Non-tuberculous mycobacteria immunopathogenesis: Closer than they appear. a prime of innate immunity trade-off and NTM ways into virulence.

INTRODUCTION: The growing incidence of non-tuberculous mycobacteria (NTM) and changes in epidemiological factors have indicated that immune dysregulation may be associated with the emergence of NTM. Minireview entails to acknowledge complex interaction and new ways NTM are evolving around diverse immune status. METHODS: In order to perform this review, we selected peer reviewed, NLM database articles under the terms NTM, mycobacterium complex 'AND' -Host- immune response, immunity regulation, Disease, Single Nucleotide Polymorphism (SNP´s), and -pathogen- followed by a snow ball rolling basis search on immune components and NTM related with diseases distribution. RESULTS: The universal exposure and diversity of NTM are well-documented; however, hospitals seldom establish vigilant control of water quality or immunodeficiencies for patients with NTM infections. Depending on the chemical structures and immune mechanisms presented by various NTM varieties, they can trigger different effects in dendritic and natural killer cells, which release interleukin (IL)-17, tumour necrosis factor-α (TNF-α), interferon-γ (IFN-γ) and rIL-1B. The T helper (Th)2-acquired immune response is responsible for autoimmune responses in patients with NTM infections, and, quite disturbingly, immunocompetent patients have been reported to suffer from NTM infections. CONCLUSION: New technologies and a comprehensive view has taught us; to acknowledge metabolic/immune determinants and trade-offs along transit through mutualism-parasite continuous.

Estudo das vesículas extracelulares de Toxoplasma gondii e a correlação com a infecção humana / Study of the extracellular vesicles of Toxoplasma gondii and the correlation with human infection

Toxoplasma gondii é causador da toxoplasmose, uma das doenças mais prevalentes no mundo. Estudos recentes mostraram que vesículas extracelulares (EVs) liberadas por parasitas participam no processo de invasão e replicação no hospedeiro, porém o mecanismo de infecção ainda não está completamente elucidado. O objetivo desse trabalho foi identificar e caracterizar EVs produzidas por taquizoítos das cepas RH, ME-49 e VEG de T. gondii e a participação na patogênese da toxoplasmose. Purificação de EVs liberadas das três cepas de T. gondii foi realizada por cromatografia de exclusão de tamanho seguida por ELISA. Concentração e tamanho das vesículas isoladas foram analisados por Nanoparticle Tracking Analysis, o qual mostrou que as três cepas possuem perfis de liberação de EVs similares, com maior produção observada pela cepa RH. Quando analisados diferentes tempos de incubação, observou-se que em 2 horas de incubação ocorreu maior liberação de EVs do que em 24 horas de incubação, para as três cepas. A maior parte das vesículas encontradas possuía tamanho entre 100-200 nm, caracterizadas como microvesículas. Observou-se através de imagens capturadas por Microscopia Eletrônica de Varredura que a cepa RH liberou mais EVs do que as cepas VEG e ME-49. Após a análise de taquizoítos da cepa RH por Microscopia Eletrônica de Transmissão, observou-se que no...(AU)

Toxoplasma gondii is the agent of toxoplasmosis, one of the most prevalent diseases in the world. Recent studies show that extracellular vesicles (EVs) released by parasites are involved in the invasion and replication mechanisms in the host, however they are not completely clear. The aim of this study was to identify and characterize EVs released by tachyzoites from RH, ME-49 and VEG strains of T. gondii and their role in toxoplasmosis pathogenesis. EVs purification was performed by size exclusion chromatography followed by ELISA. Size and concentration of EVs was analysed by Nanoparticle Tracking Analysis, which showed similar EVs release profile from the three strains, however RH strain showed higher production of EVs. When analysed different incubation periods, it was observed higher production of EVs in 2 hours rather than 24 hours of incubation, for the three strains. The majority size of EVs found was of 100-200 nm which is classified by microvesicles. Images captured by Scanning Electron Microscopy showed that tachyzoites from RH strain released more EVs than tachyzoites from ME-49 and VEG strains. Also, images captured by Transmission Electron Microscopy of tachyzoites from RH strain showed that in the beginning of incubation period starts the formation of multivesicular bodies with vesicles inside ready to be released in the lumen. After 24 hours, it was able to observe intense release of EVs from the plasmatic membrane, as well as from posterior pore and apical ring. Furthermore, it was found that T. gondii was able to express the same miRNAs found in infected hosts. miR-155-5p, miR-125b-5p e miR-423-3p were the most expressed in tachyzoites as well as in EVs released from them in the three strains. Experiments with laboratory mice infected with tachyzoites of RH strain mixed with EVs, especially for EVs released from RH strain, showed that EVs can enhance parasitemia and virulence, decreasing mice's survival. Protein extracted from EVs of the three strains demonstrated similar electrophoretic profiles, but when EVs were incubated with sera from patients with toxoplasmosis, in Immunoblot analysis, EVs from ME-49 and VEG strains reacted poorly, unlike EVs from RH strains which reacted with sera from patients with gestational and cerebral toxoplasmosis. Stimulus of EVs released form the three strains in mice splenocytes in vitro produced similar concentrations of IL-10 and IFN- after 24 and 48 hours, in the three strains. EVs released from RH strain stimulated the production of more TNF- than EVs released from ME-49 and VEG strains. Finally, these results suggest that EVs released from tachyzoites of three T. gondii strains, especially the ones released from RH strain, were able to stablish communication between host cells and parasites, modulating host immune system, although they unbalance the host immune response since they carry virulence factors. (AU)

O-Polysaccharide Plays a Major Role on the Virulence and Immunostimulatory Potential of Aggregatibacter actinomycetemcomitans During Periodontal Infection.

