"Prevalência da infecção pelo Papilomavírus Humano (HPV) em homens soropositivos para HIV e homens parceiros de mulheres com infecção pelo HPV" / Human papillomavirus (HPV) prevalence in seropositive men for HIV and men partners of women infected by HPV

Silva, Roberto José Carvalho da

07 March 2006

O Papilomavírus humano (HPV) é provavelmente o agente mais prevalente das doenças sexualmente transmissíveis do trato genital.Este estudo foi realizado para comparar as prevalências de HPV nos 144 raspados penianos de homens HIV positivos e negativos.Utilizou PCR PGMY09/11 e hidridização em pontos. A prevalência de HPV nos indivíduos HIV positivo foi de 59% e no HIV negativo de 67%.A lesão aceto-branca pela peniscopia não demonstrou significativa positividade para HPV.Pacientes HIV positivo mostraram múltiplos tipos de HPV e os tipos oncogênicos (16/18) foram os de maior freqüência. Os HPV tipo 6/11 foram os mais freqüentes nos dois grupos. Observou-se maior prevalência de HPV nos HIV positivos com linfócitos T CD4 menor que 200 células/mm3. A carga viral plasmática do HIV não foi um fator de positividade para HPV / Genital tract human papillomaviruses (HPV) are probably the most prevalent sexually transmitted pathogens. This study is to compare HPV DNA prevalence in 144 penile smears, obtained from HIV positive and negative men. It was used PCR employing the PGMY09/11 generic HPV primers and dot blot hybridization. HPV prevalence was 59% in HIV positive men and 67% in HIV negative. Acetic white lesions by peniscopy did not show significant positive of HPV in neither HIV positive and negative groups. HIV positive men had more often multiple and oncogenic HPV types (16/18). HPV types 6/11 were more frequent in both groups. The HIV positive group with lower 200 T CD4 cell counts load reported more HPV prevalence. HIV load was not a positive factor for HPV

Acquired immunodeficiency syndrome

Carga viral

CD4-Positive T-Lymphocytes

Condiloma acuminado

Condylomata acuminata

HIV

HIV

Linfócitos t cd4-positivos

Oncogenic viruses

Papillomavirus human

Papillomavírus humano

Polymerase chain reaction

Reação em cadeia da polimerase

Síndrome de imunodeficiência adquirida

Viral load

Vírus oncogênicos

The Role of TEC Family Kinases in Innate T Cell Development and Function: a Dissertation

Felices, Martin

16 June 2008

The Tec family kinases Itk and Rlk have been previously shown to have an important role in signaling downstream of the T cell receptor [TCR]. Almost all of the work done in the past on these two kinases looked at their role in conventional αβ T cells, specifically CD4+ T cells. These studies demonstrated functions for Itk [primarily] and Rlk in T cell development, activation, and differentiation. However, despite the wealth of knowledge on conventional CD4+ T cells, prior to the work presented here little to no studies addressed the role of Tec family kinases on CD8+ or innate T cell development. My studies show a clear role for Itk [and in some cases Rlk] in innate T cell development; whether it be deprecating, in the case of innate CD8+ T cells or some subsets of γδ T cells, or beneficial, in the case of NKT cells. I show that Itk has a crucial role in conventional CD8+ T cell development, as absence of Itk [or Itk and Rlk] causes strongly reduced numbers of conventional CD8+ T cells and a vigorous enhancement of an innate-like CD8+ T cell population. In NKT cells, my work demonstrates that Itk [and to a lesser extent Rlk] is required for terminal maturation, survival, and cytokine secretion. Finally, on γδ T cells Itk is important in maintaining the Th1 cytokine secretion profile usually associated with these cells, and regulating the development of CD4+ or NK1.1+ γδ T cells. Taken together, this work clearly illustrates an important role for Tec family kinases in innate T cell development and function.

Protein-Tyrosine Kinases

CD8-Positive T-Lymphocytes

Cell Differentiation

Killer Cells

Natural

Receptors

Antigen

T-Cell

gamma-delta

Amino Acids, Peptides, and Proteins

Biological Factors

Cells

Enzymes and Coenzymes

Hemic and Immune Systems

EBV-Specific CD4+ T Cell Responses in Acute Infectious Mononucleosis: a Dissertation

