Heterologous Immunity and T Cell Stability During Viral Infections: A Dissertation

Che, Jenny Wun-Yue

10 February 2014

The immune response to an infection is determined by a number of factors, which also affect the generation of memory T cells afterwards. The immune response can also affect the stability of the pre-existing memory populations. The memory developed after an infection can influence the response to subsequent infections with unrelated pathogens. This heterologous immunity may deviate the course of disease and alter the disease outcome. The generation and stability of memory CD8 T cells and the influence of the history of infections on subsequent heterologous infections are studied in this thesis using different viral infection sequences. Previous studies using mice lacking individual immunoproteasome catalytic subunits showed only modest alterations in the CD8 T cell response to lymphocytic choriomeningitis virus (LCMV). In this study, I found that the CD8 T cell response to LCMV was severely impaired in mice lacking all three catalytic subunits of the immunoproteasome, altering the immunodominance hierarchy of the CD8 T cell response and CD8 T cell memory. Adoptive transfer experiments suggested that both inefficient antigen presentation and altered T cell repertoire contribute to the reduction of the CD8 T cell response in the immunoproteasome knockout mice. Immune responses generated during infections can reduce pre-existing memory T cell populations. Memory CD8 T cells have been shown to be reduced by subsequent heterologous infections. In this study, I re-examined the phenomenon using immune mice infected with LCMV, murine cytomegalovirus (MCMV) and vaccinia virus (VACV) in different infection sequences. I confirmed that memory CD8 T cells were reduced by heterologous infections, and showed that LCMV-specific memory CD4 T cells were also reduced by heterologous infections. Reduction of the memory CD8 T cells is thought to be the result of apoptosis of memory CD8 T cells associated with the peak of type I interferon early during infection. I showed that memory CD4 T cells were similarly driven to apoptosis early during infection; however, Foxp3+ CD4+ regulatory T cells were relatively resistant to virus infection-induced apoptosis, and were stably maintained during LCMV infection. The stability of Treg cells during viral infections may explain the relatively low incidence of autoimmunity associated with infections. The history of infections can deviate the course of disease and affect the disease outcome, but this heterologous immunity is not necessarily reciprocal. Previous studies have shown the effects of heterologous immunity during acute infections. In this thesis, I showed that the history of LCMV infection led to higher viral titers during persistent MCMV infection, caused more severe immunopathology at the beginning of infection, and reduced the number of MCMV-specific inflationary memory CD8 T cells after the period of memory inflation. In a different context of infection, the history of LCMV infection can be beneficial. LCMV-immune mice have been shown to have lower viral titers after VACV infection, but VACV-immune mice are not protected during LCMV infection. I found that memory CD8 T cells generated from LCMV and VACV infections were phenotypically different, but the differences could not explain the nonreciprocity of heterologous immunoprotection. By increasing the number of crossreactive VACV A11R198-205-specific memory CD8 T cells, however, I showed that some VACV-immune mice displayed reduced viral titers upon LCMV challenge, suggesting that the low number of potentially cross-reactive CD8 T cells in VACV-immune mice may be part of the reasons for the non-reciprocity of immunoprotection between LCMV and VACV. Further analysis deduced that both number of potentially cross-reactive memory CD8 T cells and the private specificity of memory CD8 T cell repertoire played a part in determining the outcome of heterologous infections.

Heterologous Immunity

Viral Antigens

CD8-Positive T-Lymphocytes

Immunologic Memory

Viruses

Dissertations, UMMS

Immunity, Heterologous

Antigens, Viral

Immunity

Immunology of Infectious Disease

Virology

Role of Virus-Specific CD8+ T Cells in the Severity of Hantavirus Pulmonary Syndrome: A Dissertation

Kilpatrick, Elizabeth D.

