From Structure, to Function, to Pathogenesis: Understanding the Immunological Consequences of The Unique Peptidoglycan of Borrelia burgdorferi

Davis, Marisela Martinez

21 May 2020

The bacterial pathogen responsible for Lyme disease ¬— Borrelia burgdorferi— is an atypical Gram-negative spirochete that is transmitted to humans via the bite of an infected Ixodes tick. Like all Gram-negative bacteria the structural portion of the cell envelope known as peptidoglycan (PG) is sandwiched between the inner and outer membranes. Unlike virtually all bacteria, this PG layer is unique in B. burgdorferi in that the amino acid structure differs from most Gram-negative and Gram-positive bacteria by the addition of an Ornithine residue to the third amino acid location in the crosslinking structure. This unique motif is hypothesized to be responsible for the unusual clinical manifestations seen in Lyme disease, specifically Lyme arthritis, the most common late stage symptom of the disease in the United States. Peptidoglycan is only one component of the cell envelope in B. burgdorferi though; other portions of the cell envelope remain understudied specifically when viewed through the lens of the immune response they may elicit in addition to that of PG. The combined immunological effect of the unique bacterial antigen found in B. burgdorferi PG, as well as other potentially associated proteins contained within the cell wall, are explored here. These studies further our understanding of the B. burgdorferi cell envelope and provide critical information that underlies the elusive pathogenesis of Lyme disease. / Master of Science in Life Sciences / Lyme disease is a growing health concern, namely for the countries in the Northern Hemisphere. The bacterium responsible for this illness is Borrelia burgdorferi. B. burgdorferi can survive in the human body and is a threat in that as it replicates in the human host, it sheds pro-inflammatory fragments of its unique cell wall into the environment. This thesis will explore the consequences of this cell wall shedding and how the human immune response differs from the response seen in other more common bacteria. Additionally, I have found that the cell envelope fragments shed from B. burgdorferi may contain more than meets the eye. There is evidence here to support the discovery of a moonlighting protein that is bound to a portion of the cell wall in B. burgdorferi. This protein acts to bolster the structural integrity of the cell while also acting to modulate the host immune response.

Lyme disease

Borrelia burgdorferi

peptidoglycan

innate/adaptive immunity

Imunopatologia da lesão pulmonar causada pela infecção do H1N1 / Immunopathology of the infection caused by H1N1

Buttignol, Monique

30 August 2016

Introdução: Durante o inverno de 2009, o vírus influenza A(H1N1)09pdm surgiu e se espalhou globalmente. A infecção por este vírus pode induzir a síndrome do desconforto respiratório agudo (SDRA) em alguns pacientes. O dano alveolar difuso (DAD), padrão histopatológico principal da SDRA, tem etiologia multifatorial, sendo possível que a imunopatologia seja diferente nas várias apresentações do DAD. Objetivo: Descrever, quantificar e comparar a imunopatologia viral (influenza A (H1N1) pdm09) e não-viral em casos de autópsia com dano alveolar difuso. Métodos: Foram analisados tecidos pulmonares de autopsia de 44 pacientes, sendo divididos em 3 grupos: grupo H1N1 (n=15), caracterizado por DAD secundário à influenza A(H1N1)pdm09; grupo SDRA (n=13), caracterizado por pacientes com DAD exsudativo de causas não-pulmonares; e o grupo de controle (n=16) com indivíduos que faleceram de causas não-pulmonares. Foram utilizadas as técnicas de imunohistoquímica e análise de imagem para quantificar, no parênquima pulmonar e nas pequenas vias aéreas, os marcadores de células imunes. Resultados: Foi observada uma elevada densidade celular de linfócitos T CD4+ e T CD8+, células Natural Killer CD57+, células dendríticas CD83+ e granzima A+ no parênquima pulmonar do grupo H1N1 (p < 0,05) em relação aos outros grupos. Na análise das pequenas vias aéreas, observou-se uma menor densidade célular de mastócitos (triptase), células dendríticas (CD207), e um aumento de IL-17 nos grupos H1N1 e SDRA, além de um aumento do número de granzimas A+ e diminuição de celulas dendríticas (CD83) apenas no grupo H1N1 (p < 0,05). Conclusão: O DAD causado pelo vírus influenza A (H1N1) pdm09 está associado com um fenótipo citotóxico inflamatório diferente do DAD de causas não-virais, com uma resposta parcialmente divergente no parênquima pulmonar em relação às pequenas vias aéreas / Rationale: The pandemic influenza A (H1N1) virus emerged in 2009 and spread globally. This virus infection can induce acute respiratory distress syndrome (ARDS) in some patients. Diffuse alveolar damage (DAD), which is the histological surrogate for ARDS, has a multifactorial etiology. Therefore, it is possible that the immunopathology differs among the various presentations of DAD. Objectives: To compare the lung immunopathology of viral (influenza A(H1N1)pdm09) to non-viral, extrapulmonary etiologies in autopsy cases with DAD. Methods: The lung tissue of 44 patients, was divided into 3 groups: the H1N1 group (n=15) characterized by DAD due to influenza A(H1N1)pdm09 infection; the ARDS group (n=13), characterized by patients with exudative DAD due to non-pulmonary causes; and the control group (n=16), consisting of patients with non-pulmonary causes of death. Measurements and main results: Immunohistochemistry and image analysis were used to quantify, in the lung parenchyma and small airways, several immune cell markers. There was higher expression of CD4+ and CD8+ T lymphocytes, CD83+ dendritic cells, granzyme A+ and natural killer+ cell density in the lung parenchyma of the H1N1 group (p < 0,05). In the small airways, there was a lower cell density of tryptase+ mast cells and dendritic+ cells and an increase of IL-17 in both DAD groups, with an increased number of granzyme A in H1N1 group (p < 0,05). Conclusion: DAD due to viral A(H1N1)pdm09 is associated with a cytotoxic inflammatory phenotype that is different from non-viral causes of DAD, with partially divergent responses in the parenchyma relative to the small airways.