Precopio, Melissa Lynn

01 April 2004

Epstein-Barr virus (EBV) is a ubiquitous herpesvirus that establishes a life-long latent infection of B cells. It is usually asymptomatic in healthy individuals; however, individuals with compromised immunity often develop EBV-induced lymphoma. EBV also encodes potential oncogenes that can contribute to tumorigenesis. Therefore, vaccine and immunotherapeutic strategies targeting EBV are desirable. Recent studies have shown that infusion of EBV-specific CD8+T cells can elicit remission of lymphomas arising after administration of immunosuppressive drugs during transplantation, suggesting an important role for T cells in the prevention of EBV-induced malignancy. A better understanding of the cellular immune components involved in the control of EBV will aid in the development of methods to prevent infection and/or treat EBV-associated disease. While EBV infection is usually acquired asymptomatically during childhood, primary infection of adolescents and young adults can result in an illness termed acute infectious mononucleosis (AIM). Because of the characteristic symptoms of the illness, individuals with AIM can be readily identified and diagnosed with acute EBV infection. Thus, primary CD4+ and CD8+ T cell responses against the virus can be evaluated. It has been previously found that there is a marked expansion of lytic EBV protein-specific CD8+ T cells early during AIM, with delayed detection of lower frequencies of latent EBV protein-specific CD8+ T cells. The magnitude and specificity of CD4+T cell responses during AIM has been less well characterized. This thesis dissertation presents data from both functional assays and direct staining experiments documenting the timing, magnitude, and antigen-specificity of CD4+ T cells over the course of primary EBV infection. Lytic and latent protein-specific CD4+ T cells were readily detected by intracellular IFN-γ production at presentation with AIM and declined rapidly thereafter. Blood EBV load was also quantitated and found to decrease over time following AIM. By contrast, CD8+T cell IFN-y responses remained high for several weeks following presentation with AIM. Direct staining of lytic epitope-specific CD4+ T cells during AIM revealed high frequencies of virus-specific cells with low proliferative and IFN-γ-producing potential. Blood EBV load in these patients was persistently high through 6 wk following AIM. These data suggest a relationship between high EBV load during acute infection and impaired EBV-specific CD4+ T cell responses, which are compatible with impaired CD4+ T cell responses reported during high viremia associated with other viral infections. This may represent a mechanism by which persistent viruses, such as EBV, are able to establish a life-long infection in their hosts.

CD4-Positive T-Lymphocytes

Epstein-Barr Virus Infections

Herpesvirus 4

Human

Infectious Mononucleosis

Cells

Environmental Public Health

Hemic and Immune Systems

Hemic and Lymphatic Diseases

Immune System Diseases

Investigative Techniques

Neoplasms

Pharmaceutical Preparations

Therapeutics

Virus Diseases

Long-Lived Memory T Lymphocyte Responses Following Hantavirus Infection: a Dissertation

