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Artificial Sweeteners Are Toxic To Digestive Gut Bacteria, Study Finds (cnbc.com)

Posted by BeauHD on from the naturally-sweetened dept.

According to a study published in the journal Molecules, researchers found that six common artificial sweeteners approved by the FDA and 10 sport supplements that contained them were found to be toxic to the digestive gut microbes of mice. CNBC reports: Researchers from Ben-Gurion University of the Negev in Israel and Nanyang Technological University in Singapore tested the toxicity of aspartame, sucralose, saccharine, neotame, advantame, and acesulfame potassium-k. They observed that when exposed to only 1 milligram per milliliter of the artificial sweeteners, the bacteria found in the digestive system became toxic. According to the study, the gut microbial system "plays a key role in human metabolism," and artificial sweeteners can "affect host health, such as inducing glucose intolerance." Additionally, some of the effects of the new FDA-approved sweeteners, such as neotame, are still unknown.

However, the study found that mice treated with the artificial sweetener neotame had different metabolic patterns than those not treated, and several important genes found in the human gut had decreased. Additionally, concentrations of several fatty acids, lipids and cholesterol were higher in mice treated with neotame than in those not. Because of the widespread use of artificial sweeteners in drinks and foods, many people consume them without knowing it.

15 of 192 comments (clear)

  1. These results are not correctly referenced by fredrikv · · Score: 5, Informative

    Please correct the text, the referenced study is about neotame only and does not investigate the other mentioned molecules or products. The CNBC article is probably to blame as it is misleading on which results were obtained in which study.

    1. Re:These results are not correctly referenced by Anonymous Coward · · Score: 5, Informative

      The CNBC article confuses two studies: Neotame in mice and Artificial sweeteners on a bacterial panel.

      The second of these does indeed test the toxicity of all the named sweeteners, albeit only on a model of gut bacteria (bioluminescent E.coli) in a laboratory setting.

      Sucralose and neotame were found to inhibit E.coli bioluminescence. Saccharin, aspartame and ace-k induced it.

      What does that mean? Your guess is as good as mine.

    2. Re:These results are not correctly referenced by afxgrin · · Score: 5, Informative

      Directly from the paper in the summary:

      Department of Environmental Sciences and Engineering, University of North Carolina at Chapel Hill, Chapel Hill, NC 27599, USA
      Department of Environmental Health Science, University of Georgia, Athens, GA 30602, USA
      Department of Population Health and Pathobiology, North Carolina State University, Raleigh, NC 27607, USA

      None of these are Ben-Gurion University or Nanyang Technological University.
      The correct paper is:
      Measuring Artificial Sweeteners Toxicity Using a Bioluminescent Bacterial Panel

    3. Re:These results are not correctly referenced by jtgd · · Score: 4, Informative

      No, you're thinking of nitrogen. CO2 will make you die in extreme panic.

      --
      J
    4. Re:These results are not correctly referenced by Anonymous Coward · · Score: 2, Informative

      Also, apparently it's considered humane to euthanize mice with CO2? I'd think that'd cause painful asphyxiation.

      That's a common misconception. It actually depends on the concentration. In a pure CO2 atmosphere, the oxygen levels in the blood will drop so fast that the body will lose consciousness before the brain becomes aware of suffocation. It only gets painful if CO2 levels rise slowly enough, for example when breathing in an enclosed space.

    5. Re:These results are not correctly referenced by Gravis+Zero · · Score: 4, Informative

      Also, apparently it's considered humane to euthanize mice with CO2? I'd think that'd cause painful asphyxiation.

      It depends on the air mixture. Inhaling a dense cloud of CO2 results in immediate unconsciousness followed by death.

      This phenomenon has been documented as it happened to a village by a lake where tons of CO2 spewed out from a lakebed and killed many people by the lake. The people who suffered were the ones who survived but were still exposed as it caused them to cough until they bled.

      --
      Anons need not reply. Questions end with a question mark.
  2. Editors! Huh! What are they good for? by Anonymous Coward · · Score: 4, Informative

    To be clear here, because TFS is a mess, there are two separate papers by two separate research teams. The paper described in the first line of the summary is this one, looking at a mix of supplements and how they affected bioluminescent reporting in bacteria. The paper which is linked in the first sentence ( this one ) is the one which looked at Neotame exposed mice, referred to in the last paragraph of TFS.

    1. Re:Editors! Huh! What are they good for? by ath1901 · · Score: 4, Informative

      Thanks for the links! Both the summary and the cnbc article link the wrong one.

      As for the CNBC article, they say "They observed that when exposed to only 1 milligram per milliliter of the artificial sweeteners, the bacteria found in the digestive system became toxic" but is that really what the study shows?