05 January 2004

The focus of this dissertation is the role of specific CD8+ T cells in the pathogenesis of a highly lethal human viral disease, hantavirus pulmonary syndrome (HPS). HPS is a zoonotic disease caused by transmission of Sin Nombre virus (SNV) from chronically infected deer mice. In humans, this fulminant infection is characterized by lung capillary leakage, respiratory failure and cardiogenic shock. Individuals with HLA-B*3501 have an increased risk of developing severe HPS, and the majority of defined CD8+ T cell epitopes in SNV are presented by this HLA allele, suggesting that CD8+ T cell responses to SNV contribute to pathogenesis. We speculate that CD8+ T cell mediated immune responses to SNV antigens in pulmonary endothelial cells contribute to the pathology of HPS. Specifically, we hypothesize that there are quantitative and/or qualitative differences in SNV-specific CD8+ T cell responses in HPS patients with moderate vs. severe disease. In this dissertation I measured the frequencies of SNV-specific CD8+ T cells during acute HPS. Using HLA/peptide tetramers, I quantitated circulating SNV-specific CD8+ T cells of all the available HLA-B35+ patients with HPS caused by SNV. This is the first time hantavirus-specific T cells have been quantitated during acute infection. I report that between 2.9% and 44.2% of the CD8+ T cells were specific for the three SNV epitopes in combination during acute disease in the patients analyzed in this study. These levels are very high in comparison to the frequencies reported in the literature for other acute human viral infections. Furthermore, I report significantly higher frequencies of SNV-specific T cells in patients with severe HPS requiring mechanical ventilation (up to 44.2% of CD8+ T cells) than in moderately ill HPS patients hospitalized but not requiring mechanical ventilation (up to 9.8% of CD8+ T cells). These results imply that virus-specific CD8+ T cells contribute to HPS disease outcome. In this dissertation I also provide preliminary data on qualitative aspects of SNV-specific T cells. Analysis of the TCR repertoire of SNV-specific T cell lines isolated from the PBMC of acute HPS patients raises the possibility that SNV-specific T cells express a limited number of TCR Vβ alleles; however, this is quite speculative because it is based on the analysis of only seven CTL lines. Analysis of cytokine expression by the CTL lines in response to in vitro antigen-specific stimulation indicate that SNV-specific T cells are capable of secreting IFN-γ, TNF-α, and IL-13 upon stimulation. The data presented in this dissertation extend previous studies, which suggested a role for virus-specific T cells in HPS pathogenesis and support our hypothesis that virus-specific CD8+ T cells contribute to HPS disease outcome. The results of this study will be useful in the design of future therapeutic strategies for this emerging human pathogen. The conclusions of this study may also benefit the study of other human viral hemorrhagic fevers. Improved understanding of the mechanism of pathogenesis of severe viral zoonoses will result in better treatment and prevention strategies.

CD8-Positive T-Lymphocytes

Hantavirus Pulmonary Syndrome

Sin Nombre virus

T-Lymphocytes

Academic Dissertations

Dissertations, UMMS

Life Sciences

Medicine and Health Sciences

On the Source of Peptides for Major Histocompatibility Class I Antigen Presentation: A Dissertation

Farfán Arribas, Diego José

04 April 2012

Peptides generated from cellular protein degradation via the ubiquitin-proteasome pathway are presented on MHC class I as a means for the immune system to monitor polypeptides being synthesized by cells. For CD8 + T cells to prevent the spread of an incipient infection, it appears essential they should be able to sense foreign polypeptides being synthesized as soon as possible. A prompt detection of viral proteins is of great importance for the success of an adaptive immune response. Defective ribosomal products (DRiPs) have been postulated as a preferential source which would allow for a rapid presentation of peptides derived from the degradation of all newly synthesized proteins. Although this hypothesis is intellectually appealing there is lack of experimental data supporting a mechanism that would prioritize presentation from DRiPs. In this dissertation I describe a series of experiments that probe the DRiPs hypothesis by assessing the contribution to class I presentation of model epitopes derived from DRiPs or from functional proteins. The results show that even at the early stages after mRNA synthesis DRiPs do not account for a significant fraction of the class I presented peptides. These observations suggest that the currently widespread model whereby a mechanism exists which selectively allows for DRiPs to preferentially contribute to class I antigen presentation, is incorrect. Rather, properly folded functional proteins can significantly contribute to class I antigen presentation as they are normally turned over by the ubiquitin-proteasome pathway.

