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Seen One Beta Glucan, Seen Them All?

wooden spoon filled with yeast beta glucan

You hear a lot now about how beta glucans are great for supporting immune health. And that’s true, but only to a point. It is a generalization, as some beta glucans are shown to support immune health, but not all.

The specific source organism (e.g., strain of yeast) of a particular beta glucan makes all the difference in terms of safety, mechanism of action, and efficacy. That’s because each type of beta glucan, molecularly speaking, has a different backbone and branching arrangement that can give it health benefits that are completely different from other types.

Details matter. So, let’s review the science behind different forms of beta glucan.

Cereal Beta Glucans

Certain beta glucans derived from cereal grains (beta 1,3 and beta 1,4 glucan), predominantly oats, have been found useful for managing cholesterol levels—specifically, LDL, or bad, cholesterol. No changes in cholesterol level are typically found with either HDL (good) cholesterol or triglycerides.

One study found that 6 grams/day of oat beta glucan lowered total and LDL cholesterol levels in subjects with elevated cholesterol by 9 percent after four weeks. Another study found that using beta glucans derived from barley rather than oats had no real effect on cholesterol, though a high molecular weight–concentrated barley beta glucan was beneficial in helping some of the study’s 90 subjects lose weight.

So, while beta glucans from oats have not been shown to provide immune health benefits, studies have confirmed that certain oat beta glucans can help lower cholesterol levels and provide heart health benefits. It is important to note that the degree of cholesterol reduction depends upon the particular strain of beta glucan.

Mushroom Beta Glucans

People tend to lump all mushroom species together as one homogeneous group. This is a mistake. And while no one knows how many types of fleshy fungi exist in nature, there are an estimated 10,000 described species known in North America alone, and many believe there are thousands that remain undiscovered. The sheer number of mushrooms alone makes it difficult to generalize about their benefits, though researchers have honed in on a few different types. Even there, some studies show efficacy, and others not so much.

Beta glucans are found in the fungal cell walls, and in terms of research, the findings related to immune response have been mixed.

One study tested beta glucans derived from the common edible oyster mushroom with 175 children between the ages of 3 and 7 who had had more than five upper respiratory tract infections (URTIs) in the previous year. Symptoms of such infections are akin to those of colds and flus: nasal congestion, runny nose, sneezing, sore throat, and cough. In taking 120 ml/day of a mushroom beta glucan syrup for a year, 36 percent of the children did not suffer any URTIs over the six months of the treatment period, compared to 21 percent in the control group.

Conversely, another study used shiitake mushroom. After six weeks of using 2.5 mg/day of beta glucan, no significant difference was found between the groups in relation to a range of immune markers, except for an increase in the number of circulating B-cells, a type of white blood cell.

Ultimately, although mushroom beta glucans have been shown to have immune health benefits, research shows that their potency is lower than that of certain well-studied baker’s yeast beta glucans. And given the vast number of mushroom types and that their chemical structure likely impacts their efficacy and associated health benefits, further clinical research is needed to fully understand how each type of mushroom beta glucan works.

Yeast Beta Glucans

Yeast-derived beta glucans (Saccharomyces cerevisiae) usually originate in either baker’s yeast or brewer’s yeast. Even though both are beta 1,3/1,6 glucan from S. cerevisiae, the source matters—the beta glucans extracted from the cell walls of baker’s yeast exhibit a different molecular pattern from that of brewer’s yeast, which can influence the immune-modulating abilities of the final product.

And it’s important to emphasize that not all yeast beta glucans are created equal. Although multiple biological activities are attributed to yeast beta glucans, not all beta glucans affect immune activity. These benefits, as well as others associated yeast beta glucans, depend on the chemical structure. In fact, a study published in peer-reviewed scientific journal Food Chemistry shows that each source of yeast beta glucan has a unique chemical structure. This research clearly demonstrates that yeast beta glucans from different commercial sources are notably different from each other structurally.

In this study, large differences in purity, amount and length of the branches between samples of yeast beta glucans was observed. The proprietary baker’s yeast beta glucan, Wellmune®, was found to have a unique structure, with a different branching and linkage pattern from the other samples. The study concludes that such differences are largely a result of the source or strain of yeast, as well as the methods used to isolate and purify it– which is one of the many reasons manufacturing methods of yeast beta glucans are so important.

So when evaluating a baker’s yeast beta glucan for its benefits, and its ability to support immune health, we must look for clinical research that supports the ingredient’s mechanism of action and provides biomarker, safety, and efficacy data that demonstrates its effectiveness. Research must be specific to that ingredient (or strain) and its process of extraction, because as outlined, these attributes make a difference in efficacy. When sourcing a baker’s yeast beta glucan for immunity-positioned foods, beverages, and supplements, the research behind it is what will bring quality to a product. Multiple peer-reviewed, published, high-quality clinical studies, with consistent outcomes on that particular baker’s yeast beta glucan, are the gold standard.

 

Looking for more information about the differences between beta glucans? Download our  white paper here. 

 

Wellmune is supported by biomarker, mechanism-of-action, and clinical research studies that have revealed that it has specific effects that target monocytes, a type of white blood cell at the forefront of the body’s immune defense system.

Think of macrophages as the pawns on the chessboard of the body’s immune system. Pawns are the first pieces to move on the chessboard. Wellmune makes the pawns function more efficiently, helping them shift from the skill level of your savvy uncle to that of a Kasparov or Fischer.

Macrophages recognize foreign substances that are not usually present in a healthy body, such as cellular debris, microbes, and viruses. These macrophages digest and release Wellmune beta glucan fragments, which then bind to the CR3 receptor sites on neutrophils and subsequently prime these cells for fighting activity. It’s notable that the overall effect is to “prime” the immune system, rather than “boost” it, as occurs with immune enhancers and which may lead to cellular stress.

Wellmune is a baker’s yeast 1,3/1,6 glucan. It boasts over a dozen published, peer-reviewed human clinical studies that demonstrate its ability to support key immune functions, improve overall physical health, maintain healthy energy levels, provide immune support as we age, and help keep us healthy during times of stress.

 

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