Van Epps, Heather Lin

18 July 2001

Hantaviruses are members of the virus family Bunyaviridaethat cause two potentially life-threatening diseases in humans: hemorrhagic fever with renal syndrome (HFRS) and hantavirus pulmonary syndrome (BPS). HFRS is caused by Old World hantaviruses that are endemic in many Asian and European countries. Infections with Old World hantaviruses can range in severity from asymptomatic to moderate or severe, depending primarily on the infecting serotype of virus. HPS is caused by New World hantaviruses in North and South America. New World hantaviruses are rarely asymptomatic and are severe in the majority of cases. These syndromes are distinct from one another in the primary target organ of virus infection (kidney vs. lung), but have important clinical features in common, including fever, thrombocytopenia, and a capillary leak syndrome. These common clinical manifestations suggest that the underlying mechanisms of disease may be similar in the two syndromes. The precise mechanisms of pathogenesis of HFRS and HPS are poorly characterized, but may be mediated in part by immunopathology. Hantaviruses are able to establish infections in many human cell types, including primary human endothelial cells, without having any cytopathic effect on these cells. Human infections with hantavirus result in a robust activation of the humoral and cellular immune response, and we hypothesize that these immune responses contribute to the pathology of disease. Evidence for the activation of T lymphocytes, and their potential involvement in immunopathology, includes increases in the number of circulating, activated CD8+ T cells during HFRS, the presence of lymphocytic infiltrates (predominantly CD8+T cells) in kidney biopsies from patients with acute HFRS, and associations between certain HLA haplotype and disease severity following hantavirus infection. This thesis is the first examination of human T lymphocyte responses that are generated during HFRS. Initially, we studied memory T cell responses in scientists who were sub-clinically infected with Hantaan virus (HTNV), the prototype hantavirus. We later investigated memory T cell responses in healthy Finnish adults who had HFRS caused by Puumala virus (PUUV), a hantavirus endemic primarily in Scandinavia. At the onset of these studies, there was no available information on human T lymphocyte responses to Old World hantaviruses. Virus-specific CD8+ and CD4+human T cell lines had been isolated from patients with acute HPS caused by Sin Nombre virus (SNV) infection. In that study, conducted in our laboratory, several human T cell epitopes on the nucleocapsid (N) protein and G2 envelope glycoprotein of SNV were identified and characterized. We decided to perform similar analyses on PBMC from donors who had been infected with HTNV and PUUV, in order to determine the specificity and diversity of the T cell response to Old World hantaviruses. The initial study of three donors who had sub-clinical infections with HTNV demonstrated that virus-specific T cell responses could be detected in all the donors following in vitro stimulation of PBMC with inactivated virus. In two of the donors, the virus-specific cytolytic T cells (CTL) recognized the HTNV N protein, and in the third donor the virus-specific CTLs recognized the HTNV G1 glycoprotein. Isolation and characterization of virus-specific T cells from two donors resulted in the identification of two CD8+ T cell epitopes on the HTNV N protein, which were restricted by either HLA A1 or B51. These CTL lines included both HTNV-specific (HLA B51-restricted) and serotype-cross reactive (HLA A1 restricted) lines. In one subject, these virus-specific T cell responses were detectable in IFN-γ ELISPOT assays following peptide stimulation, and in bulk cultures after short-term stimulation with inactivated HTNV. These results indicated that the CD8+CTL responses of humans after sub-clinical infection with HTNV were readily detectable and were directed against a limited number of viral proteins and epitopes. In addition, sub-clinical infection resulted in the generation of both virus-specific and cross-reactive CTL responses. We reasoned that hantavirus infections that lead to clinical illness may result in the generation of more robust and/or diverse virus-specific T cell responses than in sub-clinical infections. To address this question, we studied the memory CD8+ T cell responses in a group of healthy adults from Finland who had HFRS caused by PUUV infection between the years 1984 and 1995. We detected virus-specific CTL in the bulk cultures of seven of eleven immune individuals tested following stimulation with infectious virus. The PUUV proteins N, G1 and G2 were recognized by CTLs in six, five, and two donors respectively. Extensive cloning of T cells from two donors resulted in the isolation of sixty-three virus-specific CTL lines, the majority of which (61/63) were specific for the PUUV N protein. Six novel CD8+ CTL epitopes and one CD4+ CTL epitope were identified on the N protein, all of which clustered in the center of the protein between amino acids 173 and 251. The CTL lines specific for these epitopes were restricted by a variety of HLA alleles including A2, A28, B7 and B8, and were primarily serotype specific when tested against target cells expressing HTNV or SNV N protein. IFN-γ ELISPOT analysis using the defined epitopes to stimulated PBMC, revealed high frequencies of circulating N-specific CD8+ T cells in eight of thirteen individuals tested. Finally, T cell receptor (TCR) Vβ analysis of CTL clones specific for one epitope (N204-12) demonstrated that cells in this population expressed up to five different Vβ chains. These results demonstrated that the PUUV N protein may be the dominant target of the CTL response, that the N-specific CD8+ CTL responses are diverse, heterogeneous, and primarily serotype specific, and that virus-specific memory CD8+T cells can persist at high levels for up to 15 years after the primary infection. In order to understand the pathology of HFRS and HPS, we must be able to assess the contribution of various factors that could potentially contribute to disease. The virus burden in the infected individual is likely to be an important factor in the severity of the resulting disease. Quantitative RT-PCR analysis of plasma samples from acute HPS patients demonstrated that a higher virus burden (as reflected by viral RNA copy number) is associated with more severe HPS. In order to perform similar analyses in patients with HFRS caused by PUUV, we established a quantitative RT-PCR assay for the detection of PUUV S segment RNA in patient plasma. The design and optimization of the PUUV-specific RT-PCR is described in this report. This assay will allow us to measure the virus burden in patients and compare these data with levels of T cell activation and with parameters of disease severity. In this way, we hope to gain an understanding of the kinetics and magnitude of both the virus burden and virus-specific T cell response during the acute illness. This thesis provides the first description of human virus-specific T cell responses to HTNV and PUUV. These data shed light on the nature of the CD8+ T cell responses that are generated following natural infections with PUUV and sub-clinical infections with HTNV. The studies of memory CD8+ T cell responses to PUUV, and the development of a PUUV-specific quantitative RT-PCR assay, establish the framework for future studies of the immunopathology of acute HFRS. Quantitative analysis of both virus burden and T cell responses during acute illness will provide insight into their relative contributions to the pathology of disease.