Histocompatibility Antigens Class I

Antigen Presentation

CD8-Positive T-Lymphocytes

Ribosomes

Amino Acids, Peptides, and Proteins

Biological Factors

Cells

Hemic and Immune Systems

Immunology and Infectious Disease

IRF4 Does the Balancing Act: A Dissertation

Nayar, Ribhu

07 January 2015

CD8+ T cell differentiation is a complex process that requires integration of signals from the TCR, co-stimulatory molecules and cytokines. Ligation of the peptide-MHC complex with the cognate TCR initiates a downstream signaling cascade of which the IL-2 inducible T-cell kinase (ITK) is a key component. Loss of ITK results in a measured reduction in T cell activation. Consequently, Itk deficient mice have defects in thymic selection, CD8+ T cell expansion and differentiation in response to virus infections, and generate a unique population of innate-like CD8+ T cells. The mechanisms that translate TCR and ITK-derived signals into distinct gene transcription programs that regulate CD8+ T cell differentiation are not defined. Our microarray screen identified IRF4 as a potential transcription factor mediating the differentiation of innate-like T cells, and antiviral CD8+ T cell in response to acute and chronic LCMV infections. Innate-like CD8+ T cells are characterized by their high expression of CD44, CD122, CXCR3, and the transcription factor Eomesodermin (Eomes). One component of this altered development is a non-CD8+ T cell-intrinsic role for IL-4. We show that IRF4 expression is induced upon TCR signaling and is dependent on ITK activity. In contrast to WT cells, activation of IRF4-deficient CD8+ T cells leads to rapid and robust expression of Eomes, which is further enhanced by IL-4 stimulation. These data indicate that ITK signaling promotes IRF4 up-regulation following CD8+ T cell activation and that this signaling xii pathway normally suppresses Eomes expression, thereby regulating the differentiation pathway of CD8+ T cells. ITK deficient mice also have reduced expansion of CD8+ T cells in response to acute LCMV infections. We show that IRF4 is transiently upregulated to differing levels in murine CD8+ T cells, based on the strength of TCR signaling. In turn, IRF4 controls the magnitude of the CD8+ T cell response to acute virus infection in a dose-dependent manner. Furthermore, the expression of key transcription factors such as T cell factor 1 and Eomesodermin are highly sensitive to graded levels of IRF4. In contrast, T-bet expression is less dependent on IRF4 levels and is influenced by the nature of the infection. These data indicate that IRF4 is a key component that translates the strength of TCR signaling into a graded response of virus-specific CD8+ T cells. The data from these studies indicated a pivotal role of IRF4 in regulating the expression of T-bet and Eomes. During persistent LCMV infections, CD8+ T cells differentiate into T-bethi and Eomeshi subsets, both of which are required for efficient viral control. We show that TCR signal strength regulates the relative expression of T-bet and Eomes in antigen-specific CD8+ T cells by modulating levels of IRF4. Reduced IRF4 expression results in skewing of this ratio in favor of Eomes, leading to lower proportions and numbers of T-bet+ Eomes- precursors and poor control of LCMV Clone 13 infection. Altering this ratio in favor of T-bet xiii restores the differentiation of T-bet+ Eomes- precursors and the protective balance of T-bet to Eomes required for efficient viral control. These data highlight a critical role for IRF4 in regulating protective anti-viral CD8+ T cell responses by ensuring a balanced ratio of T-bet to Eomes, leading to the ultimate control of this chronic viral infection.

Interferon Regulatory Factors

CD8-Positive T-Lymphocytes

Cell Differentiation

Lymphocytic choriomeningitis virus

T Cell Transcription Factor 1

Dissertations, UMMS

Cellular and Molecular Physiology

Immunity

Immunology of Infectious Disease

Memory CD8+ T Cell Function during Mycobacterium Tuberculosis Infection: A Dissertation

Carpenter, Stephen M.

30 June 2016

T cell vaccines against Mycobacterium tuberculosis (Mtb) and other pathogens are based on the principle that memory T cells rapidly generate effector responses upon challenge, leading to pathogen clearance. Despite eliciting a robust memory CD8+ T cell response to the immunodominant Mtb antigen TB10.4 (EsxH), we find the increased frequency of TB10.4-specific CD8+ T cells conferred by vaccination to be short-lived after Mtb challenge. To compare memory and naïve CD8+ T cell function during their response to Mtb, we track their expansions using TB10.4-specific retrogenic CD8+ T cells. We find that the primary (naïve) response outnumbers the secondary (memory) response during Mtb challenge, an effect moderated by increased TCR affinity. To determine whether the expansion of polyclonal memory T cells is restrained following Mtb challenge, we used TCRb deep sequencing to track TB10.4-specific CD8+ T cells after vaccination and subsequent challenge in intact mice. Successful memory T cells, defined by their clonal expansion after Mtb challenge, express similar CDR3b sequences suggesting TCR selection by antigen. Thus, both TCR-dependent and independent factors affect the fitness of memory CD8+ responses. The impaired expansion of the majority of memory T cell clonotypes may explain why some TB vaccines have not provided better protection.

Tuberculosis

Mycobacterium tuberculosis

CD8-Positive T-Lymphocytes

T-Lymphocytes

Vaccination

Vaccines

Dissertations, UMMS

Bacterial Infections and Mycoses

Bacteriology

Immunology of Infectious Disease

Immunoprophylaxis and Therapy

Pathogenic Microbiology

CD4⁺ and CD8⁺ naïve T-cell homeostasis in primary progressive multiple sclerosis

Hackenbroch, Jessica.

January 2007

No description available.

Homeostasis -- immunology.

