For those of you who read my most recent blog post and who went on to read Carl Zimmer's article in The New York Times about gut flora transplantation on a woman suffering from chronic Clostridium difficile diarrhoea: The concept of faecal bacteriotherapy is maybe not that new. Allegedly, it dates back to Pliny the Elder and others, who prescribed orally ingested faeces to cure maladies! Stools were, however, incinerated first, and only the ashes ingested.
Tvede, M., & Rask-Madsen, J. (1989). Bacteriotherapy for chronic relapsing Clostridium difficile diarrhoea in six patients The Lancet, 333 (8648), 1156-1160 DOI: 10.1016/S0140-6736(89)92749-9 | |
| Pliny the Elder and others with him allegedly recommended ingesting the ashes of faeces to cure disease. |
In less ancient times - in 1989 to be more precise - Tvede and Rask-Madsen from Copenhagen, Denmark (Statens Serum Institut and The Danish State Hospital) reported on bacteriotherapy for chronic relapsing C. difficile diarrhoea in six patients. They hypothesised that absence of Bacteroides results in chronic relapsing C. difficile diarrhoea, and that its presence may prevent colonisation by C. difficile. In the current issue of Microbe Magazine, Young and Aronoff describe some of the mechanisms that may be involved in our indigenous gut flora's ability to prevent the colonisation of potentially pathogenic bacteria such as C. difficile. These include: (1) occupying space (physically preventing contact by newly arrived microbes
with the host), (2) directly impairing the growth or germination of C. diffıcile, (3) withholding nutrients or germinants from C. diffıcile, and (4) shaping the host adaptive and innate immune responses.
Hence, the concept of dysbiosis and the ideas of manipulating the gut flora in order to "restore order" have been going on for a long time. Metagenomics, however, will assist us in exploring exactly what is happening in much more detail and in a much broader and standardised context than previously possible. We will be able to predict shifts in the structure, function and interaction of microbial communities - hopefully including micro-eukaryotes such as fungi (the "mycobiome") and common protists such as Blastocystis and Dientamoeba (maybe we can call it the "protistome"?), - and any influence of diet, pro- and antibiotics.
And fortunately, the focus on metagenomics continues: While CMI just launched a themed issue on metagenomics advances (see previous blog post), even Science and Science Translational Medicine now dedicated an entire joint issue to "The Gut Microbiota", and I hope to be able to address one or two of these papers soon. Until then, here's a bit of suggested reading:
'Bugs as Drugs'
And fortunately, the focus on metagenomics continues: While CMI just launched a themed issue on metagenomics advances (see previous blog post), even Science and Science Translational Medicine now dedicated an entire joint issue to "The Gut Microbiota", and I hope to be able to address one or two of these papers soon. Until then, here's a bit of suggested reading:
'Bugs as Drugs'
Young and Aronoff (2012). Clostridium difficile linked to disrupted gut microbiota. Microbe Magazine (ASM): http://goo.gl/FIZmC
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