Hantavirus

Hantavirus Infections

Hantavirus Pulmonary Syndrome

Hemorrhagic Fever with Renal Syndrome

Hantaan virus

Puumala virus

CD8-Positive T-Lymphocytes

T-Lymphocytes

Hemic and Immune Systems

Respiratory Tract Diseases

Virus Diseases

Viruses

Attrition of CD8 T Cells during the Early Stages of Viral Infections: a Dissertation

Bahl, Kapil

09 January 2008

Profound lymphopenia has been observed during many acute viral infections, and our laboratory has previously documented a type 1 IFN-dependent loss of most memory (CD44hi) and some naïve (CD44lo) CD8 T cells immediately preceding the development of the antiviral T cell response at days 2-4 following lymphocytic choriomeningitis virus (LCMV) infection. In this thesis, I will examine additional mechanisms involved in the early attrition of CD8 T cells and evaluate whether antigen-specific and non-specific CD8 T cells are equally susceptible. Lastly, I will examine whether the early attrition of CD8 T cells contributes to the generation of an effective immune response. Poly(I:C), a potent inducer of type 1 IFN, was previously shown to cause the attrition and apoptosis of CD8α+CD44hi cells in normal mice, but not in type 1 IFN receptor–deficient mice (IFN1-R KO). I questioned whether additional molecule(s) might contribute to the type 1 IFN-induced apoptosis of CD8α+CD44hi cells. I used a PCR array to determine the expression of 84 apoptosis-related genes at 6 hours post-poly(I:C) treatment, relative to an untreated control. There was an 11-fold increase in CD40 RNA expression in CD8α+CD44hi cells isolated from poly(I:C)-treated mice. CD40 protein expression was also increased on CD8α+CD44hi cells, peaking between 9 and 12 hours following poly(I:C) treatment, before declining thereafter. This increase in CD40 protein expression directly correlated with an increase in Annexin V reactivity, an indicator of early apoptosis. Nevertheless, CD40 was not required for the loss of CD8α+CD44hi cells, as both wildtype and CD40-deficient mice were equally susceptible to the poly(I:C)-induced attrition. Upon further characterization, I found this population of CD40+CD8α+CD44hi cells to be CD11c+B220-Thy1.2- MHCIIhi, which is consistent with a “lymphoid” CD8α+ DC phenotype. Kinetic analysis revealed a type 1 IFN-dependent increase in this CD8α+ DC population at 12 hours post-poly(I:C) treatment. This increase was only observed in the spleen, as no increase in percentage was observed in the peritoneal cavity (PEC), lungs, inguinal lymph nodes (iLN), or peripheral blood. Collectively, these results suggest that the type 1 IFN-dependent increase in splenic CD8α+DCs accounts for the observed increase in Annexin V reactive cells following poly(I:C) treatment. These findings required a re-evaluation of the type 1 IFN-induced attrition of CD8+CD44hi T cells with an anti-CD8β antibody, which is a more exclusive marker for T cells than the anti-CD8α antibody. Kinetic analysis revealed a significant decrease in splenic CD8β+CD44hi T cells at 12 hours post-poly(I:C) treatment. This reduction in splenic CD8β+CD44hi T cells was not due to trafficking to other organs, as the PECs, lungs, iLN, lungs, and peripheral blood all exhibited significant, although varying, decreases in the percentage of CD8β+CD44hi T cells at 12 hour following poly(I:C) treatment. These data support the notion that the type 1 IFN-induced attrition of CD8β+CD44hiT cells was a “global” phenomenon and could not be completely due to migration out of the spleen. The attrition of CD8β+CD44hi T cells was also dependent upon type 1 IFN at 3 days post-LCMV infection, as there was no significant reduction of this population in IFN1-R KO mice. The loss of wildtype CD8β+CD44hi T cells correlated with an increased activation of caspases 3 and 8, which are enzymes that play essential roles in apoptosis and inflammation. A significant loss of CD4+CD44hi T cells, which also correlated with an increased activation of caspases 3 and 8, was observed at 3 days post-LCMV infection. Collectively, these