Abstract
The Maillard reaction between the lactose and milk proteins unavoidably occurs during the thermal treatment of milk. Although the impact of this reaction on protein nutrition and safety has been well-studied, whether a lactose glycation of milk proteins of the Maillard-type might affect the rats in their growth and intestinal morphology needs an investigation. In this study, caseinate and lactose-glycated caseinate were digested using pepsin and trypsin. Afterward, the resultant caseinate digest and glycated caseinate digest (lactose content of 13.5 g/kg of protein) at 100, 200, and 400 mg/kg body weight (BW)/d were assessed for their effects on the female weaned Wistar rats in terms of daily body weight gain, intestinal morphology, digestive and brush-border enzyme activities, as well as serum chemical indices. The results showed that glycated caseinate digest always showed a weaker effect on rat than caseinate digest either at the 0–7 or 0–28 d feeding stage, and more importantly, at the highest dose of 400 mg/kg BW/d, it caused obvious adverse effect on the rats, reflected by lower values of these indices. Compared with caseinate digest, glycated caseinate digest in the rats caused 0.9–15.4% and 10.6–49.7% decreases in average daily gain of BW and small intestinal length, 1.1–21.5% and 2.3–33.3% decreases in villus height and the ratio of villus height to crypt depth of the small intestine, or 0.3–57.6% and 0.2–55.7% decreases in digestive and critical brush-border enzyme activities, respectively. In addition, when the rats were fed with glycated caseinate digest, some serum indices related to oxidative stress status were enhanced dose-dependently. Lactose glycation of the Maillard-type is thus considered as a negative event of the Maillard reaction on milk proteins because this reaction might impair protein benefits to the body.
Highlights
Dairy products such as the ultra-high temperature (UHT) milk, milk powders, and infant formulas are always subjected to considerable heat treatment, which are essential for the microbiological safety and shelf life [1]
When severe heat treatment is used in dairy processing, the Amadori product will be converted into further reaction products, the advanced glycation end products (AGEs) [6]
After one week of daily feeding with the heated or untreated skimmed milk powder, 25 metabolites were detected in the urine samples of the rats, while 19 metabolites were regarded as the lysine/arginine-derived AGEs and heterocyclic compounds [10]; AGEs can promote oxidative stress and inflammation, alter glucose regulation, and increase the formation of endogenous AGEs [11,12]
Summary
Dairy products such as the ultra-high temperature (UHT) milk, milk powders, and infant formulas are always subjected to considerable heat treatment, which are essential for the microbiological safety and shelf life [1]. Heat treatment that is especially carried out at higher temperature may decrease the nutritive values of dairy products and generate various Maillard products that might be detrimental to human health. It was evident that proteins modified via Maillard reaction had enhanced functional properties and bioactivities, including solubility, emulsification, anti-oxidation, and anti-bacterial effect [7,8]. This reaction in milk or dairy products can cause several events including brown discoloration, pH reduction, production of flavor compounds, and decreased nutritive values [9]. The possible effect of the resultant glycated proteins on human health or body development requires further investigation
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