Dose Dependency and Individual Variability of the Lipopolysaccharide-Induced Bovine Acute Phase Protein Response

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Dose Dependency and Individual Variability of the Lipopolysaccharide-Induced Bovine Acute Phase Protein Response

S. Jacobsen¹, P. H. Andersen¹, T. Toelboell¹ and P. M. H. Heegaard²

¹ Department of Clinical Studies, Royal Veterinary and Agricultural University, Copenhagen, Denmark
² Department of Immunology and Biochemistry, Danish Veterinary Institute, Copenhagen, Denmark

Corresponding author: S. Jacobsen; e-mail: stj{at}kvl.dk.

In order to investigate the dose dependency and the individualvariability of the lipopolysaccharide (LPS)-induced acute phaseprotein response in cattle, 8 nonlactating, nonpregnant DanishHolstein cows were challenged 3 times each by intravenous injectionof increasing doses (10, 100, and 1000 ng/kg, consecutively)of Escherichia coli LPS with 3-wk intervals. All 3 LPS dosesresulted in a rapid increase in serum concentrations of haptoglobinand serum amyloid A (SAA) and a decrease in serum concentrationsof albumin in all 8 cows. Serum concentrations of acute phaseproteins (APP) remained altered for several days after eachLPS injection, and their increase or decrease was significantlyrelated to LPS dose. In addition to dose dependency, the responsewas also dependent on the individual, as APP concentrationsdiffered significantly among cows. To compare APP productionin 2 consecutive challenges, individual APP levels after thechallenge with 100 ng LPS/kg were correlated to levels attainedafter the challenge with 1000 ng LPS/kg. Serum amyloid A concentrationscorrelated between the 2 challenges, whereas haptoglobin concentrationstended to correlate; no correlation could be demonstrated betweenSAA and haptoglobin concentrations in either of the challenges,which suggests that the synthesis of haptoglobin and SAA areregulated in different ways. In conclusion, cattle are highlysusceptible to LPS, as very low doses of LPS elicited acutephase albumin, SAA, and haptoglobin responses. Concentrationsof APP not only reflect the magnitude of LPS exposure but arealso influenced by the ability of the individual cow to mountan acute phase response. The ability to produce SAA and haptoglobinmay be an innate characteristic of the individual, as responsesin consecutive challenges were quantitatively similar.

Key Words: lipopolysaccharide • serum amyloid A • haptoglobin • individual variation

Abbreviation key: APP = acute phase protein(s), AUC = area(s) under the curve, SAA = serum amyloid A, TNF = tumor necrosis factor

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