A Study on the Effects of A2 Milk on Gut Beneficial Bacteria Growth and Digestion Improvement

Milk has a high calcium content, and calcium in milk is easily digested and absorbed and has an excellent utilization rate in the body. Milk is rich in lactose, Vitamin D, and peptides that facilitate calcium absorption, and it also contains essential amino acids and bioactive substances that are beneficial to health. Regularly drinking milk has been proven to improve insulin sensitivity, blood pressure, and serum lipid concentrations. Furthermore, milk is reported to be an effective food for nutritional supplementation and improvement in the diet of Koreans, as it contains a well balanced source of essential amino acids that can be lacking in a rice centric diet, along with quality animal protein, calcium, vitamin B2, and other nutrients. However, this increase in dairy consumption can be associated with an increased risk for certain disorders, including digestive disorders.

The actual prevalence of lactose intolerance is unclear in Korea, and reports have ranged from 39.1% to 84.1%. In 2010, it was reported that in most individuals who believed they had lactose intolerance, no evidence of problems with lactose absorption could be found, and thus, gastrointestinal symptoms were unlikely to be associated with lactose. Alternatively, A1 β-Casein and β-Casomorphin-7 (BCM-7) has emerged as a major area for research in relation to digestive discomfort following milk consumption.

Milk is composed of 80% Casein protein and 20% whey. Among Casein proteins, β-Casein can be divided into the A1 type comprised of A1, B, C, F, and G, and the A2 type with A2, A3, D, E, H, I, and J variants. A1 and A2 type β-Casein proteins differ in their 67th amino acid, with A1 containing Histidine and B2 with Proline.

The other remaining variants are only found in low levels or not found in European cattle. Furthermore, BCM-7, which is produced when enzymatic cleavage at the histidine position occurs in A1 β-Casein, has been associated with digestive discomfort. Additionally, milk containing A1 β-Casein has been linked to type 1 diabetes and heart disease. Nevertheless, the majority of dairy cattle in dairy industries continue to produce milk containing A1 β-Casein.

Animal tests have shown that milk with A1 β-Casein takes longer to transit through the digestive tract compared to A2 β-Casein containing milk. In addition, a clinical trial reported that the Bristol stool scores in participants who consumed A1 β-Casein milk were higher than those in A2 β-Casein milk. Another clinical trial announced that A2 β-Casein milk alleviated gastrointestinal symptoms of milk hypersensitivity. In addition, there are reports that blood GSH levels, intestinal short chain fatty acids (Acetic acid, butanoic acid), and intestinal beneficial bacteria (Bifidobacterium genus) content are increased.

Therefore, this study aims to evaluate the effects of A2 milk on gut beneficial bacteria growth, antioxidant activity , digestion, and inflammation improvement compared to a control (A1/A2 milk) in individuals who experience discomfort after consuming milk.