Differential protein composition of bovine whey: A comparison of whey from healthy animals and from those with clinical mastitis

Hogarth, Caroline J.; Fitzpatrick, J. L.; Nolan, A. M.; Young, Fiona; Pitt, Andrew R.; Eckersall, P.D.

doi:10.1002/pmic.200300723

Cited by 134 publications

(159 citation statements)

References 20 publications

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“…This is in part due to the dominance of the six major milk proteins (a S1 -casein, a S2 -casein, b-casein, k-casein, b-lactoglobulin and a-lactalbumin), and the unavailability, until recently, of suitable high-resolution protein separation methods, and sensitive identification technologies. Initial studies resolving milk proteins by two-dimensional electrophoresis and identifying them using MS identified only a small number of additional proteins (Hogarth et al, 2004). However, with the continued development of proteomics technologies and improvement of bovine protein sequence databases, a hitherto hidden complexity has been revealed in the repertoire of proteins present in milk.…”

Section: Proteomicsmentioning

confidence: 99%

Host-defence-related proteins in cows’ milk

Wheeler

Smolenski

Harris

et al. 2012

Animal

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Milk is a source of bioactive molecules with wide-ranging functions. Among these, the immune properties have been the best characterised. In recent years, it has become apparent that besides the immunoglobulins, milk also contains a range of minor immune-related proteins that collectively form a significant first line of defence against pathogens, acting both within the mammary gland itself as well as in the digestive tract of the suckling neonate. We have used proteomics technologies to characterise the repertoire of host-defence-related milk proteins in detail, revealing more than 100 distinct gene products in milk, of which at least 15 are known host-defence-related proteins. Those having intrinsic antimicrobial activity likely function as effector proteins of the local mucosal immune defence (e.g. defensins, cathelicidins and the calgranulins). Here, we focus on the activities and biological roles of the cathelicidins and mammary serum amyloid A. The function of the immune-related milk proteins that do not have intrinsic antimicrobial activity is also discussed, notably lipopolysaccharide-binding protein, RNase4, RNase5/angiogenin and cartilage-glycoprotein 39 kDa. Evidence is shown that at least some of these facilitate recognition of microbes, resulting in the activation of innate immune signalling pathways in cells associated with the mammary and/or gut mucosal surface. Finally, the contribution of the bacteria in milk to its functionality is discussed. These investigations are elucidating how an effective first line of defence is achieved in the bovine mammary gland and how milk contributes to optimal digestive function in the suckling calf. This study will contribute to a better understanding of the health benefits of milk, as well as to the development of high-value ingredients from milk.

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Section: Proteomicsmentioning

confidence: 99%

Host-defence-related proteins in cows’ milk

Wheeler

Smolenski

Harris

et al. 2012

Animal

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“…Albumin is a plasma protein whose elevation in milk indicates disintegration of the blood-milk barrier (Vangroenweghe et al, 2004). The observed elevation in milk albumin after high-dose post-ruminal infusion of LNA was consistent with changes in the protein composition of milk seen during naturally and experimentally induced mastitis (Hogarth et al, 2004;Boehmer et al, 2008;Boehmer et al, 2010;Ibeagha-Awemu et al, 2010). In the current study, the elevated albumin and SCC in milk were accompanied by disintegration of the blood-milk barrier, suggesting a metabolic stress of mammary gland owing to the LNA infusion.…”

Section: Discussionmentioning

confidence: 55%

Effects of duodenal infusion of free α-linolenic acid on the plasma and milk proteome of lactating dairy cows

Yang

Wang

Yuan

et al. 2013

Animal

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This study is an exploratory analysis for understanding the effect of a duodenal infusion of an a-linolenic acid (LNA) on the plasma and milk proteome of lactating dairy cows. Four primiparous Holstein cows were fitted with duodenal cannulas and received 0, 100, 200, 300 and 400 g/day of LNA in a two-treatment crossover design. Blood and milk were collected for determination of protein composition by two-dimensional gel electrophoresis. Alteration of protein spots was detected and identified using matrix-assisted laser desorption/ionization time-of-flight/time-of-flight tandem mass spectrometry (MALDI-TOF-TOF MS). Plasma haptoglobin levels, and milk b-casein A2, a s1 -casein variant and albumin, did not differ in cows after infusion of 0, 100, 200 and 300 g/day of LNA, but were increased after the cows received duodenal infusion of 400 g/day of LNA. Western blot analysis of haptoglobin expression in plasma confirmed the alterations in protein expression seen using MS. This study demonstrated that infusion of high doses of LNA by duodenal cannula can result in metabolic stress within the bovine intestine and in changes in milk composition.

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“…The use of comparative proteomics to analyse differential milk protein expression in whey from milk collected from healthy cows and cows with subclinical mastitis, is highly significant for its effectiveness in finding biological marker molecules and elucidating the pathological mechanisms of the disease. Research has taken place into protein expression patterns in whey from milk from healthy cows and cows with clinical mastitis, and it was found that some identified proteins were associated with the mastitis (14,18). These results indicated that protein expression patterns changed in whey from subclinical mastitis cases, and that proteomic methods could be used to find new diagnostic markers of the disease.…”

Section: Introductionmentioning

confidence: 99%

Identification of Diagnostic Protein Markers of Subclinical Mastitis in Bovine Whey Using Comparative Proteomics

Bian

Ying

Qing-zhang

2014

Bulletin of the Veterinary Institute in Pulawy

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The proteomics of inflammatory response in whey from cows with subclinical mastitis were analysed. Whey protein lysates were separated on 24 cm dry IPG strips (pH 3-10 linear) and 24 cm dry IPG strips (pH 4-7) using two-dimensional electrophoresis. The results indicated that the whey proteins in milk from cows with subclinical mastitis are different from those in milk from healthy cows. All protein spots were found to have biologically relevant changes in relative abundance during subclinical mastitis using matrix-assisted laser desorption/ionisation time-of-flight mass spectrometry analysis, including β-1,4 galactosyltransferase, β-2 microglobulin, complement 3, α-1-acid glycoprotein, β-lactoglobulin A, α-S1 casein precursor , β-casein B, and serotransferrin precursor. The mRNA expression of these genes was verified by quantitative real-time PCR. These proteins are involved in signal transduction, binding, transport, and immune defence activity. The results suggest that the markers may be used for the diagnosis of subclinical mastitis.

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Differential protein composition of bovine whey: A comparison of whey from healthy animals and from those with clinical mastitis

Cited by 134 publications

References 20 publications

Host-defence-related proteins in cows’ milk

Host-defence-related proteins in cows’ milk

Effects of duodenal infusion of free α-linolenic acid on the plasma and milk proteome of lactating dairy cows

Identification of Diagnostic Protein Markers of Subclinical Mastitis in Bovine Whey Using Comparative Proteomics

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