Taurine Boosts Good Gut Bacteria & Short-Chain Fatty Acid Prod. | 1st Study to Show Natural Beats Synthetic Taurine

Taurine Boosts Good Gut Bacteria & Short-Chain Fatty Acid Prod. | 1st Study to Show Natural Beats Synthetic Taurine

bacteria bacteriodetes bad bacteria firmicutes good bacteria health helicobacter microbiome natural taurine SCFA short-chain fatty acids synthetic taurine synthetic vitamins taurine

The bacteria in our guts are the latest rage in medical sciences... and taurine, especially natural taurine, may be a way to modulate them in beneficial ways.

It has been some time since the last taurine article on the SuppVersity (read all articles). There was simply a lack of interesting studies... until now, or rather until the latest study of scientists from the Zhejiang University of Technology which suggests that taurine "might be of benefit to health by inhibiting the growth of harmful bacteria, accelerating the production of SCFA and reducing LPS concentration" (Yu. 2016).

As the authors of the paper point out, taurine is a necessary amino acid that taurine plays an important role in the regulation of neuroendocrine functions and nutrition.

In previous studies, taurine was shown to improve immunity, resist oxidation, delay senility, reduce blood pressure, promote recovery from acute hepatitis, etc. (Averin. 2015; Wang. 2013; De Luca. 2015; Ito. 2012). In addition, taurine can also improve the metabolism of the nutrients and play an important role in the regulation of neuroendocrine (Cuttitta et al. 2013; Camargo et al. 2015).

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With their latest study, the Chinese scientists Haining Yu, Zhengzhao Guo, Shengrong Shen , an Weiguang Shan were now able to add yet another beneficial health effect of taurine to the previous, impressive list: taurine's effect on gut microbes and metabolism.

Food	Amount	Taurine (mg)
Cheese	3 ounces	1000
Cheese,cottage	1 cup	1700
Milk,whole	1 cup	400
Yogurt	1 cup	400
Wild game	3 ounces	600
Pork	3 ounces	540
Granola	1 cup	650
Oatmeal flakes	1 cup	500
Chocolate	1 cup	400
Meat (luncheon)	1 cup	390
Wheat germ,toasted	1/4 cup	350
Egg	1 (medium size)	350
Turkey	3 ounces	240
Duck	3 ounces	240
Chicken	3 ounces	185
Sausage	3 ounces	185
Avocado	1/2 (medium)	75
Table 1: It doesn't always have to be supplements - Taurine content of selected foods (USDA Handbook #8)

As you'd expect it for a "first of its kind" study, the researchers used a rodent model to evaluate the effects of a human equivalent dose of ~1g of taurine in BALB/C who were randomly divided into three experimental groups:

• the first group was administered saline (CK),
• the second group was administered 165 mg/kg natural taurine (NE) and
• the third group one administered 165 mg/kg synthetic taurine (CS).

With the NE and CS group, this is also one of the few studies to distinguish between "natural" and "synthetic" taurine, which is obtained from isethionic acid (2-hydroxyethanesulfonic acid) and not extracted from animal bile, usually that of the ox, and subjected to a series of purification procedures by several different methods (Gioacchini. 1995).

Figure 1: Effects of taurine on gut bacteria abundance (Yu. 2016).

To assess the effects, the gut microbiota composition in mice feces was analyzed by metagenomics technology, and the content of short-chain fatty acids (SCFA) in mice feces was detected by gas chromatography (GC), while the concentrations of lipopolysaccharide (LPS) and superoxide dismutase (SOD) were detected by a LPS ELISA kit and a SOD assay kit, respectively.

Studies Confirm: Natural and Synthetic Vitamins Can Differ in Quantity & Quality of Effects! Vitamins A-E, B's & More | read more

Is "natural taurine" the "better taurine"? In the study at hand, it seems as if this was the case. The only evidence from other studies that suggests that the source of taurine matters, however, is 1995 paper by Gioacchini et al. who developed a method to distinguish the two and may thus have a vested interest in stating that "[n]atural taurine is an essential constituent of formula milk for infants and, because of the inferior nutritional value (δ), of synthetic forms, it is important to discriminate between these and taurines derived from a natural source" (Gioacchini. 1995). Another study shows that the allergy risk for synthetic taurine appears to be elevated (Lee. 2013).