results suggest that attrition of both CD4+CD44hi and CD8β+CD44hiT cell populations is type 1 IFN-dependent and associated with the activation of caspases following LCMV infection. At 3 days post-LCMV infection, both wildtype CD8β+CD44hi and CD4+CD44hi T cell populations had a higher frequency of cells with fragmented DNA, a hallmark characteristic of the late stages of apoptosis, as revealed by terminal transferase dUTP nick end labeling (TUNEL), relative to uninfected controls. This suggests that the loss of both populations was due to apoptosis. Therefore, I questioned whether the LCMV-induced apoptosis of both CD4+CD44hi and CD8β+CD44hi T cell populations occurred through a mitochondrial-induced pathway involving the pro-apoptotic molecule Bim. The attrition of both CD4+CD44hi and CD8β+CD44hi T cells was significantly higher in wildtype mice compared to Bim KO mice at 3 days post-LCMV infection. Moreover, both wildtype CD8β+CD44hi and CD4+CD44hi T cell populations had higher frequency of TUNEL+ cells, relative to Bim KO populations. These results suggest that the apoptosis of CD8β+CD44hi and CD4+CD44hiT cells, following LCMV infection, might occur through a mitochondrial-induced pathway involving Bim. Studies have shown “lymphoid” CD8α+ DCs to be involved in the phagocytosis of apoptotic lymphocytes. Therefore, I evaluated whether host CD8α+ DCs are capable of phagocytosing apoptotic lymphocytes by adoptively transferring CFSE-labeled wildtype donor splenocytes (Ly5.1) into congenic wildtype hosts (Ly5.2), followed by inoculation with poly(I:C). There was an increased frequency of donor cells (Ly5.1, CFSE+) within the host CD8α+CD11c+ gate at 9 and 12 hours post-poly(I:C) treatment. The results suggest that type 1 IFN-activated CD8α+DCs might aid in the rapid clearance of apoptotic cells during the type 1 IFN-induced attrition associated with viral infections. I next questioned whether TCR engagement by antigen would render CD8 T cells resistant to attrition. I tested whether a high concentration of antigen (GP33 peptide) would protect LCMV-specific naïve TCR transgenic P14 cells specific for the GP33 epitope of LCMV and GP33-specific LCMV-immune cells from depletion. Both naïve P14 and memory GP33-specific donor CD8 T cells decreased substantially 16 hours after inoculation poly(I:C), regardless of whether a high concentration of GP33 peptide was administered to host mice beforehand. The increased activation status of naïve antigen-specific cells via peptide inoculation did not confer resistance to type 1 IFN-induced depletion. Donor naïve P14 and LCMV-specific memory cells were also depleted from day 2 LCMV-infected (Clone 13) hosts by 16 hours post-transfer. These results indicate that antigen engagement does not protect CD8 T cells from the type 1 IFN-induced attrition associated with viral infections. Computer models indicated that early depletion of memory T cells may allow for the generation for a more diverse T cell response to infection by reducing the immunodomination caused by cross-reactive T cells. To test this in a biological system, I questioned whether the reduced apoptosis of the crossreactive memory CD8 population (NP205), in aged LCMV-immune mice (18-22 months), following heterologous virus challenge (PV), would allow it to dominate the immune response. At day 8 post-PV infection, the cross-reactive memory CD8 T cell response (NP205) was more immunodominating in aged LCMV-immune mice relative to younger LCMV-immune mice. This was indicated by the increased ratio of the cross-reactive NP205 response to the newly arising noncross-reactive, PV-specific NP38 response in older LCMV-mice relative to younger LCMV immune-mice, at day 8 post-PV infection. These data suggest that the early attrition of T cells allows for the generation of a more diverse T cell response to infection by reducing the immunodomination caused by crossreactive T cells. Collectively, these findings offer further insight into the early attrition of T cells associated with viral infections.

