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Protein in Soy May Reduce the Risk of Heart Failure by Affecting Gut Bacteria

A research team from the Nagoya University Graduate School of Medicine has discovered a promising way to slow the progression of heart failure in mice. They fed mice a diet rich in the soybean protein, β-conglycinin (β-CG), which can support heart health by influencing gut bacteria. Their analysis revealed that the soybean protein rich diet increased the production of the short-chain fatty acids (SCFAs) in the intestine that play a role in protecting the heart. Their findings were published in Clinical Nutrition.  

Many people with heart problems try to eat a nutritious diet to reduce their risk of disease. As part of a healthy diet, soybeans have long been recognized for their antioxidant and anti-inflammatory properties. Based on this, the researchers suspected that proteins in soy may help prevent heart damage. 

Dr. Nozomi Furukawa and colleagues fed the soy-derived protein β-CG to mice prone to heart failure and investigated its effects on the heart. The mice showed improved heart function, less muscle thickening, and reduced scarring of the heart tissue, common problems associated with the progression of heart disease.  

Analysis of bacteria in the gut identified an increase in three types of SCFA-producing bacteria (Butyricimonas, Marvinbryantia, and Anaerotruncus) as well as concentrations of SCFAs that maintain gut health (acetic acid, butyric acid, and propionic acid).). 

These findings suggest that β-CG helps prevent heart damage, at least in part, by promoting the growth of SCFA-producing bacteria in the intestine. Bacteria produce SCFAs in the large intestine during the digestion of fiber and other foods. SCFAs are known to have anti-inflammatory properties and to play a role in maintaining intestinal health. However, their findings suggest they may also help protect the heart from damage caused by high blood pressure. 

“An important aspect of this study is that functional soy components showed beneficial effects on the heart,” Furukawa said. “Previously, effects on obesity have been shown, but the effects on cardiovascular disease were not known. Importantly, β-CG intake increases major SCFAs and their producing bacteria as a change in the gut microbiota. These SCFAs may inhibit the progression of heart failure.” 

When the researchers used antibiotics to reduce the population of these SCFA-producing microbes in mice, the protective effects of β-CG disappeared. This suggested that the gut microbiota is crucial for β-CG’s heart-protective action. To confirm this, they administered sodium propionate, one of the SCFAs, to the mice and found that it had similar effects to feeding the mice β-CG, reinforcing the idea that SCFAs are a key part in reducing heart damage. 

Although the researchers performed this study on mice, the findings suggest that similar mechanisms may help treat heart failure in humans. β-CG or its derivatives could potentially be developed into therapeutic agents that help prevent or slow the progression of heart failure, offering a more natural solution to a major health problem.

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