Decline of erythropoietin formation at continuous hypoxia is not due to feedback inhibition

KU Eckardt, J Dittmer, R Neumann… - American Journal of …, 1990 - journals.physiology.org
KU Eckardt, J Dittmer, R Neumann, C Bauer, A Kurtz
American Journal of Physiology-Renal Physiology, 1990journals.physiology.org
Serum erythropoietin (EPO) levels in response to hypoxia are known to decline before an
increase in blood oxygen carrying capacity. To define the possible mechanisms underlying
this phenomenon, we have investigated 1) how renal EPO mRNA content and EPO
production rate underlying the early kinetics of serum EPO levels change under different
degrees of normobaric hypoxia, and 2) if a feedback inhibition of either EPO formation or
EPO survival in the circulation exists by the hormone itself. We found that serum …
Serum erythropoietin (EPO) levels in response to hypoxia are known to decline before an increase in blood oxygen carrying capacity. To define the possible mechanisms underlying this phenomenon, we have investigated 1) how renal EPO mRNA content and EPO production rate underlying the early kinetics of serum EPO levels change under different degrees of normobaric hypoxia, and 2) if a feedback inhibition of either EPO formation or EPO survival in the circulation exists by the hormone itself. We found that serum immunoreactive EPO levels in rats peaked after 12-h exposure to 7.5 or 9% oxygen (2,949 +/- 600 and 756 +/- 108 mU/ml, respectively, mean +/- SE) and declined to 29 and 64% of peak levels, respectively, after 36 h of hypoxia. EPO levels in response to 11.5% oxygen showed no consistent change between 12 (122 +/- 21 mU/ml, mean +/- SE) and 36 h (182 +/- 35 mU/ml) of hypoxia. The decline in EPO levels under severe hypoxia (7.5% O2) was paralleled by a marked reduction in renal EPO mRNA content, indicating that it was primarily a result of diminished hormone production. The observed reductions in serum EPO after 36 h corresponded to preceding declines of calculated EPO production rates from 163- to 62-fold (7.5% O2) and 36- to 25-fold (9% O2) basal values. Application of 50 IU recombinant human EPO to rats 12 h, 6 h, or immediately before hypoxic exposure to mimic the early increase in EPO levels did not affect endogenous EPO formation during a subsequent hypoxic exposure of 12 h.(ABSTRACT TRUNCATED AT 250 WORDS)
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