Resposta Vif- e Nef-específica mediada por células T CD8+ em indivíduos HIV-1-positivos que espontaneamente controlam a replicação viral / CD8-mediated Vif- and Nef-specific responses in HIV-1-infected individuals who spontaneously control viral replication

Tarosso, Leandro Fagundes da Silva

05 July 2010

Indivíduos infectados pelo vírus da imunodeficiência humana do tipo 1 (HIV-1) que controlam a replicação viral, mesmo na ausência de tratamento com drogas antirretrovirais, representam um exemplo de contenção bemsucedida do vírus. O entendimento das respostas imunes antivirais presentes nestes indivíduos pode auxiliar no delineamento de vacinas, particularmente no caso de estratégias vacinais desenvolvidas para induzir um fenótipo de controle da replicação viral e, assim, diminuir o ritmo da progressão à AIDS e/ou a taxa de transmissão para terceiros. A resposta imune celular contra HIV-1 é geralmente mapeada em ensaios de ELISPOT-IFN-γ empregando-se peptídeos pentadecâmeros sobrepostos por 11 aminoácidos sintetizados a partir de seqüências consensuais do vírus. Contudo, este método pode subestimar a detecção da real amplitude da resposta imune celular contra epitopos contidos na seqüência autóloga do vírus infectivo. Neste trabalho, foram comparadas respostas imunes celulares contra peptídeos 15-meros baseados nas seqüências de vif e nef do consenso do subtipo B do HIV-1 e respostas imunes contra peptídeos HLA-restritos de nove ou 10 aminoácidos baseados tanto nas seqüências de vif e nef do consenso do subtipo B do HIV-1, quanto nas seqüências autólogas dos vírus seqüenciados a partir de seis pacientes controladores da replicação do HIV-1. Nossa análise revelou que três dos seis pacientes investigados mostraram maior amplitude de resposta imune celular contra epitopos em Vif e Nef quando os peptídeos HLA-restritos foram empregados, tenham sido eles preditos a partir da seqüência consensual ou a partir das seqüências do vírus autólogo. O número de respostas positivas aumentou de quatro para 16 em Vif e de oito para 22 em Nef, com o uso dos reagentes HLA-restritos. Estes resultados sugerem que emprego de peptídeos 15-meros pode sub-representar a amplitude real da resposta imune celular envolvidas no controle da replicação do HIV-1 e que o conhecimento acerca das respostas imunes de sucesso em indivíduos controladores pode ser melhorado e ampliado com a revisão dos métodos empregados. / Human immunodeficiency virus type 1 (HIV-1)-infected individuals who spontaneously control viral replication represent an example of successful containment of the AIDS virus. Understanding the anti-viral immune responses in these individuals may help in vaccine design, particularly vaccine strategies designed to induce a controller phenotype and thus, prevent disease progression and decrease risk of transmission. Immune responses against HIV-1 are normally screened using 15-mer peptides overlapped by 11 amino acids from HIV-1 consensus sequences in ELISPOT-IFN-γ assays. However, this method may underestimate the real breadth of the cellular immune responses against the autologous sequence of the infecting virus. We compared cellular immune responses against nef and vif-encoded consensus B 15-mer peptides to responses against HLA class I-predicted minimal optimal epitopes from consensus B and autologous sequences in six patients who have controlled HIV-1 replication. Interestingly, our analysis revealed that three of our patients had broader cellular immune responses against Vif- and Nef-HLA class I-predicted minimal optimal epitopes from either autologous viruses or from the consensus B sequence, when compared to responses against the 15-mer HIV-1 consensus B peptides. The number of positive responses against epitopes in these two HIV-1 proteins increased from four to 16 for Vif and from eight to 22 for Nef. These findings suggest that immune responses assessed using 15-mers peptides may underrepresent the real breadth of the immune control of the infecting virus and the knowledge about the successful responses in controller individuals could be improved after reviewing the employed methods.

Carga viral

CD8-positive T-lymphocytes

Gene products vif

HIV long-term survivors

HIV-1/immunology

HIV-1/imunologia

Interferon gama/análise

Interferon-gamma/analysis

Linfócitos T CD8-positivos

Paciente HIV positivo não progressor

Peptídeos

Peptides

Proteína Vif

Viral load

Avaliação do perfil de ativação de células T nas fases recente e estabelecida de infecções por subtipos C e não C do vírus HIV-1 / Evaluation of the T cell activation profile in the recent and established stages of HIV-1 virus C and non-C subtype infections

