Generation of hydrogen peroxide by a low molecular weight compound in whey of Holstein dairy cows

Abstract

Using an ultrafiltration membrane (molecular cut-off, 3000), low molecular weight compounds in bovine milk were collected (YM-3 filtrate). A hydrogen peroxide (H₂O₂)-like substance was generated in the YM-3 filtrate. This substance was undetected at 0 h, but increased in a time-dependent manner, peaking after 2 h of incubation at 38°C. After incubating the YM-3 filtrate with catalase and lactoperoxidase, the signal showing the presence of this substance disappeared. The substance was quantified using one chemiluminescence and three colorimetric H₂O₂detection systems. In all systems, their estimates were within the same range. The amount of substance, as estimated by the chemiluminescence H₂O₂detection system, was correlated with that estimated by the other three colorimetric systems (r=0·98, 0·95 and 0·87). The substance was eluted at the same position as H₂O₂by gel filtration on Superdex 30. Thus, the substance had the same characteristics as H₂O₂. An H₂O₂-generating substance in either the YM-3 filtrate or whey had a molecular mass of about 600. In this study, we clarify that bovine milk is capable of generating H₂O₂by utilizing a low molecular weight compound. Thus, we present a new type of H₂O₂-supplying system in bovine milk.