      The bioluminescent bacteria, which luminesce when they detect toxicants, act as a sensing model representative of the complex microbial system. Both induced luminescent signals and bacterial growth were measured. Toxic effects were found when the bacteria were exposed to certain concentrations of the artificial sweeteners. In the bioluminescence activity assay, two toxicity response patterns were observed, namely, the induction and inhibition of the bioluminescent signal. An inhibition response pattern may be observed in the response of sucralose in all the tested strains: TV1061 (MLIC = 1 mg/mL), DPD2544 (MLIC = 50 mg/mL) and DPD2794 (MLIC = 100 mg/mL). It is also observed in neotame in the DPD2544 (MLIC = 2 mg/mL) strain. On the other hand, the induction response pattern may be observed in its response in saccharin in TV1061 (MLIndC = 5 mg/mL) and DPD2794 (MLIndC = 5 mg/mL) strains, aspartame in DPD2794 (MLIndC = 4 mg/mL) strain, and ace-k in DPD2794 (MLIndC = 10 mg/mL) strain

      I am not a chemist/biologist and can not decipher that but

      a) Bacteria in the gut did not become toxic. It was a genetically engineered bioluminescent strain of e-coli that signals when it detects toxicants.
      b) There are many reported numbers ranging from 1 mg/mL to 100 mg/mL as well as different responses to different sweeteners.

      So if I just assume the limit for toxicity is 1 mg/mL like they say, a can of diet coke contains 125 mg of Aspartame and is 8 oz = 240 mL which is about 0.5 mg/mL and thus not-toxic. Also, if the other fluids in the body dilute the coke it should be even more safe since it is the concentration that matters. Is that a reasonable conclusion?

  3. Re:"only one milligram per milliliter of sweetener by wierd_w · · Score: 2, Informative

    AC, this is not difficult.

    The substances being tested are crystalline solids at room temperature. They are dissolved in a solvent.

    In this case, at a concentration of 1mg : 1mL, as an aqueous solution.

    Granted, that is pretty damn concentrated. But still.

  4. Re:"only one milligram per milliliter of sweetener by hrafn42 · · Score: 3, Informative

    Granted, that is pretty damn concentrated.

    Particularly for sucralose, which is 600x as sweet as sugar. 1mg/ml would be sickly sweet. I generally use 0.1mg/ml in making my own sugar-free cordials (I'm diabetic).

  5. Re:That's just gut-wrenching by Jane+Q.+Public · · Score: 1, Informative
    It should, if you read OP, which got it very wrong:

    They observed that when exposed to only 1 milligram per milliliter of the artificial sweeteners, the bacteria found in the digestive system became toxic.

    Um... no they didn't "become toxic". They "became dead", which is a very different thing.

    I eat dead things all the time. I very much try to avoid eating toxic things.

    OP: Try to get it straight next time.

  6. Re:That's just gut-wrenching by religionofpeas · · Score: 5, Informative

    They didn't become dead. The specially engineered e-coli strains become luminescent. Whatever that means for your gut health is anyone's guess.

  7. Re:That's just gut-wrenching by Anonymous Coward · · Score: 5, Informative

    Okay, just to make this clear because it's useful knowledge. Bacteria may produce toxic waste, and these toxins can be the reason why you may get inflammations, may bleed internally, may have to vomit and/or get diarrhoea when your stomach gets infested by the wrong bacteria. Some of them produce so strong toxins that they perforate your intestines, leading to life threatening conditions (e.g. typhus does that). Dying and dead bacteria also produce toxins for a while. Part of the problem is the reaction of the immune system, part are the toxins emitted by bacteria. Chronic diseases of the stomach and intestinal system can also be caused by an improper balance of bacteria. Anything that changes the balance of bacteria in the stomach - which strains are present in which quantity - can be potentially dangerous or beneficial, depending on which strains are boosted or hampered.

    Just wanted to make this clear because your comment was upvoted (only God knows why) and is pretty pointless.

  8. Read the paper by Karmashock · · Score: 2, Informative

    ... if you read the paper... they are administering 2.5 times the FDA recommended dose of Sweat and Low... the mice showed no signs of ill health or altered behavior... and the "toxic" is a little bit of a stretch... there were changes in gut bacteria populations but that happens whenever you change a diet to anything else.

    Did someone else get a different read on this thing? I went through the "method" section which is where I always start whenever I read a paper. Straight to the method... aka what did you actually do?

    --
    I've decided to stop wasting my time responding to AC trolls/sockpuppets... so if you want a response from me... login.
  9. Re:That's just gut-wrenching by dfghjk · · Score: 5, Informative

    Except, Jane, you're "dead" wrong. "became dead" appears nowhere in the article, neither does "dead" appear nor is there any claim that "toxic" means death. Furthermore, the article states "bacteria growth rates were also affected" which is a bit hard to understand if the bacteria were "dead". "Toxic" refers to a positive response with one or more toxicity indicators, that is all. Try to get it straight next time.

    There were egregious errors, though. First, it wasn't "bacteria found in the digestive system" that "became toxic", it was genetically modified bacteria that showed a toxic response. Second, only one sweetener caused this response at 1 mg/ml. None of the others did.

    Furthermore, "only" 1 mg/ml is a lot. These sweeteners are much stronger than sugar and these concentrations would not exist in actual applications. Lower concentrations did not demonstrate a toxic response in the study.

    Isn't it curious that so many artificial sweeteners all cause this "calamity" as shown in a single study? I wonder what special interest group would have interest in an outcome like this, particularly considering the gross misrepresentation of the results.

    You know what known to be toxic? Sugar. Not toxic merely to gut bacteria, toxic to you.