Costa, Priscilla Ramos

23 February 2017

A pandemia Hiv/ Aids já resultou em mais de 34 milhões de pessoas infectadas pelo vírus no mundo até o momento. Causada pelo HIV, de caráter crônico que evolui para um quadro clínico de imunodeficiência (Aids), pode tornar o indivíduo susceptível a infecções oportunistas potencialmente letais. Diferentes fatores foram identificados por ativar o sistema imune, incluindo genótipos do hospedeiro (HLAB-27, HLA-B57, CCR5delta32), co-infecções (GBV-C) e alguns fatores virais como a capacidade de replicação (fitness) e tropismo celular. O HIV-1 possui diversidade genética extensa e dinâmica. Considerando a variabilidade genética dentro do cenário da epidemia no Brasil, as clades do HIV-1 predominantes são B, F e C, além de formas recombinantes. Contudo, ainda não foi completamente estabelecido se essa diversidade genética possa influenciar o curso clínico da doença. O objetivo deste trabalho foi avaliar o perfil de ativação celular induzido encontrado em indivíduos infectados por subtipos virais C e Não- C do HIV-1, durante o primeiro ano de infecção (analisando as fases recente e estabelecida). A análise comparativa dos dois grupos (subtipos C vs. Não-C), identificou no grupo do subtipo-C uma maior frequência de células T CD4+ totais ativadas, como também uma maior frequência e ativação nas subpopulações de células T CD4+ de memória, principalmente memória efetora e efetora terminal, na fase estabelecida. Em relação às células T CD8+, deparamos na fase estabelecida com uma maior frequência de células T CD8+ de memória efetora e ativação das mesmas no grupo do subtipo-C em relação ao grupo do subtipo Não-C. Investigamos também a presença de células T CD4+ que se diferenciaram em células T reguladoras, e foi encontrada uma frequência diminuída dessas células no grupo do subtipo C em relação ao Não- C tanto na fase recente como na fase estabelecida. Na análise comparativa das fases recente e estabelecida, o grupo do subtipo Não-C apresentou um declínio tanto na quantidade de células T CD4+ como na frequência de células T CD8+ ativadas após um ano de infecção. Com base nos resultados encontrados, os dois grupos apresentaram perfis de ativação e diferenciação celular diferentes no primeiro ano de infecção pelo HIV-1, o que aponta para diferentes histórias naturais quando comparamos infecção por clades virais distintas / The Hiv/ Aids pandemic has affected more than 34 million people worldwide, reaching men, women and children. Caused by the HIV virus, a chronic infection that develops into a clinical picture of immunodeficiency (Aids), it can make the individual susceptible to opportunistic infections and result in death. Different factors were identified by activating the immune system, including host genotypes (HLAB-27, HLA-B57, CCR5delta32), co-infections (GBV-C) and some viral factors such as fitness and cellular tropism. The HIV-1 presents an extensive and dynamic genetic diversity, favoring the production of variants with molecular differences. Considering the genetic variability within the scenario of the epidemic in Brazil, the predominant subtypes of HIV-1 are B, F and C. However, it has not yet been completely established if this genetic diversity can impact the clinical course of the disease. The objective of this study was to evaluate the induced cellular activation profile found in HIV-1 C and non-C viral subtypes groups in the first year of infection (analyzing the recent and established phases). The comparative analysis of the two groups (subtypes C vs. Non-C) identified a higher frequency of activated CD4+ T cells in the C-subtype group, as well as a higher frequency and activation in CD4+ T-cell subsets of memory, mainly effector memory and terminal effector on the established phase. About CD8+ T cells, we found in the established phase a higher frequency and activation in the effector memory subset in the C- subtype group compared to the non- C subtype group. We also investigated the presence of CD4+ T cells differentiated into regulators T cells, and a decreased frequency of these cells was found in the subtype C group over non- C in both the recent and established phases. In the recent and established phase comparative analysis evidenced that the non-C subtype group presented a decline in both the number of CD4+ T cells and the CD8+ T-cell activated frequency after 1 year of infection, however, it presented a positive correlation between the viral load and frequency of activated CD4+ and CD8+ T cells in both phases. Based on the results found, the two groups presented different activation and differentiation profiles in the first year of HIV-1 infection, which points to different natural histories when comparing infection with different viral clades

Ativação linfocitária

CD4-positive T lymphocytes

CD8-positive T- lymphocytes

Linfócitos T CD4 positivos

Linfócitos T CD8 positivos

Linfócitos T reguladores

Subtipos do vírus HIV-1

T- lymphocytes regulatory

Análise do perfil fenotípico e funcional das células natural Killer e linfócitos TCD8+ no Líquen plano / Analysis of phenotypic and functional profile of Natural Killer cells and CD8 + T lymphocytes in Lichen planus

