Abstract
BackgroundCumulating reports suggest that acute phase proteins (APPs) do not only play a role as systemic inflammatory mediators, but are also expressed in different tissues as local reaction to inflammatory stimuli. The present study aimed to evaluate presence and changes in luminal lung concentrations of the APPs haptoglobin (Hp), lipopolysaccharide binding protein (LBP), C-reactive protein (CRP), and lactoferrin (Lf) in calves with an acute respiratory disease experimentally induced by Chlamydia (C.) psittaci.ResultsIntra-bronchial inoculation of the pathogen resulted in a consistent respiratory illness. In venous blood of the infected calves (n = 13), concentrations of plasma proteins and serum LBP were assessed (i) before exposure and (ii) 8 times within 14 days after inoculation (dpi). Increasing clinical illness correlated significantly with increasing LBP—and decreasing albumin concentrations in blood, both verifying a systemic acute phase response.Broncho-alveolar lavage fluid (BALF) was obtained from all 13 calves experimentally infected with C. psittaci at 4, 9 and 14 dpi, and from 6 uninfected healthy calves. Concentrations of bovine serum albumin (BSA), Hp, LBP, CRP and Lf in BALF were determined by ELISA. In infected animals, absolute concentrations of LBP and Hp in BALF correlated significantly with the respiratory score. The quotient [LBP]/[BSA] in BALF peaked significantly in acutely infected animals (4 dpi), showed a time-dependent decrease during the recovery phase (9-14 dpi), and was significantly higher compared to healthy controls. Concentrations of Hp and Lf in BALF as well as [Hp]/[BSA]—and [Lf]/[BSA]-quotients decreased during the study in infected animals, but were never higher than in healthy controls. CRP concentrations and [CRP]/[BSA]-quotient did not express significant differences between infected and healthy animals or during the course of infection.ConclusionIn conclusion, absolute concentrations of LBP in blood and BALF as well as the quotient [LBP]/[BSA] in BALF perfectly paralleled the clinical course of respiratory illness after infection. Beside LBP, the suitability of Hp and Lf as local biomarkers of respiratory infections in cattle and their role in the local response to pathogens is worth further investigation, while CRP does not seem to play a role in local defense mechanisms of the bovine lung.
Highlights
Cumulating reports suggest that acute phase proteins (APPs) do play a role as systemic inflammatory mediators, but are expressed in different tissues as local reaction to inflammatory stimuli
lipopolysaccharide binding protein (LBP), albumin, and proteins assessed in blood sera The concentration of LBP in blood serum paralleled the clinical sings, being maximal in all animals on 2 and 3 dpi
Rank correlations revealed that blood concentrations of both bovine serum albumin (BSA) and LBP were significantly linked to the general clinical score and the respiratory score (Table 2)
Summary
Cumulating reports suggest that acute phase proteins (APPs) do play a role as systemic inflammatory mediators, but are expressed in different tissues as local reaction to inflammatory stimuli. In cattle the mRNA of this protein has been found constitutively in mammary gland, leukocytes [15], and 33 further tissues with comparatively high concentrations in the exocrine pancreas and the submandibular salivary gland [16]. The expression of Hp could be shown to increase more than 80-fold in mammary gland cells after focal udder infection of dairy cows [8]. This could explain that the concentration of Hp in milk increases several hours earlier than in blood [17]. Salivary Hp is proposed to serve as early biomarker for porcine virus infections [20] and as a stress marker [21]
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