CD8-Positive T-Lymphocytes

Apoptosis

Immunologic Memory

Virus Diseases

Antigens

Viral

Glycoproteins

Interferons

Lymphocytic Choriomeningitis

Peptide Fragments

Amino Acids, Peptides, and Proteins

Biological Factors

Carbohydrates

Cells

Hemic and Immune Systems

Nervous System Diseases

Virus Diseases

Alterações de subpopulações de células T CD4+ em indivíduos infectados pelo HTLV-1 com paraparesia espástica tropical (HAM/TSP) / CD4+ T cell subsets changes in HTLV-1-infected subjects with tropical spastic paraparesis (HAM/TSP)

Fábio Eudes Leal

18 June 2012

O equilíbrio entre resposta imune e tolerância resulta da complexa interação entre células efetoras e reguladoras. Células capazes de amplificar a resposta imune foram descritas, mas um subgrupo de células T com esta capacidade ainda não foi identificado. Demonstramos que a ectoenzima CD39 ajuda a definir um subgrupo de células T CD4+ denominadas células T indutoras (Tind), capazes de amplificar proliferação e produção de citocinas por células T CD4+ efetoras, antagonizando a atividade supressora de células T reguladoras (Treg). Em doenças auto-imunes e infecções crônicas como a mielopatia associada à infecção pelo HTLV-1 (HAM/TSP), Tinds podem ter papel importante no processo inflamatório exacerbado visto nestas condições clínicas. Demonstramos ainda que as frequências de Treg estão aumentadas em pacientes infectados pelo HTLV-1 independentemente da condição clínica, mas apenas pacientes HAM/TSP apresentam aumento da frequência de Tind. Além disso, a frequência de Tind está associada à carga proviral, considerado fator de risco para o desenvolvimento da HAM/TSP. O aumento da produção de IFN- e a reduzida produção de IL-17 em pacientes HAM/TSP sugerem que células Th17 não possuem papel importante no processo inflamatório relacionado à infecção pelo HTLV-1, diferentemente do que ocorre em condições auto-imunes com quadros clínicos semelhantes à HAM/TSP. Estes dados demonstram importantes alterações no balanço entre inflamação e supressão e sugerem um papel para Tind na patogênese da HAM/TSP / The balance between immunity and tolerance is a result from the interplay between effector and regulatory cells. An immunoregulatory cell that amplifies cellular immune responses upon activation is already known; however no T-cell subset with such function has been described. We report that the ectoenzyme CD39 helps to delineate a novel subpopulation called inducer T-cell (Tind) that significantly increases the proliferation and cytokine production of effector T cells, counterbalancing the suppressive activity of regulatory T cells (Treg). In autoimmune conditions and chronic viral infections, such as HTLV-1 associated myelopathy, Tinds may play an important role in the inflammatory milieu. Here we show that Treg frequency is increased in HTLV-1-infected subjects regardless of their clinical status, but only HAM/TSP patients have increased frequency of Tind. Besides, Tind frequency is associated to HTLV-1 proviral load, a established risk factor for the development of HAM/TSP. Increased IFN- and reduced IL-17 production seen in HAM/TSP patients suggest that Th17 does not play an important role in the proinflammatory milieu related to HTLV-1 infection, unlike autoimmune disorders with clinical features similar to HAM/TSP. Altogether, our data demonstrate important changes in the inflammatory-regulatory balance and suggest a role for Tind in the pathogenesis of HAM/TSP

Interleucina-17

Linfócitos T CD4-positivos

Paraparesia espástica tropical

CD4-positive T-lymphocytes

Human T-lymphotropic virus 1

Interleukin-17

Paraparesis tropical spastic

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

Leandro Fagundes da Silva Tarosso

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

HIV-1/imunologia

Interferon gama/análise

Linfócitos T CD8-positivos

Paciente HIV positivo não progressor

Peptídeos

Proteína Vif

CD8-positive T-lymphocytes

Gene products vif

HIV long-term survivors

HIV-1/immunology

Interferon-gamma/analysis

Peptides

Viral load

"Prevalência da infecção pelo Papilomavírus Humano (HPV) em homens soropositivos para HIV e homens parceiros de mulheres com infecção pelo HPV" / Human papillomavirus (HPV) prevalence in seropositive men for HIV and men partners of women infected by HPV

Roberto José Carvalho da Silva

07 March 2006

O Papilomavírus humano (HPV) é provavelmente o agente mais prevalente das doenças sexualmente transmissíveis do trato genital.Este estudo foi realizado para comparar as prevalências de HPV nos 144 raspados penianos de homens HIV positivos e negativos.Utilizou PCR PGMY09/11 e hidridização em pontos. A prevalência de HPV nos indivíduos HIV positivo foi de 59% e no HIV negativo de 67%.A lesão aceto-branca pela peniscopia não demonstrou significativa positividade para HPV.Pacientes HIV positivo mostraram múltiplos tipos de HPV e os tipos oncogênicos (16/18) foram os de maior freqüência. Os HPV tipo 6/11 foram os mais freqüentes nos dois grupos. Observou-se maior prevalência de HPV nos HIV positivos com linfócitos T CD4 menor que 200 células/mm3. A carga viral plasmática do HIV não foi um fator de positividade para HPV / Genital tract human papillomaviruses (HPV) are probably the most prevalent sexually transmitted pathogens. This study is to compare HPV DNA prevalence in 144 penile smears, obtained from HIV positive and negative men. It was used PCR employing the PGMY09/11 generic HPV primers and dot blot hybridization. HPV prevalence was 59% in HIV positive men and 67% in HIV negative. Acetic white lesions by peniscopy did not show significant positive of HPV in neither HIV positive and negative groups. HIV positive men had more often multiple and oncogenic HPV types (16/18). HPV types 6/11 were more frequent in both groups. The HIV positive group with lower 200 T CD4 cell counts load reported more HPV prevalence. HIV load was not a positive factor for HPV

