Lipopolysaccharide challenge of the mammary gland in cows induces nitrosative stress that impairs milk oxidative stability

Silanikove, Nissim; Rauch-Cohen, A.; Shapiro, Fira; Arieli, A.; Merin, Uzi; Leitner, Gabriel

doi:10.1017/s1751731112000201

Cited by 30 publications

(54 citation statements)

References 40 publications

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“…Our results are consistent with previous studies noting that one of the roles of the PL system in milk is the formation of substances that prevent milk clotting during milk stasis or infection (Heegaard et al, 1994;Leitner et al, 2011;Silanikove et al, 2012). The involvement of the PA-PLG-PL system in regulating milk secretion (Silanikove et al, , 2009 and in the induction of mammary gland involution in rodents (Ossowski et al, 1979;Tonner et al, 2000) and ruminants (Shamay et al, 2002(Shamay et al, , 2003(Shamay et al, , 2005Silanikove et al, 2005Silanikove et al, , 2006 is well established.…”

Section: Natural Involution Is Preceded By Metabolic Adaptive Responsessupporting

confidence: 92%

“…Prevention of casein hydrolysis in milk stored within the mammary gland in ANI cows most likely has an important physiological role; namely, prevention of formation of clots during milk stasis, thus preventing uncontrolled (necrotic) inflammation (Heegaard et al, 1994;Leitner et al, 2011;Silanikove et al, 2012).…”

Section: Natural Involution Is Preceded By Metabolic Adaptive Responsesmentioning

confidence: 99%

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Early mammary gland metabolic and immune responses during natural-like and forceful drying-off in high-yielding dairy cows

Silanikove

Merin

Shapiro

et al. 2013

Journal of Dairy Science

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The present work compared metabolic and immune responses in genetically high-producing cows that produced a low amount of milk before expected involution and in cows with the same genetic potential that produced copious amounts of milk before their scheduled drying-off. Ten multiparous lactating Israeli Holstein cows producing approximately 10,500 L in the current lactation, without bacterial infection and scheduled for drying-off approximately 60 d before their expected parturition, were studied. Five of the cows that exhibited a sharp, spontaneous reduction in milk yield at the end of their lactation and produced less than ~14L/d were defined as cows approaching natural involution (ANI), and 5 cows that produced between 25 and 35 L/d were defined as cows approaching forced involution (AFI). Three days before scheduled drying-off, milking was stopped and milk samples were collected from each quarter. After milking cessation, only modest swelling was observed in the udders of the ANI cows. In the ANI cows, lactose and fat concentrations decreased and the fat:lactose concentration ratio indicated that on d 1 and 2 fat concentrations decreased faster than lactose concentration, whereas on d 3, the rate of reduction was about the same for lactose and fat. In contrast, in AFI cows, fat concentrations increased on d 1 and the fat:lactose ratio indicated that changes in fat secretion were minor compared with those of lactose secretion. Rennet clotting time of milk after drying-off in the ANI cows increased, whereas curd firmness decreased rapidly, such that mammary secretions did not coagulate on d 3. In the AFI cows, such significant changes were observed only on d 3. The inflammatory response increased in both groups, but at each stage the increase was greater in ANI cows than in AFI cows. On d 1, the increase in leukocyte numbers in the ANI cows was made up of mononuclear cells (i.e., T lymphocytes and macrophages). In contrast, in the AFI cows, we observed a marked increase in leukocyte numbers, mainly in the form of polymorphonuclear cells. Our data indicate that the abrupt mammary involution induced in AFI cows provoked signs of distress, which were associated with neutrophilia in milk. In contrast, in the ANI cows, cessation of milking occurred without evidence of engorgement of the udder. Physiological differences in ANI and AFI cows are distinct and are reflected in the differences in the leukocyte populations in milk.

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Section: Natural Involution Is Preceded By Metabolic Adaptive Responsessupporting

confidence: 92%

Section: Natural Involution Is Preceded By Metabolic Adaptive Responsesmentioning

confidence: 99%

Early mammary gland metabolic and immune responses during natural-like and forceful drying-off in high-yielding dairy cows

Silanikove

Merin

Shapiro

et al. 2013

Journal of Dairy Science

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“…Milk secretion is regulated by milk-borne negative feedback regulation system that responds to abiotic influences, such as milking frequency and heat stress (Silanikove et al 2006(Silanikove et al , 2009 and biotic effects, such as mammary gland infection (Leitner et al 2011a;Silanikove et al 2012). Casein derived peptides from plasmin activity activate the negative feed-back control on milk secretion and alter milk coagulation properties, which is mainly reflected in reduction of lactose concentration in the milk (Silanikove et al 2006;Leitner et al 2011a).…”

mentioning

confidence: 99%

Milk metabolites as indicators of mammary gland functions and milk quality

Silanikove

Merin

Shapiro

et al. 2014

Journal of Dairy Research

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The assumption, that metabolites derived from the activity of the mammary gland epithelial cells reflect changes in milk secretion and its coagulation properties, was tested in dairy cows. The experiment included cows with uninfected udders and cows with one of the glands infected by different bacteria specie. Analysis were carried at the cow level (including all four glands), or at the gland level. High and significant correlations among the concentrations of lactose, glucose, glucose-6-posphate, milk related respiratory index (the ratio between the concentrations of citrate/lactate+malate in milk) and milk-derived glycolytic index (the ratio between glucose-6-phosphate and glucose in milk) and milk clotting parameters were found. The physiological basis for these relations and their ability to predict the deterioration in milk quality in subclinically infected glands and in glands previously clinically infected with Escherichia coli are discussed.

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“…It appears that the H 2 O 2 generation at the time that the milk is ejected has an antibacterial effect. Whether such effect is solely to protect the mother against mastitis, as suggested by some (26), or has an equally important antimicrobial protective role for the neonate is unclear. The data from our study suggest that it may have both effects.…”

Section: Discussionmentioning

confidence: 99%

Human milk H2O2 content: does it benefit preterm infants?

et al. 2018

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BackgroundHuman milk has a high content of the antimicrobial compound hydrogen peroxide (HO). As opposed to healthy full-term infants, preterm neonates are fed previously expressed and stored maternal milk. These practices may favor HO decomposition, thus limiting its potential benefit to preterm infants. The goal of this study was to evaluate the factors responsible for HO generation and degradation in breastmilk.MethodsHuman donors' and rats' milk, along with rat mammary tissue were evaluated. The role of oxytocin and xanthine oxidase on HO generation, its pH-dependent stability, as well as its degradation via lactoperoxidase and catalase was measured in milk.ResultsBreast tissue xanthine oxidase is responsible for the HO generation and its milk content is dependent on oxytocin stimulation. Stability of the human milk HO content is pH-dependent and greatest in the acidic range. Complete HO degradation occurs when human milk is maintained, longer than 10 min, at room temperature and this process is suppressed by lactoperoxidase and catalase inhibition.ConclusionFresh breastmilk HO content is labile and quickly degrades at room temperature. Further investigation on breastmilk handling techniques to preserve its HO content, when gavage-fed to preterm infants is warranted.

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Lipopolysaccharide challenge of the mammary gland in cows induces nitrosative stress that impairs milk oxidative stability

Cited by 30 publications

References 40 publications

Early mammary gland metabolic and immune responses during natural-like and forceful drying-off in high-yielding dairy cows

Early mammary gland metabolic and immune responses during natural-like and forceful drying-off in high-yielding dairy cows

Milk metabolites as indicators of mammary gland functions and milk quality

Human milk H2O2 content: does it benefit preterm infants?

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