Metabolic disorders associated with the human gut microbiota: Difference between revisions

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Although not considered a viable form of treatment by many doctors today, there are a growing number of medical professionals that are recognizing herbal, and what many call "eastern medicine" as a very affective form of treatment especially as it relates to the digestive system. A chinese case study in rats <sup>4</sup> showed that regular treatment of rats with an ancient chinese herbal formula was affective in alleviating symptoms of fatty liver disease correlating to a decrease in the presence of bacterial genera Shigella and Escherichia both members of the phenotypic class Erysipelotrichi <sup>4</sup>. Additionally an Eastern European case study also found a correlation between treatment of Clostridium genera with a variety of essential oils finding that Scotch pine oil was an affective antibiotic agent most affective in treatment of <i>Clostridium ramosum</i>, a bacterial species found to be directly associated with choline deficiency in the gut and the development of NAFLD <sup>1</sup>,<sup>3</sup>,<sup>5</sup>.  
Although not considered a viable form of treatment by many doctors today, there are a growing number of medical professionals that are recognizing herbal, and what many call "eastern medicine" as a very affective form of treatment especially as it relates to the digestive system. A chinese case study in rats <sup>4</sup> showed that regular treatment of rats with an ancient chinese herbal formula was affective in alleviating symptoms of fatty liver disease correlating to a decrease in the presence of bacterial genera Shigella and Escherichia both members of the phenotypic class Erysipelotrichi <sup>4</sup>. Additionally an Eastern European case study also found a correlation between treatment of Clostridium genera with a variety of essential oils finding that Scotch pine oil was an affective antibiotic agent most affective in treatment of <i>Clostridium ramosum</i>, a bacterial species found to be directly associated with choline deficiency in the gut and the development of NAFLD <sup>1</sup>,<sup>3</sup>,<sup>5</sup>.  

Revision as of 22:53, 16 April 2015


Obesity is one of the foremost serious health problems in the United States and with a long list of causations and associate conditions; it is crucial to identify influencing factors. More and more research is being directed towards the affects of the complex system of microbes that live in the guts of all humans and the potential effects of specific bacteria on metabolic pathways. There have been many correlations drawn between the composition of individuals’ gut microbiota and conditions such as Fatty Liver Disease and Steatohepatitis both directly related with obesity, however there has only recently (ie. 2014) been growing research done on what specific genus and species of bacteria are involved in the complex symbiotic pathways that lead to the development of these metabolic disorders. Bacteria in the phylogenetic classes [2] and [3] have been shown to be directly correlated to metabolic disorders 1.

Anatomy Abdomen Tiesworks



Function of Gut Microbiota in Animals


It is thought that microbes and animals developed symbiotically over evolutionary time, specifically microbes found in the digestive systems of animals that produced valuable metabolites for the animal. It is through this interaction that we see microbes found in the gut of animals are inherently linked to that animal's metabolic systems 6. Due to this linkage there is a direct correlation between any observed metabolic phenotypes in animals and the bacteria that are present in that animal's gut.

Metabolic Disorders:

There is currently a great deal of research being dedicated to understanding the exact ways that animal metabolic disorders are connected to the human gut microbiota however there is still a great deal unknown about the specific ways that bacteria found in the human digestive system influence metabolic processes throughout the body. What is known, is that an individuals gut microbiota is significantly determined by what an individual was born with, majorly dependent on their mother 7, and because of the uniqueness of each individuals microbiota we see a diversity of disorders and intensity of those disorders depending on the individual. Crucial to building a firmer understand of how the human microbiota interacts with an individual biologically depends on knowing which bacteria are present in an individual. The Human Microbiome Project is doing a great deal to isolate, identify, and delineate what microbes are commonly found on and in humans.