Why this is the case or what triggers any differences in the effect on the microbiome is something I cannot tell you: if the molecules were structurally different, Gioacchini et al. would after all not have had to use the 13C/12C ratio that is also used to date bones and other relicts. It could eventually be solely a question of dosage - with "inferior nutritional value" the synthetic taurine may have to be dosed much higher... as high as in most previously published human studies which generated the most impressive results with 3-6g and thus 3-6x more taurine per day than the human equivalent dose (learn more about the HED concept) of the study at hand.

As the data in Figure 1 indicates, taurine had profound effects on gut microbiota could reduce the abundance of Proteobacteria, especially Helicobacter (see Figure 1, bottom right). In that, it is interesting to see that the natural taurine ...

• had more pronounced beneficial effects on the count of good bacteroidetes and was more potent than the synthetic version when it comes to reducing proteobacteria and helicobacter, and even more intriguingly
• had opposite effects on firmicutes which make up the largest portion of the mouse and human gut microbiome, can't be described as "beneficial" or "bad" as a whole, but have been shown to be involved in energy resorption and obesity

In line with the last-mentioned increase in firmicutes is the scientists' observation that the SCFA content was increased in feces of the NE group, but not the CS group that received the synthetic taurine supplement.

Figure 2: Short-chain fatty acid (SCFA) and Activity of superoxide dismutase (SOD) levels in response to natural (NE), synthetic taurine (CS) and saline control (CK) supplementation in mice (Yu. 2016).

That's interesting, also because this change went hand in hand with a 'natural exclusive' LPS content was decreased, but similar increases in the activity of the antioxidant SOD enzyme in serum and livers of the both taurine groups.

None of the previous taurine studies declared whether the chemical they used was "natural" or "synthetic", I thus suspect that a synthetic version was used in most if not all of them - that this could make a difference is still both surprising and intriguing.

Bottom line: While it is correct that both "natural taurine and the synthetic taurine could regulate the gut micro-ecology, which might be of benefit to health by inhibiting the growth of harmful bacteria" (Yu. 2016), it is quite intriguing that only the natural taurine accelerated the production of SCFA and reducing LPS concentration, while the synthetic taurine did not.

Unfortunately, I have no studies to tell you if there's (a) a general advantage of natural over synthetic taurine (see red box, too), or (b) whether your taurine is natural or synthetic. If the previous quote (see red box) from Gioacchini et al. is accurate, though, it would appear that (a) 'natural' was superior and that (b) your taurine supplement was almost certainly nor extracted from ox-bile or another expensive natural source | Comment on Facebook!

References:

• De Luca, Annamaria, Sabata Pierno, and Diana Conte Camerino. "Taurine: the appeal of a safe amino acid for skeletal muscle disorders." Journal of translational medicine 13.1 (2015): 1.
• Gioacchini, Anna Maria, et al. "Differentiation between natural and synthetic taurine using the 13C/12C isotope ratio." Rapid communications in mass spectrometry 9.12 (1995): 1106-1108.
• Ito, Takashi, Stephen W. Schaffer, and Junichi Azuma. "The potential usefulness of taurine on diabetes mellitus and its complications." Amino acids 42.5 (2012): 1529-1539.
• Lee, Seung-Eun, et al. "A case of taurine-containing drink induced anaphylaxis." Asia Pacific Allergy 3.1 (2013): 70.
• Yu, Haining, et al. "Effects of taurine on gut microbiota and metabolism in mice." Amino acids (2016): 1-17.

Many Probiotics Contain Antibiotic Resistant Bacteria. Plus: Number of Live Bacteria is up to 95% Below Label Claims

Many Probiotics Contain Antibiotic Resistant Bacteria. Plus: Number of Live Bacteria is up to 95% Below Label Claims

antibacterial antibiotics bacteria health probiotics

Probiotics under urgently needed scrutiny - This is the first study to test for antibiotic resistances and to highlight the discrepan- cy between label claims and the actual number of live bacteria in supplements.

There have been plenty of good news about probiotic supplements in the news (including the SuppVersity News), lately. One thing that is often forgotten, though, is that the effect of the supplements depends on (a) the exact type of bacteria that are in the pills, (b) the ratio of the different strains and (c) the number of bacteria that are still alive.

