Translocation of a gut pathobiont drives autoimmunity in mice and humans

S. Manfredo Vieira; M. Hiltensperger; V. Kumar; D. Zegarra-Ruiz; C. Dehner; N. Khan; F. R.C. Costa; E. Tiniakou; T. Greiling; W. Ruff; A. Barbieri; C. Kriegel; S. S. Mehta; J. R. Knight; D. Jain; A. L. Goodman; M. A. Kriegel

doi:10.1126/science.aar7201

Translocation of a gut pathobiont drives autoimmunity in mice and humans

S. Manfredo Vieira, M. Hiltensperger, V. Kumar, D. Zegarra-Ruiz, C. Dehner, N. Khan, F. R.C. Costa, E. Tiniakou, T. Greiling, W. Ruff, A. Barbieri, C. Kriegel, S. S. Mehta, J. R. Knight, D. Jain, A. L. Goodman, M. A. Kriegel

Dermatology

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Abstract

Despite multiple associations between the microbiota and immune diseases, their role in autoimmunity is poorly understood. We found that translocation of a gut pathobiont, Enterococcus gallinarum, to the liver and other systemic tissues triggers autoimmune responses in a genetic background predisposing to autoimmunity. Antibiotic treatment prevented mortality in this model, suppressed growth of E. gallinarum in tissues, and eliminated pathogenic autoantibodies and T cells. Hepatocyte–E. gallinarum cocultures induced autoimmune-promoting factors. Pathobiont translocation in monocolonized and autoimmune-prone mice induced autoantibodies and caused mortality, which could be prevented by an intramuscular vaccine targeting the pathobiont. E. gallinarum–specific DNA was recovered from liver biopsies of autoimmune patients, and cocultures with human hepatocytes replicated the murine findings; hence, similar processes apparently occur in susceptible humans. These discoveries show that a gut pathobiont can translocate and promote autoimmunity in genetically predisposed hosts.

Original language	English (US)
Pages (from-to)	1156-1161
Number of pages	6
Journal	Science
Volume	359
Issue number	6380
DOIs	https://doi.org/10.1126/science.aar7201
State	Published - Mar 9 2018

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Manfredo Vieira, S., Hiltensperger, M., Kumar, V., Zegarra-Ruiz, D., Dehner, C., Khan, N., Costa, F. R. C., Tiniakou, E., Greiling, T., Ruff, W., Barbieri, A., Kriegel, C., Mehta, S. S., Knight, J. R., Jain, D., Goodman, A. L., & Kriegel, M. A. (2018). Translocation of a gut pathobiont drives autoimmunity in mice and humans. Science, 359(6380), 1156-1161. https://doi.org/10.1126/science.aar7201

Manfredo Vieira, S, Hiltensperger, M, Kumar, V, Zegarra-Ruiz, D, Dehner, C, Khan, N, Costa, FRC, Tiniakou, E, Greiling, T, Ruff, W, Barbieri, A, Kriegel, C, Mehta, SS, Knight, JR, Jain, D, Goodman, AL & Kriegel, MA 2018, 'Translocation of a gut pathobiont drives autoimmunity in mice and humans', Science, vol. 359, no. 6380, pp. 1156-1161. https://doi.org/10.1126/science.aar7201

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title = "Translocation of a gut pathobiont drives autoimmunity in mice and humans",

abstract = "Despite multiple associations between the microbiota and immune diseases, their role in autoimmunity is poorly understood. We found that translocation of a gut pathobiont, Enterococcus gallinarum, to the liver and other systemic tissues triggers autoimmune responses in a genetic background predisposing to autoimmunity. Antibiotic treatment prevented mortality in this model, suppressed growth of E. gallinarum in tissues, and eliminated pathogenic autoantibodies and T cells. Hepatocyte–E. gallinarum cocultures induced autoimmune-promoting factors. Pathobiont translocation in monocolonized and autoimmune-prone mice induced autoantibodies and caused mortality, which could be prevented by an intramuscular vaccine targeting the pathobiont. E. gallinarum–specific DNA was recovered from liver biopsies of autoimmune patients, and cocultures with human hepatocytes replicated the murine findings; hence, similar processes apparently occur in susceptible humans. These discoveries show that a gut pathobiont can translocate and promote autoimmunity in genetically predisposed hosts.",

author = "{Manfredo Vieira}, S. and M. Hiltensperger and V. Kumar and D. Zegarra-Ruiz and C. Dehner and N. Khan and Costa, {F. R.C.} and E. Tiniakou and T. Greiling and W. Ruff and A. Barbieri and C. Kriegel and Mehta, {S. S.} and Knight, {J. R.} and D. Jain and Goodman, {A. L.} and Kriegel, {M. A.}",

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AU - Dehner, C.

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AU - Tiniakou, E.

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AU - Ruff, W.

AU - Barbieri, A.

AU - Kriegel, C.

AU - Mehta, S. S.

AU - Knight, J. R.

AU - Jain, D.

AU - Goodman, A. L.

AU - Kriegel, M. A.

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N2 - Despite multiple associations between the microbiota and immune diseases, their role in autoimmunity is poorly understood. We found that translocation of a gut pathobiont, Enterococcus gallinarum, to the liver and other systemic tissues triggers autoimmune responses in a genetic background predisposing to autoimmunity. Antibiotic treatment prevented mortality in this model, suppressed growth of E. gallinarum in tissues, and eliminated pathogenic autoantibodies and T cells. Hepatocyte–E. gallinarum cocultures induced autoimmune-promoting factors. Pathobiont translocation in monocolonized and autoimmune-prone mice induced autoantibodies and caused mortality, which could be prevented by an intramuscular vaccine targeting the pathobiont. E. gallinarum–specific DNA was recovered from liver biopsies of autoimmune patients, and cocultures with human hepatocytes replicated the murine findings; hence, similar processes apparently occur in susceptible humans. These discoveries show that a gut pathobiont can translocate and promote autoimmunity in genetically predisposed hosts.

AB - Despite multiple associations between the microbiota and immune diseases, their role in autoimmunity is poorly understood. We found that translocation of a gut pathobiont, Enterococcus gallinarum, to the liver and other systemic tissues triggers autoimmune responses in a genetic background predisposing to autoimmunity. Antibiotic treatment prevented mortality in this model, suppressed growth of E. gallinarum in tissues, and eliminated pathogenic autoantibodies and T cells. Hepatocyte–E. gallinarum cocultures induced autoimmune-promoting factors. Pathobiont translocation in monocolonized and autoimmune-prone mice induced autoantibodies and caused mortality, which could be prevented by an intramuscular vaccine targeting the pathobiont. E. gallinarum–specific DNA was recovered from liver biopsies of autoimmune patients, and cocultures with human hepatocytes replicated the murine findings; hence, similar processes apparently occur in susceptible humans. These discoveries show that a gut pathobiont can translocate and promote autoimmunity in genetically predisposed hosts.

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Translocation of a gut pathobiont drives autoimmunity in mice and humans

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