Carvalho, Gabriel Costa de

24 May 2016

INTRODUÇÃO: Líquen plano (LP) é uma doença mucocutânea de natureza inflamatória crônica de etiologia ainda desconhecida. Alterações na resposta imune inata, como aos padrões moleculares associados à patógenos (PAMPs) e padrões moleculares associados ao dano (DAMPs) podem levar à inflamação crônica e contribuir com a patogênese do LP. OBJETIVO: Avaliar o efeito da ativação via o DAMP S100A8 e o receptor Toll-like 4 (TLR-4) em células Natural killer (NK) e TCD8 citotóxicas e suas subpopulações de memória/efetoras em pacientes com LP. MÉTODOS: Foram selecionados 25 pacientes com LP (22 mulheres, 3 homens) com idade média de 43,46 anos ± 8,46 e um grupo controle com 25 indivíduos (22 mulheres, 3 homens) com idade média de 42 anos ± 5,5. A determinação transcricional e da expressão por imunohistoquimica dos DAMPs S100A8, HMGB-1 e de TLR-4 e RAGE foi realizada em biópsias de lesões cutâneas de indivíduos com LP, e os níveis séricos de S100A8, HMGB-1, MICA e MICB foram determinados por ELISA. As células mononucleares (CMNs) de sangue periférico foram avaliadas por citometria de fluxo quanto a frequência de TNF, IL-1beta e o marcador de desgranulação CD107a em células TCD8+ e células NK CD56+ e suas subpopulações. A avaliação da via de sinalização de TLR em células TCD8+ purificadas e ativadas com S100A8 foi analisada por PCR array e a determinação da expressão de mRNA dos componentes do inflamassoma em células TCD8+ ativadas com S100A8 por PCR em tempo real. RESULTADOS: Foi evidenciado nos indivíduos com LP elevada expressão da proteína S100A8 nas lesões cutâneas e de HMGB-1, TLR-4 e RAGE na derme, em paralelo ao aumento da expressão de mRNAs para S100A8 e S100A9 e diminuição de RAGE. Além disto, uma elevação dos níveis séricos do dímero S100A8/A9 foi detectada nos pacientes comparados aos controles, ao contrário do DAMP HMGB-1 que mostrou níveis similares em ambos os grupos. A influência do S100A8 em células TCD8+ e células NK, foi analisada em CMNs pela ativação com o lipopolissacáride e a proteína recombinante S100A8, ambos ligantes de TLR-4. Nos indivíduos com LP foi detectado aumento da resposta citotóxica de linfócitos TCD8+ e células NK CD56bright pela expressão do marcador de desgranulação CD107a por citometria de fluxo. A proteína S100A8 foi capaz de induzir a expressão de genes pró-inflamatórios como IL-1beta, TNF e IL-6 em células TCD8+ de pacientes com LP em contraste com os indivíduos saudáveis que mostraram expressão IL-10 e IFN tipo I. As células TCD8+ de indivíduos com LP ativadas ou não com S100A8 expressam transcritos de NLRP1, NLRP3 e AIM-2 e produzem IL-1beta em níveis similares a controles saudáveis. Além disso, células TCD8+ ativadas com S100A8 mostraram aumento de expressão TLR3, TLR5, TLR7 e TLR8 na doença comparada às biopsias de controles. O aumento da resposta TCD8+ citotóxica foi principalmente mediado pelo subtipo de memória efetora (TEM, CCR7- CD45RA-). Elevação basal da expressão do receptor ativador NKG2D e inibidor NKG2A foi observado em células NK CD56dim nos indivíduos com LP e um nível similar do ligante solúvel MICB em ambos os grupos. CONCLUSÃO: Estes resultados evidenciam que componentes da imunidade inata, como a proteína S100A8 pode contribuir na manutenção do perfil inflamatório do LP / BACKGROUND: Lichen planus (LP) is a mucocutaneous inflammatory chronic disease of unknown etiology. Alterations in the innate immune response such as the pathogen-associated molecular pattern (PAMPs) and damage-associated molecular pattern (DAMPs) can lead to chronic inflammation and contribute to the pathogenesis of LP. OBJECTIVE: Evaluate the effect of the activation trough the DAMP S100A8 and the Toll-like receptor 4 (TLR-4) on the Natural killer cells (NK) and cytotoxic TCD8 cells and their memory / effector subsets in LP disease. METHODS: We selected 25 patients with LP (22 women, 3 men) with a mean age of 43.46 years ± 8.46 and a control group of 25 subjects (22 women, 3 men) with a mean age of 42 ± 5, 5. The transcriptional determination and protein expression by immunohistochemistry of DAMPs, S100A8 and HMGB-1 as well as TLR-4 and RAGE was performed on biopsies of skin lesions from patients with LP, and serum levels of S100A8, HMGB-1, MICA and MICB were determined by ELISA. Peripheral blood mononuclear cells (PBMCs) were assessed by flow cytometry to evaluate the frequency of TNF, IL-1beta and the degranulation marker CD107a in CD8+ T cells and CD56 + NK cells and their subsets. The evaluation of the TLR signaling pathway in purified CD8 + T cells activated with S100A8 were analyzed by PCR array and the determination of mRNA expression of inflammasome components on CD8 + T cells activated by S100A8 was measured by real time PCR. RESULTS: It was shown in the LP individuals an increased expression of the S100A8 protein in the cutaneous lesions and HMGB-1, TLR-4 and RAGE in the dermis, in parallel to increased level of mRNAs for S100A8 and S100A9 and decreased expression of RAGE. Moerover, increased serum levels of the dimer S100A8 / A9 was detected in patients compared to controls, in contrast to DAMP HMGB1 that revealed similar levels in both groups. The influence of S100A8 in CD8 + T cells and NK cells, was analyzed in PBMC activating with lipopolysaccharide and recombinant protein S100A8, both ligands of TLR-4. It was detected in LP individuals, an increased cytotoxic response of CD8+ T lymphocytes and CD56bright NK cells trough CD107a degranulation marker expression. The S100A8 protein was able to induce the pro-inflammatory genes expressions such as IL-1beta, TNF and IL-6 in CD8 + T cells of LP patients in contrast to healthy subjects who promoted IL-10 expression and type I IFN. CD8 + T cells of LP individuals activated or not with S100A8 are able to express NLRP1, NLRP3 and AIM-2 and IL-1beta production at similar levels to healthy controls. Moreover, CD8 + T cells activated with S100A8 showed increased expression of TLR3, TLR5, TLR7 and TLR8 in LP compared to biopsies from healthy controls. The increased CD8 + T cells cytotoxic response was mediated by the subtype of effector memory (TEM CD45RA- CCR7). The increased baseline expression of activating receptor NKG2D and the inhibitory NKG2A in the NK CD56dim cells in LP individulas, and the similar level of MICB soluble in both groups. CONCLUSION: These results shows that innate immunity components, such as S100A8 protein may contribute to the maintenance of LP inflammatory profile

