affinity difference between fetal and maternal red blood cells. Hemoglobins from adult and fetal snakes had similar intrinsic oxygen affinities; however, adult hemoglobin was more responsive to organic phosphate modulation compared with fetal hemoglobin. Structural differences, indicated by native gel electrophoresis and electrophoresis of the globins under denaturing conditions at high pH, corroborated functional differences of hemoglobins from fetus and adult. Therefore, the biochemical basis for the oxygen-affinity difference between maternal and fetal red blood cells in this rattlesnake appears to be unique. It appears to be caused by a functionally distinct fetal hemoglobin and the pregnancy-associated rise in red blood cell NTP levels in the mother.