Obesity county level estimates 2004-2010


Obesity and Type II diabetes

Obesity and type 2 diabetes are two of the most prominent metabolic disorders we find in developed countries in this day and age. For a great deal of time researchers have been trying to find the link between human genetic abnormalities and these disorders, however have been unsuccessful in finding a correlation between the two9, even in cases in which one monozygotic twin has Type II diabetes and the other does not 10. For obesity there have been some studies showing a correlation between increased relative abundance of Lactobacillus reuteri and decreases in the relative abundance of Bifidobacterium animalis and Methanobrevibacter smithii 11 affiriming the proposition that these disorders are significantly linked to the composition of the gut microbiota. Separately type II diabetes has been shown to be associated with increased levels of Roseburia species and Faecalibacterium prausnitzii 12. This association is thought to be a relationship between the bacteria and humans in which the bacteria are affecting the phenotype of the person, however research done on individuals with Type I and Type II individuals suggestions that this might be a more complex cyclic system in which insulin insufficiency has a direct impact on the bacterial composition of the gut microbiota 13 14.

High-fat diet feeding for 4 weeks increases the cecal proportion of Clostridium ramosum (red) in mice harboring a simplified human intestinal microbiota (SIHUMI) compared with SIHUMI mice fed a low-fat diet for 4 weeks. Bacterial cell numbers were determined by fluorescence in situ hybridization or plating on Rogosa agar (Lactobacillus plantarum). Mean values ± standard errors of the means (SEM) are shown. n = 8 mice per group. (Woting et al. 2014)[1]

Non-alcoholic Fatty Liver Disease

"Fatty Liver Disease (FLD)" and in its latter and more dangerous phase Steatohepatitis have been linked to the presence and levels of specific classes of bacteria, Ersipelotrichi and Gammaproteobacteria, naturally found in the human microbiota 1. These classes of bacteria have been correlated with choline deficiency, an essential compound in lipid transport and storage in the body. Further research has shown correlation to bacteria found in the microbiota of a specific mouse strain to choline deficiency in via the chemical conversion of choline into methylamines then excreted by the body. Clostridium a genus in the class Ersipelotrichi, is associated with obesity and other metabolic disorders in humans, and was found to be linked with fat deposition in mice as opposed to its metabolization 3 and potentially plays a role in causing choline deficiency. Additionally in humans individuals with NAFLD were found to have higher levels of the genus clostridium and lower levels of Bacteroidetes, a class of bacteria that make up a significant portion of the human gut microbiota and help to regulate proper digestive function 8.

Cirrhosis

Cirrhosis is considered the pathological end stage of chronic liver disease 15. In China and much of eastern asia it comes about from the hepatitis B virus, however in the United States, Cirrhosis is caused predominantly by alcoholism and diet related issues. Since it is also considered the end stage for chronic liver disease in general, we see some of the same microbial changes that are found at different stages of chronic liver disease. Prevalence of Bacteriodetes were found to be significantly lower in participants with Cirrhosis while bacterial communities of Proteobacteria and Fusiobacteria were found to be higher 15. This disruption of Bacteriodetes, a very important and prominant group in the gut, is a common characteristic in most chronic liver diseases and other metabolic disorders associated with the gut.

Potential Treatments


Convention Medicine


Top of the list of potential treatments for gut microbiota disorders is that of fecal transplants,

Alternative treatments


Close-up of pine-needle 85


Although not considered a viable form of treatment by many doctors today, there are a growing number of medical professionals that are recognizing herbal, and what many call "eastern medicine" as a very affective form of treatment especially as it relates to the digestive system. A chinese case study in rats 4 showed that regular treatment of rats with an ancient chinese herbal formula was affective in alleviating symptoms of fatty liver disease correlating to a decrease in the presence of bacterial genera Shigella and Escherichia both members of the phenotypic class Erysipelotrichi 4. Additionally an Eastern European case study also found a correlation between treatment of Clostridium genera with a variety of essential oils finding that Scotch pine oil was an affective antibiotic agent most affective in treatment of Clostridium ramosum, a bacterial species found to be directly associated with choline deficiency in the gut and the development of NAFLD 1,3,5.