Antimicrobial cationic peptides

CD8-positive T-lymphocytes

Citotoxicidade imunológica

Cytotoxicity immunologic

Killer cells natural

Lichen planus

Linfócitos T CD8- positivos

Líquen plano

Peptídeos catiônicos antimicrobianos

Análise do perfil fenotípico e funcional das células natural Killer e linfócitos TCD8+ no Líquen plano / Analysis of phenotypic and functional profile of Natural Killer cells and CD8 + T lymphocytes in Lichen planus

Gabriel Costa de Carvalho

24 May 2016

INTRODUÇÃO: Líquen plano (LP) é uma doença mucocutânea de natureza inflamatória crônica de etiologia ainda desconhecida. Alterações na resposta imune inata, como aos padrões moleculares associados à patógenos (PAMPs) e padrões moleculares associados ao dano (DAMPs) podem levar à inflamação crônica e contribuir com a patogênese do LP. OBJETIVO: Avaliar o efeito da ativação via o DAMP S100A8 e o receptor Toll-like 4 (TLR-4) em células Natural killer (NK) e TCD8 citotóxicas e suas subpopulações de memória/efetoras em pacientes com LP. MÉTODOS: Foram selecionados 25 pacientes com LP (22 mulheres, 3 homens) com idade média de 43,46 anos ± 8,46 e um grupo controle com 25 indivíduos (22 mulheres, 3 homens) com idade média de 42 anos ± 5,5. A determinação transcricional e da expressão por imunohistoquimica dos DAMPs S100A8, HMGB-1 e de TLR-4 e RAGE foi realizada em biópsias de lesões cutâneas de indivíduos com LP, e os níveis séricos de S100A8, HMGB-1, MICA e MICB foram determinados por ELISA. As células mononucleares (CMNs) de sangue periférico foram avaliadas por citometria de fluxo quanto a frequência de TNF, IL-1beta e o marcador de desgranulação CD107a em células TCD8+ e células NK CD56+ e suas subpopulações. A avaliação da via de sinalização de TLR em células TCD8+ purificadas e ativadas com S100A8 foi analisada por PCR array e a determinação da expressão de mRNA dos componentes do inflamassoma em células TCD8+ ativadas com S100A8 por PCR em tempo real. RESULTADOS: Foi evidenciado nos indivíduos com LP elevada expressão da proteína S100A8 nas lesões cutâneas e de HMGB-1, TLR-4 e RAGE na derme, em paralelo ao aumento da expressão de mRNAs para S100A8 e S100A9 e diminuição de RAGE. Além disto, uma elevação dos níveis séricos do dímero S100A8/A9 foi detectada nos pacientes comparados aos controles, ao contrário do DAMP HMGB-1 que mostrou níveis similares em ambos os grupos. A influência do S100A8 em células TCD8+ e células NK, foi analisada em CMNs pela ativação com o lipopolissacáride e a proteína recombinante S100A8, ambos ligantes de TLR-4. Nos indivíduos com LP foi detectado aumento da resposta citotóxica de linfócitos TCD8+ e células NK CD56bright pela expressão do marcador de desgranulação CD107a por citometria de fluxo. A proteína S100A8 foi capaz de induzir a expressão de genes pró-inflamatórios como IL-1beta, TNF e IL-6 em células TCD8+ de pacientes com LP em contraste com os indivíduos saudáveis que mostraram expressão IL-10 e IFN tipo I. As células TCD8+ de indivíduos com LP ativadas ou não com S100A8 expressam transcritos de NLRP1, NLRP3 e AIM-2 e produzem IL-1beta em níveis similares a controles saudáveis. Além disso, células TCD8+ ativadas com S100A8 mostraram aumento de expressão TLR3, TLR5, TLR7 e TLR8 na doença comparada às biopsias de controles. O aumento da resposta TCD8+ citotóxica foi principalmente mediado pelo subtipo de memória efetora (TEM, CCR7- CD45RA-). Elevação basal da expressão do receptor ativador NKG2D e inibidor NKG2A foi observado em células NK CD56dim nos indivíduos com LP e um nível similar do ligante solúvel MICB em ambos