Response of diamine oxidase and other plasma copper biomarkers to various dietary copper intakes in the rat and evaluation of copper absorption with a stable isotope
C. Feillet-coudray et al., Response of diamine oxidase and other plasma copper biomarkers to various dietary copper intakes in the rat and evaluation of copper absorption with a stable isotope, BR J NUTR, 83(5), 2000, pp. 561-568
There is a lack of agreement on index of Cu status and reliable and sensiti
ve biomarkers are still required. The purpose of this present work was to a
ssess in rats the sensitivity of diamine oxidase (DAO) activity, a recently
proposed biomarker, to modifications in dietary Cu intake in comparison wi
th other plasma biomarkers of Cu status. We also evaluated the effect of Cu
dietary level on Cu and Zn intestinal absorption. Results showed that plas
ma Cu and plasma caeruloplasmin were significantly decreased at day 8 compa
red with the control group (7.4 mg Cu/kg diet) while DAO activity was signi
ficantly decreased at day 12 of the deficient diet (0.61 mg Cu/kg diet). Cu
supplementation (35 mg Cu/kg diet) had no effect on any of the studied bio
markers of Cu status. In Cu-deficient rats plasma Cu and DAO activities wer
e normalized 4 d after return to the control diet while caeruloplasmin was
normalized later, at day 11. Apparent absorption values (%) of total Cu or
Cu-65 isotope were significantly increased in the Cu-deficient rats compare
d with the other groups and similar in the control and the Cu-supplemented
groups. The urinary excretion of total Cu or Cu-65 isotope were increased i
n the Cu-supplemented group compared with the other two groups. Both appare
nt absorption and urinary excretion of total Zn or Zn-67 isotope remained u
nchanged in the three experimental groups. In conclusion, DAO activity seem
ed to be less sensitive to Cu deficiency than plasma Cu or caeruloplasmin c
oncentrations. The present study also showed a significant increase in Cu i
ntestinal absorption with dietary Cu restriction but no decrease with Cu su
pplementation in the rat.