Future research

References

1 [Spencer, M D (03/2011). "Association between composition of the human gastrointestinal microbiome and development of fatty liver with choline deficiency". Gastroenterology (New York, N.Y. 1943) (0016-5085), 140 (3), p. 976.]
2 [Dumas M-E, Barton RH, Toye A, et al. Metabolic profiling reveals a contribution of gut microbiota to fatty liver phenotype in insulin-resistant mice. Proceedings of the National Academy of Sciences of the United States of America. 2006;103(33):12511-12516. doi:10.1073/pnas.0601056103.]
3 Woting A, Pfeiffer N, Loh G, Klaus S, Blaut M. 2014. Clostridium ramosum promotes high-fat diet-induced obesity in gnotobiotic mouse models. mBio 5(5):e01530-14. doi:10.1128/mBio.01530-14.
4 [Yin, X (05/2013). "Structural changes of gut microbiota in a rat non-alcoholic fatty liver disease model treated with a Chinese herbal formula". Systematic and applied microbiology (0723-2020), 36 (3), p. 188.]
5 Kačániová, Miroslava, et al. "Antibacterial activity against Clostridium genus and antiradical activity of the essential oils from different origin." Journal of Environmental Science and Health, Part B 49.7 (2014): 505-512.
6 [T. Hosokawa, Y. Kikuchi, N. Nikoh, M. Shimada, T. Fukatsu, Strict host-symbiont cospeciation and reductive genome evolution in insect gut bacteria. PLoS Biol. 4, e337 (2006).]
7 [Nicholsom, Jeremy K. et al. June 2012. "Host-Gut Microbiota Metabolic Interactions". Science. 336 (6086), 1262-1267.]
8 [Mouzaki, M., Comelli, E. M., Arendt, B. M., Bonengel, J., Fung, S. K., Fischer, S. E., McGilvray, I. D. and Allard, J. P. (2013), Intestinal microbiota in patients with nonalcoholic fatty liver disease. Hepatology, 58: 120–127. doi: 10.1002/hep.26319]
9 [Moreno-Indias, I., Cardona, F., Tinahones, F. J., & Queipo-Ortuño, M. I. (2014). Impact of the gut microbiota on the development of obesity and type 2 diabetes mellitus. Frontiers in Microbiology, 5, 190. doi:10.3389/fmicb.2014.00190]
10 [Medici F., Hawa M., Ianari A., Pyke D. A., Leslie R. D. (1999). Concordance rate for type II diabetes mellitus in monozygotic twins: actuarial analysis. Diabetologia 42 146–150 10.1007/s001250051132]
11 [Million M., Maraninchi M., Henry M., Armougom F., Raoult D. (2012). Obesity-associated gut microbiota is enriched in Lactobacillus reuteri and depleted in Bifidobacterium animalis and Methanobrevibacter smithii. Int. J. Obes. 36 817–825 10.1038/ijo.2011.153]
12 [Qin J., Li Y., Cai Z., Li S., Zhu J., Zhang F., et al. (2012). A metagenome-wide association study of gut microbiota in type 2 diabetes. Nature 490 55–60 10.1038/nature11450]
13 [Serino M., Fernández-Real J. M., Fuentes E. G., Queipo-Ortuño M., Moreno-Navarrete J. M., Sánchez A., et al. (2013). The gut microbiota profile is associated with insulin action in humans. Acta Diabetol. 50 753–761 10.1007/s00592-012-0410-5]
14 [Murri M., Leiva I., Gomez-Zumaquero J. M., Tinahones F. J., Cardona F., Soriguer F., et al. (2013). Gut microbiota in children with type 1 diabetes differs from that in healthy children: a case–control study. BMC Med. 11:46 10.1186/1741-7015-11-46]


Edited by Sam DeRosa, a student of in BIOL187S (Microbiology) in The Keck Science Department of the Claremont Colleges Spring 2015