Carga viral

Condiloma acuminado

HIV

Linfócitos t cd4-positivos

Papillomavírus humano

Reação em cadeia da polimerase

Síndrome de imunodeficiência adquirida

Vírus oncogênicos

Acquired immunodeficiency syndrome

CD4-Positive T-Lymphocytes

Condylomata acuminata

HIV

Oncogenic viruses

Papillomavirus human

Polymerase chain reaction

Viral load

The Role of Janus-Kinase-3 in CD4⁺ T Cell Proliferation and Differentiation: A Dissertation

Shi, Min

27 October 2008

Jak3, a member of the Janus family of tyrosine kinases, is essential for signaling via the receptors for IL-2, IL-4, IL-7, IL-9, IL-15 and IL-21. These Jak3-dependent cytokines primarily activate STAT5 and are critical for lymphoid generation and differentiation. Using naïve CD4+ T cells from Jak3-deficient mice and wild type CD4+ T cells treated with a pharmacological inhibitor of Jak3, we report that Jak3-dependent cytokine signals are not required for the proliferation of naïve CD4+ T cells. This is illustrated by the similar percentage of divided cells, comparable cell divisions, intact cell cycle progression and unaffected regulation of cell cycle proteins in the absence of Jak3. In contrast to proliferation, differentiation of naïve CD4+ T cells into Th1 effector cells requires Jak3-dependent cytokine signals. In the absence of Jak3, naïve CD4+ T cells proliferate robustly, but produce little IFN-γ after Th1 polarization in vitro. This defect is not due to reduced activation of STAT1 or STAT4, nor to impaired up-regulation of the transcription factor T-bet. Instead, we find that T-bet binding to the Ifng promoter is greatly diminished in the absence of Jak3-dependent signals, correlating with a decrease in Ifng promoter accessibility and histone acetylation. These data indicate that while Jak3-dependent signals are dispensable for naïve CD4+ T cell proliferation, Jak3 regulates epigenetic modification and chromatin remodeling of the Ifng locus during Th1 differentiation.

CD4-Positive T-Lymphocytes

Chromatin Assembly and Disassembly

Cytokines

Interferon Type II

Janus Kinase 3

Th1 Cells

Interferons

Amino Acids, Peptides, and Proteins

Biological Factors

Cell and Developmental Biology

Cells

Enzymes and Coenzymes

Genetic Phenomena

Hemic and Immune Systems

Immunology and Infectious Disease

CD4+ T Cell Responses: A Complex Network of Activating and Tolerizing Signals as Revealed by Gene Expression Analysis: A Dissertation

