Abstract
Simple SummaryRecently, an increased interest in high health-value food products rich in natural antioxidants has been observed. Milk and milk products are one of the richest sources of biologically active compounds with antioxidant properties in products of animal origin. Lipocalin-2 (LCN2) is a small secreted protein, which is involved in inflammatory processes. Due to the fact that LCN-2 can be produced by various types of cells in response to oxidative stress and LCN2 gene polymorphism has been associated with the somatic cells count in cow’s milk, the aim of this study was to validate the association of LCN2 polymorphism with antioxidant activity of milk from Holstein-Friesian cows. Four single nucleotide polymorphisms (SNPs) was identified, one of which g.98793763G>C was associated with higher antioxidant capacity in milk. The antioxidant capacity of milk also varied according to the age of cows, their daily milk yield, and somatic cell count (SCC) in milk.In the recent years, antioxidant properties of food products have become an important aspect for consumers. Milk is a very good source of easily absorbable proteins and minerals, as well as a valuable source of antioxidants. Lipocalin-2 (LCN2), given that, inter alia, it is produced in large quantities by various types of cells in response to oxidative stress caused by physical or chemical factors, it can be considered a protein that determines the total antioxidant capacity of milk. The main objective of this study was to analyze polymorphisms within the lipocalin-2 gene and to determine their impact on antioxidant activity of milk from Holstein-Friesian cows. The genotyping was carried out by sequencing of PCR products. To determine the antioxidant activity of milk, the Trolox equivalent antioxidant capacity (TEAC) method was used. A total of four polymorphic sites were identified in the examined segment of the bovine lipocalin-2 gene. It was shown that cows of the CC genotype at the locus g.98793763G>C produced milk of significantly higher antioxidant capacity. The antioxidant capacity of milk also varied according to the age of cows, their daily milk yield, and SCC in milk.
Highlights
The contemporary lifestyle of people, which is dynamic, stressful, and often unhealthy, affects the body by giving rise to many unfavorable changes which lead to chronic diseases and promote aging processes
A total of four polymorphic sites were identified in the examined segment of the bovine lipocalin-2 gene, which have already been provided with single nucleotide polymorphisms (SNPs) reference numbers (g.98793626A>G—rs 436227463, g. 98793763G>C—rs 133552604, g.98793812C>T—rs 135269094, and g.98793889G>A—rs 132900291)
Our studies showed that an analysis of genotypes within the locus g.98793763G>C of the lipocalin-2 gene may provide valuable information to select cows according to greater antioxidant capacity of milk produced by them
Summary
The contemporary lifestyle of people, which is dynamic, stressful, and often unhealthy, affects the body by giving rise to many unfavorable changes which lead to chronic diseases and promote aging processes. Inflammatory reaction increases the level of granulocytes (in particular neutrophils and macrophages), which are responsible for generating greater quantities of free radicals necessary to neutralize pathogens in the process of phagocytosis, as well as for producing proteins which protect epithelial cells from potentially harmful products of heavy oxidative stress. One of these proteins is lipocalin-2 (LCN2, NGAL—neutrophil gelatinase-associated lipocalin).
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