Unfortunately, this important truth is rarely mentioned in the edutainment articles on probiotics in the laypress and sales pitches you will find all over the Internet.

Another thing, even you may not have thought about yet is however the potential occurrence of antibiotic resistances among the bazillions of bacteria in your allegedly healthy probiotic supplements.

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A group of people who thought of this hitherto overlooked problem are researchers from the  King Abdullah University of Science and Technology in Saudi Arabia and the UCSI University in Malaysia (Wong. 2015). In their recent paper in the scientific journal Nutrition Journal, the international group of researchers are the first to highlight a previously ignored problem i.e. the possibility that certain genes that make bacteria resistant to antibiotics "could transfer to pathogens sharing the same intestinal habitat" - an event that is, as the scientists rightly point out, "conceivable considering the fact that dietary supplements contain high amounts of often heterogeneous populations of probiotics" and could thus "confer pathogens protection against commonly-used drugs" (Wong. 2015).

MRSA in your probiotic supplements? 

Against that background and in view of the numerous reports of antibiotic resistant probiotics in food and biological sources, the antibiogram of probiotics from dietary supplements remains elusive.

Figure 1: Petri dishes from the antibiotic test (top). If the antibiotics still worked on the bacteria in the probiotics, they all should be dead. As you can see (in the graph, as well), that's by no means the case (Wong. 2015).

In fact, Wong et al. are apparently the first researchers to screen five commercially available dietary supplements (the full names were not disclosed) for resistance towards antibiotics of different classes - with somewhat disconcerting results, namely:

• 

  Even probiotics that help weight loss, could transfer antibiotic resistances.

  Probiotics of all batches of products were resistant towards vancomycin.
• Several batches of probiotics from four different brands were also resistant towards streptomycin, aztreonam, gentamycin and / or ciprofloxacin antibiotics (this includes the US and Austrian products, i.e. Cn and Bn, respectively)
• The fifth brand showed a unique resistance towards gentamycin, strepto- mycin and ciprofloxacin antibiotics. 

Now, as previously pointed out, this does not mean that "bad" bacteria which will always be present in your gut, will automatically acquire the same resistances, but the mere fact that it is possible should tell you that the current hype over probiotics as the "go-to supplement" everyone should take is unwarranted, or at least premature.

You're not getting what you're paying for!

The problem with antibiotic resistances is yet not the only intriguing result of Wang's study. The researchers analyses also revealed that you're not just getting more (albeit unwanted) ingredients that you're paying for, they also found a significant discrepancy between the enumerated viable bacteria amounts and the claims of the manufacturers.

Figure 2: Non-strain specific essay that evaluated the number of live bacteria in the products. The products from producers Bi, Bg, and L didn't just contain significantly less living bacteria than the manufacturers claim, the number is even so low that it is absolutely certain that they are 100% useless. The good news may be that the low dose supplements from the Austria(BN) and USA (CN) contained either more or at least roughly the amount of bacteria on the label (Wong. 2015).

In other words, while the scientists claim that you would get more than enough viable bacteria from their product to have a significant impact on your intestinal microbiome, the reality is that many of the good bacteria are dead before you even open the package.

The "live bacteria"-problem can be solved by eating probiotic foods like yogurt. The problem with potential antibiotic resistances, on the other hand, is rampant with foods, too. Even meat (especially chicken) and allegedly extra-healthy products like veggies from the farmers market may be tainted (the latter due to natural fertilizers of animal origin aka slurry).

Bottom line: The transfer of genes that could make bad gut bugs resistant to antibiotic is only a possibility, but it's one with literally fatal consequences. If bacterial strains in your gut have become resistant to antibiotics and you end up - for whatever reason - with an infection, i.e. a rapid multiplication of these bacteria, you could probably find yourself in the emergency room ... or worse.

In conjunction with the proven lack of viable bacteria in the five products from the US, Malaysia and Austria this study casts a shadow on a class of supplements with rapidly increasing sales - a shadow that becomes even darker if you remember my previous warning that we know literally nothing about the far-reaching interactions between the billion of different bacteria in our gut to even know the "good" from the "bad" guys | Comment on Facebook!

References:

• Wong, Aloysius, et al. "Detection of antibiotic resistance in probiotics of dietary supplements." Nutrition journal 14.1 (2015): 1-6.