D. Garrett Brown scite author profile

Graphical Abstract Highlights d Bacteriophages target specific bacteria and mitigate bacterially driven colon cancer d Phages activate phage-specific and non-specific IFN-g mediated immune responses via TLR9 d Phages exacerbate colitis, and TLR9/IFNg blockade abrogates phage-mediated inflammation d UC patient responses to fecal microbiota therapy correlate with Caurovirales abundance SUMMARY Bacteriophages are the most abundant members of the microbiota and have the potential to shape gut bacterial communities. Changes to bacteriophage composition are associated with disease, but how phages impact mammalian health remains unclear. We noted an induction of host immunity when experimentally treating bacterially driven cancer, leading us to test whether bacteriophages alter immune responses. Treating germ-free mice with bacteriophages leads to immune cell expansion in the gut. Lactobacillus, Escherichia, and Bacteroides bacteriophages and phage DNA stimulated IFN-g via the nucleotide-sensing receptor TLR9. The resultant immune responses were both phage and bacteria specific. Additionally, increasing bacteriophage levels exacerbated colitis via TLR9 and IFN-g. Similarly, ulcerative colitis (UC) patients responsive to fecal microbiota transplantation (FMT) have reduced phages compared to non-responders, and mucosal IFN-g positively correlates with bacteriophage levels. Bacteriophages from active UC patients induced more IFN-g compared to healthy individuals. Collectively, these results indicate that bacteriophages can alter mucosal immunity to impact mammalian health. Duerkop, B.A., and Hooper, L.V. (2013). Resident viruses and their interactions with the immune system. Nat. Immunol. 14, 654-659.

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The microbiota protects from viral-induced neurologic damage through microglia-intrinsic TLR signaling

Brown

Soto

Yandamuri

et al. 2019

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Symbiotic microbes impact the function and development of the central nervous system (CNS); however, little is known about the contribution of the microbiota during viral-induced neurologic damage. We identify that commensals aid in host defense following infection with a neurotropic virus through enhancing microglia function. Germfree mice or animals that receive antibiotics are unable to control viral replication within the brain leading to increased paralysis. Microglia derived from germfree or antibiotic-treated animals cannot stimulate viral-specific immunity and microglia depletion leads to worsened demyelination. Oral administration of toll-like receptor (TLR) ligands to virally infected germfree mice limits neurologic damage. Homeostatic activation of microglia is dependent on intrinsic signaling through TLR4, as disruption of TLR4 within microglia, but not the entire CNS (excluding microglia), leads to increased viral-induced clinical disease. This work demonstrates that gut immune-stimulatory products can influence microglia function to prevent CNS damage following viral infection.

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Translation of hepatitis a virus RNA in Vitro: Aberrant internal initiations influenced by 5′ noncoding region

et al. 1991

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Molecular patterns from a human gut-derived Lactobacillus strain suppress pathogenic infiltration of leukocytes into the central nervous system

Sanchez

Doty

DePaula-Silva

et al. 2020

J Neuroinflammation

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Background Multiple sclerosis (MS) is an inflammatory demyelinating disease that affects 2.5 million people worldwide. Growing evidence suggests that perturbation of the gut microbiota, the dense collection of microorganisms that colonize the gastrointestinal tract, plays a functional role in MS. Indeed, specific gut-resident bacteria are altered in patients with MS compared to healthy individuals, and colonization of gnotobiotic mice with MS-associated microbiota exacerbates preclinical models of MS. However, defining the molecular mechanisms by which gut commensals can remotely affect the neuroinflammatory process remains a critical gap in the field. Methods We utilized monophasic experimental autoimmune encephalomyelitis (EAE) in C57BL/6J mice and relapse-remitting EAE in SJL/J mice to test the effects of the products from a human gut-derived commensal strain of Lactobacillus paracasei (Lb). Results We report that Lb can ameliorate preclinical murine models of MS with both prophylactic and therapeutic administrations. Lb ameliorates disease through a Toll-like receptor 2-dependent mechanism via its microbe-associated molecular patterns that can be detected in the systemic circulation, are sufficient to downregulate chemokine production, and can reduce immune cell infiltration into the central nervous system (CNS). In addition, alterations in the gut microbiota mediated by Lb-associated molecular patterns are sufficient to provide partial protection against neuroinflammatory diseases. Conclusions Local Lb modulation of the gut microbiota and the shedding of Lb-associated molecular patterns into the circulation may be important physiological signals to prevent aberrant peripheral immune cell infiltration into the CNS and have relevance to the development of new therapeutic strategies for MS.

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Dual colorimetric and fluorogenic probes for visualizing tyrosine phosphatase activity

et al. 2017

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D. Garrett Brown

Expansion of Bacteriophages Is Linked to Aggravated Intestinal Inflammation and Colitis

The microbiota protects from viral-induced neurologic damage through microglia-intrinsic TLR signaling

Translation of hepatitis a virus RNA in Vitro: Aberrant internal initiations influenced by 5′ noncoding region

Molecular patterns from a human gut-derived Lactobacillus strain suppress pathogenic infiltration of leukocytes into the central nervous system

Dual colorimetric and fluorogenic probes for visualizing tyrosine phosphatase activity

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