Acute respiratory distress syndrome

Alergia e imunologia

Alergy and immunology

Immunity innate, Adaptive immunity

Imunidade adaptativa

Imunidade inata

Influenza A virus H1N1 subtype

Lesão pulmonar

Lung injury

Vírus da influenza A subtipo H1N1

Imunopatologia da lesão pulmonar causada pela infecção do H1N1 / Immunopathology of the infection caused by H1N1

Monique Buttignol

30 August 2016

Introdução: Durante o inverno de 2009, o vírus influenza A(H1N1)09pdm surgiu e se espalhou globalmente. A infecção por este vírus pode induzir a síndrome do desconforto respiratório agudo (SDRA) em alguns pacientes. O dano alveolar difuso (DAD), padrão histopatológico principal da SDRA, tem etiologia multifatorial, sendo possível que a imunopatologia seja diferente nas várias apresentações do DAD. Objetivo: Descrever, quantificar e comparar a imunopatologia viral (influenza A (H1N1) pdm09) e não-viral em casos de autópsia com dano alveolar difuso. Métodos: Foram analisados tecidos pulmonares de autopsia de 44 pacientes, sendo divididos em 3 grupos: grupo H1N1 (n=15), caracterizado por DAD secundário à influenza A(H1N1)pdm09; grupo SDRA (n=13), caracterizado por pacientes com DAD exsudativo de causas não-pulmonares; e o grupo de controle (n=16) com indivíduos que faleceram de causas não-pulmonares. Foram utilizadas as técnicas de imunohistoquímica e análise de imagem para quantificar, no parênquima pulmonar e nas pequenas vias aéreas, os marcadores de células imunes. Resultados: Foi observada uma elevada densidade celular de linfócitos T CD4+ e T CD8+, células Natural Killer CD57+, células dendríticas CD83+ e granzima A+ no parênquima pulmonar do grupo H1N1 (p < 0,05) em relação aos outros grupos. Na análise das pequenas vias aéreas, observou-se uma menor densidade célular de mastócitos (triptase), células dendríticas (CD207), e um aumento de IL-17 nos grupos H1N1 e SDRA, além de um aumento do número de granzimas A+ e diminuição de celulas dendríticas (CD83) apenas no grupo H1N1 (p < 0,05). Conclusão: O DAD causado pelo vírus influenza A (H1N1) pdm09 está associado com um fenótipo citotóxico inflamatório diferente do DAD de causas não-virais, com uma resposta parcialmente divergente no parênquima pulmonar em relação às pequenas vias aéreas / Rationale: The pandemic influenza A (H1N1) virus emerged in 2009 and spread globally. This virus infection can induce acute respiratory distress syndrome (ARDS) in some patients. Diffuse alveolar damage (DAD), which is the histological surrogate for ARDS, has a multifactorial etiology. Therefore, it is possible that the immunopathology differs among the various presentations of DAD. Objectives: To compare the lung immunopathology of viral (influenza A(H1N1)pdm09) to non-viral, extrapulmonary etiologies in autopsy cases with DAD. Methods: The lung tissue of 44 patients, was divided into 3 groups: the H1N1 group (n=15) characterized by DAD due to influenza A(H1N1)pdm09 infection; the ARDS group (n=13), characterized by patients with exudative DAD due to non-pulmonary causes; and the control group (n=16), consisting of patients with non-pulmonary causes of death. Measurements and main results: Immunohistochemistry and image analysis were used to quantify, in the lung parenchyma and small airways, several immune cell markers. There was higher expression of CD4+ and CD8+ T lymphocytes, CD83+ dendritic cells, granzyme A+ and natural killer+ cell density in the lung parenchyma of the H1N1 group (p < 0,05). In the small airways, there was a lower cell density of tryptase+ mast cells and dendritic+ cells and an increase of IL-17 in both DAD groups, with an increased number of granzyme A in H1N1 group (p < 0,05). Conclusion: DAD due to viral A(H1N1)pdm09 is associated with a cytotoxic inflammatory phenotype that is different from non-viral causes of DAD, with partially divergent responses in the parenchyma relative to the small airways.

Alergia e imunologia

Imunidade adaptativa

Imunidade inata

Lesão pulmonar

Vírus da influenza A subtipo H1N1

Acute respiratory distress syndrome

Alergy and immunology

Immunity innate, Adaptive immunity

Influenza A virus H1N1 subtype

Lung injury