os grupos. CONCLUSÃO: Estes resultados evidenciam que componentes da imunidade inata, como a proteína S100A8 pode contribuir na manutenção do perfil inflamatório do LP / BACKGROUND: Lichen planus (LP) is a mucocutaneous inflammatory chronic disease of unknown etiology. Alterations in the innate immune response such as the pathogen-associated molecular pattern (PAMPs) and damage-associated molecular pattern (DAMPs) can lead to chronic inflammation and contribute to the pathogenesis of LP. OBJECTIVE: Evaluate the effect of the activation trough the DAMP S100A8 and the Toll-like receptor 4 (TLR-4) on the Natural killer cells (NK) and cytotoxic TCD8 cells and their memory / effector subsets in LP disease. METHODS: We selected 25 patients with LP (22 women, 3 men) with a mean age of 43.46 years ± 8.46 and a control group of 25 subjects (22 women, 3 men) with a mean age of 42 ± 5, 5. The transcriptional determination and protein expression by immunohistochemistry of DAMPs, S100A8 and HMGB-1 as well as TLR-4 and RAGE was performed on biopsies of skin lesions from patients with LP, and serum levels of S100A8, HMGB-1, MICA and MICB were determined by ELISA. Peripheral blood mononuclear cells (PBMCs) were assessed by flow cytometry to evaluate the frequency of TNF, IL-1beta and the degranulation marker CD107a in CD8+ T cells and CD56 + NK cells and their subsets. The evaluation of the TLR signaling pathway in purified CD8 + T cells activated with S100A8 were analyzed by PCR array and the determination of mRNA expression of inflammasome components on CD8 + T cells activated by S100A8 was measured by real time PCR. RESULTS: It was shown in the LP individuals an increased expression of the S100A8 protein in the cutaneous lesions and HMGB-1, TLR-4 and RAGE in the dermis, in parallel to increased level of mRNAs for S100A8 and S100A9 and decreased expression of RAGE. Moerover, increased serum levels of the dimer S100A8 / A9 was detected in patients compared to controls, in contrast to DAMP HMGB1 that revealed similar levels in both groups. The influence of S100A8 in CD8 + T cells and NK cells, was analyzed in PBMC activating with lipopolysaccharide and recombinant protein S100A8, both ligands of TLR-4. It was detected in LP individuals, an increased cytotoxic response of CD8+ T lymphocytes and CD56bright NK cells trough CD107a degranulation marker expression. The S100A8 protein was able to induce the pro-inflammatory genes expressions such as IL-1beta, TNF and IL-6 in CD8 + T cells of LP patients in contrast to healthy subjects who promoted IL-10 expression and type I IFN. CD8 + T cells of LP individuals activated or not with S100A8 are able to express NLRP1, NLRP3 and AIM-2 and IL-1beta production at similar levels to healthy controls. Moreover, CD8 + T cells activated with S100A8 showed increased expression of TLR3, TLR5, TLR7 and TLR8 in LP compared to biopsies from healthy controls. The increased CD8 + T cells cytotoxic response was mediated by the subtype of effector memory (TEM CD45RA- CCR7). The increased baseline expression of activating receptor NKG2D and the inhibitory NKG2A in the NK CD56dim cells in LP individulas, and the similar level of MICB soluble in both groups. CONCLUSION: These results shows that innate immunity components, such as S100A8 protein may contribute to the maintenance of LP inflammatory profile

Citotoxicidade imunológica

Linfócitos T CD8- positivos

Líquen plano

Peptídeos catiônicos antimicrobianos

Antimicrobial cationic peptides

CD8-positive T-lymphocytes

Cytotoxicity immunologic

Killer cells natural

Lichen planus