Bacteroides fragilis: Difference between revisions
(Added information about beneficial effects of NTBF.) |
m (Added more information to NTBF results section) |
||
| Line 28: | Line 28: | ||
Some strains of <i>B. fragilis</i> are nontoxic and even beneficial to their host organism. In germ-free mice, colonization with <i>B. fragilis</i> restores the activity of CD4<sup>+</sup> T cells <ref>[https://www.nature.com/articles/nature07008 Mazmanian, Round, & Kasper. 2008. A microbial symbiosis factor prevents intestinal inflammatory disease. Nature 453:620-625.]</ref> A single molecule produced by NTBF, polysaccharide A (PSA), has been shown to protect against colitis by upregulating production of interleukin-10, a powerful anti-inflammatory cytokine. In germ-free animals with poorly-functioning immune systems, NTBF colonization dramatically improved spleen morphology, indicating that PSA may play a role in lymphocyte development.<ref>[https://www.sciencedirect.com/science/article/pii/S0092867405004514 Mazmanian, et al. 2005. An Immunomodulatory Molecule of Symbiotic Bacteria Directs Maturation of the Host Immune System. Cell 122.1 (2005): 107-118.]</ref><br><br> | Some strains of <i>B. fragilis</i> are nontoxic and even beneficial to their host organism. In germ-free mice, colonization with <i>B. fragilis</i> restores the activity of CD4<sup>+</sup> T cells <ref>[https://www.nature.com/articles/nature07008 Mazmanian, Round, & Kasper. 2008. A microbial symbiosis factor prevents intestinal inflammatory disease. Nature 453:620-625.]</ref> A single molecule produced by NTBF, polysaccharide A (PSA), has been shown to protect against colitis by upregulating production of interleukin-10, a powerful anti-inflammatory cytokine. In germ-free animals with poorly-functioning immune systems, NTBF colonization dramatically improved spleen morphology, indicating that PSA may play a role in lymphocyte development.<ref>[https://www.sciencedirect.com/science/article/pii/S0092867405004514 Mazmanian, et al. 2005. An Immunomodulatory Molecule of Symbiotic Bacteria Directs Maturation of the Host Immune System. Cell 122.1 (2005): 107-118.]</ref><br><br> | ||
In addition to improving immune function, <i>B. fragilis</i> may have an effect on behavioral health. In a mouse model for Autism Spectrum Disorder, colonization with NTBF reduced or eliminated abnormalities in the expression of multiple genes and "correct[ed] intestinal permeability" in the colon.<ref>[https://www.sciencedirect.com/science/article/pii/S0092867413014736 Hsaio, et al. 2013. Microbiota Modulate Behavioral and Physiological Abnormalities Associated with Neurodevelopmental Disorders. Cell 155.7 (2013): 1451-1463.]</ref> | In addition to improving immune function, <i>B. fragilis</i> may have an effect on behavioral health. In a mouse model for Autism Spectrum Disorder (ASD), colonization with NTBF reduced or eliminated abnormalities in the expression of multiple genes and "correct[ed] intestinal permeability" in the colon.<ref>[https://www.sciencedirect.com/science/article/pii/S0092867413014736 Hsaio, et al. 2013. Microbiota Modulate Behavioral and Physiological Abnormalities Associated with Neurodevelopmental Disorders. Cell 155.7 (2013): 1451-1463.]</ref> The same study showed that NTBF colonization may have also served as a treatment for various behavioral symptoms associated with ASD, such as anxiety, repetitive behaviors, and inability or refusal to communicate. All of these improvements occurred even when the mice were colonized with a PSA-deficient strain of <i>B. fragilis</i>. | ||
Revision as of 16:45, 5 December 2019
Classification
Kingdom: Bacteria
Phylum: Bacteroidetes
Class: Bacteroidia
Order: Bacteroidales
Family: Bacteroidaceae
Genus: Bacteroides
Species: Bacteroides fragilis
Introduction
Bacteroides fragilis is a Gram-negative bacterium found in the human colon.[1] Although it is relatively rare compared to other species of Bacteroides, it is the most common clinical isolate.[2] Enterotoxigenic B. fragilis (ETBF) is responsible for a large number of opportunistic infections in hospitals and contributes significantly to morbidity and mortality; however, non-enterotoxigenic B. fragilis (NTBF) has been studied as a potential probiotic. In addition to opportunistic infections, BF has been known to cause complications such as colorectal cancer and colitis.[3] This bacterium is of interest to researchers because of its ability to evade immune responses and its evolving drug resistance. Non-virulent strains are also under investigation for possibly having a beneficial effect on the human microbiome.
