The respiratory burst activity of polymorphonuclear leucocytes (PMN)
was evaluated in eight Holstein cows from 8 weeks before until 6 weeks after calving
by chemiluminescence (CL). The CL response started to decrease 1 week before
parturition, reaching a minimum during the first 2 weeks after calving. From week
3 of lactation, CL increased again and returned to original levels by week 6 of
lactation. Plasma concentrations of 3-hydroxybutyric acid, total bilirubin and
bovine pregnancy-associated glycoprotein started to increase before parturition to
reach a maximum during the first or second week of lactation. The concentrations of
glutamic–oxaloacetic transaminase, lactate dehydrogenase, non-esterified fatty acids
and bilirubin increased after calving, reaching a maximum during the second week.
A small decrease in plasma cholesterol during the week before and after calving was
followed by an increase. The CL response of the PMN showed significant temporal
relationships with the plasma concentrations of 3-hydroxybutyric acid, bovine
pregnancy-associated glycoprotein, bilirubin, glutamic–oxaloacetic transaminase,
non-esterified fatty acids; that with cholesterol was nearly significant. This means
that the change in the CL response with time coincided with the changes in plasma
concentrations of these substances with time and that these changes were
significantly related with each other. The results of this study show that the
decreased respiratory burst activity of bovine PMN around parturition may be
related to the extent of the metabolic and hormonal changes. Although the causative
relationships are not proven, these results support earlier results suggesting that
3-hydroxybutyric acid and bovine pregnancy-associated glycoprotein may directly
affect neutrophil function, whereas non-esterified fatty acids, cholesterol, bilirubin,
and liver enzymes may have potential as diagnostic markers of impaired neutrophil
function and consequently increased disease risk around parturition.