Brown, David Spaulding

20 September 2005

Immunologic self-tolerance is maintained by both central and peripheral mechanisms. Furthermore, regulation of mature lymphocyte responses is governed by inhibitory as well as stimulatory signals. TCR recognition of cognate peptide bound to MHC molecules provides the initial stimulus leading to T lymphocyte activation and determines the antigen specificity of any subsequent response. However, lymphocytes must discriminate between foreign and self antigens presented by self-MHC molecules to maintain self tolerance and avoid pathological autoimmunity. Consequently, TCR ligation alone is reported to result in abortive activation, T cell anergy, apoptosis, and tolerance. Under normal physiological conditions, costimulatory signals modify lymphocyte responsiveness to TCR ligation to prevent autoimmunity while enabling robust responses to foreign antigen. Members of the CD28/B7 superfamily provide the critical secondary signals essential for normal immune cell function. CD28 is an essential positive costimulatory molecule with critical functions in thymic development, lineage commitment, and regulation of peripheral lymphocyte responses to antigenic stimuli. CD28 ligation by APC-expressed B7 molecules alters proximal signaling events subsequent to MHC/TCR interactions, and initiates unique signaling pathways that alter mRNA stability and gene transcription. Furthermore, CD28 signaling is required for regulatory T cell development and function. Thus, CD28 has a central role in both potentiating lymphocyte activation mediated by TCR engagement and regulating peripheral tolerance. In contrast, Ctla-4 mediates an inhibitory signal upon binding B7 molecules on an antigen-presenting cell. Its importance in governing lymphocyte responses is manifested in the fatal lymphoproliferative disorder seen in Ctla-4-/- mice. The lymphocyte proliferation is polyclonal, antigen and CD28 dependent, and arises from defects in peripheral CD4+T cell regulation. The high percentage of peripheral T lymphocytes expressing activation markers is accompanied by lymphocyte infiltration into numerous non-lymphoid tissues and results in death by 3-4 weeks. While still controversial, Ctla-4 signaling has been reported to be essential for induction of peripheral T lymphocyte tolerance in vivo and in some model systems is proposed to regulate both T lymphocyte anergy induction and the immune suppressive effects of some regulatory T cells in the prevention of autoimmunity. Signaling pathways activated by TCR ligation and CD28 costimulation have been extensively characterized. In contrast, the mechanisms mediating Ctla-4 maintenance of tolerance remain largely unknown. Ctla-4 gene expression is tightly controlled during T cell development and activation, and its intracellular localization and expression on the cell surface is regulated by numerous pathways and intermediates. While a tailless Ctla-4 mutant is capable of inhibiting T cell activation, recent studies have shown that a ligand independent form of Ctla-4 is also capable of providing an inhibitory signal to T lymphocytes. In conjunction with the strictly controlled expression kinetics and the perfect amino acid homology between the intracellular domains of mouse and human Ctla-4, this data suggests that Ctla-4 may participate in the modulation or initiation of intracellular signaling pathways. Positive and negative costimulatory receptors on the T cell modify lymphocyte responses by altering both quantitative and qualitative aspects of the lymphocyte response including threshold of activation, cytokine secretion, and memory responses. Positive costimulation augments T cell responses, in part, by downregulating the expression of genes that actively maintain the quiescent phenotype. This study was initiated to determine the role of Ctla-4 ligation in modifying the global gene expression profile of stimulated T cells and to determine if the Ctla-4 mediated maintenance of T cell tolerance was achieved, in part, by altering the transcription of quiescence genes necessary for the prevention of T cell activation subsequent to TCR and CD28 stimulation. Previous studies investigating the influence of Ctla-4 ligation on transcriptional profiles of activated lymphocytes detected only quantitative alterations in the transcriptional regulation initiated by CD28 signaling. In contrast, our data suggests that quantitative effects of Ctla-4 ligation that differentially influence pathways acting downstream of stimulatory receptors results in a stable and qualitatively unique phenotype detectable at the level of the transcriptome. Thus, the cumulative effect of Ctla-4 signaling is unique and not constrained to reversing alterations in expression initiated by CD28. In addition, Ctla-4 ligation can be shown to influence T lymphocyte responsiveness and the resulting global expression profile within 4 hours after stimulation and prior to detectable Ctla-4 surface expression. In a subpopulation of T cells, TCR stimulation activates pathways that result in commitment to activation with 2-6 hours. In contrast, CD28 signaling must be maintained for 12-16 hours to ensure maximal responses at the population level. The period of sensitivity to Ctla-4 inhibition of activation is more constrained and does not extend beyond 12 hours. Together, these data support a potential role for Ctla-4 in modification of the early transcriptional response and may explain various alterations in phenotype resulting from Ctla-4 ligation that have been reported in secondary responses. Identification of genes involved in lymphocyte activation, maintenance of selftolerance, and attenuation of immune responses opens the door to therapeutic manipulation of the pathways implicated. CD28 costimulation results in general amplification of TCR-initiated transcriptional responses, and specifically alters the expression profile of a subset of genes. In contrast, Ctla-4 ligation directly and specifically alters the expression of a select group of genes when ligated, and results in minimal suppression of the global CD28-mediated costimulatory transcriptional response. Ctla-4 regulated genes comprise a heterogeneous family, but include known quiescence factors, transcriptional regulators, and various determinants of cell cycle progression and senescence. The role of Ctla-4 in maintaining self-tolerance indicates that targeted manipulation of these gene products presents a novel therapeutic opportunity, and suggests that the mechanisms involved in Ctla-4-mediated maintenance of peripheral T cell tolerance and regulation of immune responsiveness is more nuanced than previously thought. In addition, this study provides the most comprehensive description of global gene expression during primary lymphocyte activation yet available. The integration of statistical and bioinfomatics analyses with large scale data mining tools identifies genes not previously characterized in lymphocytes and can direct future work by predicting potentially interacting gene products and pathways.

CD4-Positive T-Lymphocytes

Genes

T-Cell Receptor

Antigens

CD28

Antigens

Differentiation

Gene Expression

Signal Transduction

Self Tolerance

Genes

MHC Class II

Biological Factors

Cells

Genetic Phenomena

Hemic and Immune Systems