Genetics
Diagnosis with ETBF is confirmed by using PCR to determine the presence of genes coding for B. fragilis toxins.[4] There are no fewer than three variants of the bft gene that codes for these toxins. Although these three variants are all nearly identical, together they code for at least 25 different sequences for the final protein product. In addition, sequencing the genome of one strain B. fragilis has revealed numerous stretches of inverted DNA, creating a vast array of potential configurations of the outer membrane.[1] This extensive diversity allows B. fragilis as a species to evade attempts by the immune system to recognize and destroy it.
A single stretch of DNA approximately 6,000 base pair long distinguishes enterotoxic from nontoxic strains of B. fragilis.[5] This 6-kb region contains not only the bft gene, but also a 700-bp series of promotors.
Microbiome
Enterotoxic Strains
Nontoxic Strains
Some strains of B. fragilis are nontoxic and even beneficial to their host organism. In germ-free mice, colonization with B. fragilis restores the activity of CD4+ T cells [6] A single molecule produced by NTBF, polysaccharide A (PSA), has been shown to protect against colitis by upregulating production of interleukin-10, a powerful anti-inflammatory cytokine. In germ-free animals with poorly-functioning immune systems, NTBF colonization dramatically improved spleen morphology, indicating that PSA may play a role in lymphocyte development.[7]
In addition to improving immune function, B. fragilis may have an effect on behavioral health. In a mouse model for Autism Spectrum Disorder (ASD), colonization with NTBF reduced or eliminated abnormalities in the expression of multiple genes and "correct[ed] intestinal permeability" in the colon.[8] The same study showed that NTBF colonization may have also served as a treatment for various behavioral symptoms associated with ASD, such as anxiety, repetitive behaviors, and inability or refusal to communicate. All of these improvements occurred even when the mice were colonized with a PSA-deficient strain of B. fragilis.
References
- ↑ Kuwahara, et al. Genomic analysis of Bacteroides fragilis reveals extensive DNA inversions regulating cell surface adaptation. Proc. Natl. Acad. Sci. USA 101:14919-14924.
- ↑ Salyers, A. A. 1984. Bacteroides of the human lower intestinal tract. Annu. Rev. Microbiol. 38:293-313.
- ↑ Redondo, M. C., M. D. Arbo, J. Grindlinger, and D. R. Snydman. 1995. Attributable mortality of bacteremia associated with the Bacteroides fragilis group. Clin. Infect. Dis. 20:1492-1496.
- ↑ Sears, Cynthia L. "Enterotoxigenic Bacteroides fragilis: a rogue among symbiotes." Clinical microbiology reviews 22.2 (2009): 349-369.
- ↑ Moncrief, J. S., A. J. Duncan, R. L. Wright, L. A. Barroso, and T. D. Wilkins. 1998. Molecular characterization of the fragilysin pathogenicity islet of enterotoxigenic Bacteroides fragilis. Infect. Immun. 66:1735-1739.
- ↑ Mazmanian, Round, & Kasper. 2008. A microbial symbiosis factor prevents intestinal inflammatory disease. Nature 453:620-625.
- ↑ Mazmanian, et al. 2005. An Immunomodulatory Molecule of Symbiotic Bacteria Directs Maturation of the Host Immune System. Cell 122.1 (2005): 107-118.
- ↑ Hsaio, et al. 2013. Microbiota Modulate Behavioral and Physiological Abnormalities Associated with Neurodevelopmental Disorders. Cell 155.7 (2013): 1451-1463.
Edited by James Cawthon, student of Joan Slonczewski for BIOL 116 Information in Living Systems, 2019, Kenyon College.