Aggregatibacter actinomycetemcomitans is a Gram-negative oral bacterium with high immunostimulatory and pathogenic potential involved in the onset and progression of periodontitis, a chronic disease characterized by aberrant immune responses followed by tooth-supporting bone resorption, which eventually leads to tooth loss. While several studies have provided evidence related to the virulence factors of A. actinomycetemcomitans involved in the host cell death and immune evasion, such as its most studied primate-specific virulence factor, leukotoxin, the role of specific lipopolysaccharide (LPS) domains remain poorly understood. Here, we analyzed the role of the immunodominant domain of the LPS of A. actinomycetemcomitans termed O-polysaccharide (O-PS), which differentiates the distinct bacterial serotypes based on its antigenicity. To determine the role of the O-PS in the immunogenicity and virulence of A. actinomycetemcomitans during periodontitis, we analyzed the in vivo and in vitro effect of an O-PS-defective transposon mutant serotype b strain, characterized by the deletion of the rmlC gene encoding the α-L-rhamnose sugar biosynthetic enzyme. Induction of experimental periodontitis using the O-PS-defective rmlC mutant strain resulted in lower tooth-supporting bone resorption, infiltration of Th1, Th17, and Th22 lymphocytes, and expression of Ahr, Il1b, Il17, Il23, Tlr4, and RANKL (Tnfsf11) in the periodontal lesions as compared with the wild-type A. actinomycetemcomitans strain. In addition, the O-PS-defective rmlC mutant strain led to impaired activation of antigen-presenting cells, with less expression of the co-stimulatory molecules CD40 and CD80 in B lymphocytes and dendritic cells, and downregulated expression of Tnfa and Il1b in splenocytes. In conclusion, these data demonstrate that the O-PS from the serotype b of A. actinomycetemcomitans plays a key role in the capacity of the bacterium to prime oral innate and adaptive immune responses, by triggering the Th1 and Th17-driven tooth-supporting bone resorption during periodontitis.

Patogenia de las manifestaciones neurológicas asociadas al SARS-CoV-2 / Pathogenesis of neurological manifestations associated to SARS-CoV-2

Introducción: Los coronavirus infectan al ser humano y pueden causar manifestaciones neurológicas en individuos susceptibles. Objetivo: Describir la patogenia de las manifestaciones neurológicas en pacientes con la COVID-19. Estrategia de búsqueda y criterios de selección: Se realizó una revisión bibliográfica empleando la bibliografía nacional e internacional actualizada. Se realizó la búsqueda en Google Académico, se consultaron artículos de libre acceso en las bases de datos Pubmed y SciELO, desde enero de 2014 hasta el 6 de mayo de 2020. Fueron seleccionados 51 artículos (6 en idioma español, 45 en inglés) y un libro de neuroinmunología. Se utilizaron los términos de búsqueda COVID-19, coronavirus, SARS-CoV-2,manifestaciones neurológicas, sistema nervioso, patogénesis, según el descriptor de Ciencias de la Salud (DeCS). Análisis e integración de la información: El SARS-CoV-2 entra al sistema nervioso por la vía linfática, hematógena, transináptica retrógada, por diseminación local a través del etmoides o por disfunción de la barrera hematoencefálica. La patogenia puede ser por la acción directa del virus o inmunomediada. En la pandemia de COVID-19 se reportan pacientes con manifestaciones neurológicas centrales, periféricas y musculoesqueléticas. Los síntomas más frecuentes son los trastornos del gusto, el olfato, cefaleas, mialgias y mareos. En las formas graves se reportan meningitis, encefalitis, síndrome de Guillain-Barré, ictus y encefalopatías. Conclusiones: El SARS-CoV-2 puede afectar al sistema nervioso central y periférico. Causa principalmente manifestaciones leves y transitorias, aunque pueden ocurrir complicaciones neurológicas. Los mecanismos patogénicos principales son el daño citopático directo o mecanismos indirectos debido a una respuesta inflamatoria(AU)

Introduction: Coronaviruses infect humans and may cause neurological manifestations in susceptible individuals. Objective: Describe the pathogenesis of neurological manifestations in patients with COVID-19. Search strategy and selection criteria: A review was conducted of national and international updated bibliography. The search was carried out in Google Scholar and open access papers were consulted in the databases PubMed and SciELO from January 2014 to 6 May 2020. A total 51 papers (6 in Spanish and 45 in English) and a book on neuroimmunology were selected. The search terms used were COVID-19, coronavirus, SARS-CoV-2, neurological manifestations, nervous system and pathogenesis, in compliance with the Health Sciences Descriptors (DeCS). Data analysis and integration: SARS-CoV-2 enters the nervous system by lymphatic, hematogenous, transynaptic, retrograde routes, by local dissemination through the ethmoid, or by dysfunction of the hematoencephalic barrier. Pathogenesis may be due to direct action by the virus or immunomediated. During the COVID-19 pandemic patients have been reported with central, peripheral and musculoskeletal neurological manifestations. The most common symptoms are taste and smell disorders, headache, myalgia and dizziness. Meningitis, encephalitis, Guillain-Barré syndrome, stroke and encephalopathies have been reported in severe forms of the disease. Conclusions: SARS-CoV-2 may affect the central and the peripheral nervous system. It mainly causes mild, transient manifestations, but neurological complications may also occur. The main pathogenic mechanisms are direct cytophatic damage or indirect mechanisms resulting from an inflammatory response(AU)

EpitoCore: Mining Conserved Epitope Vaccine Candidates in the Core Proteome of Multiple Bacteria Strains.

In reverse vaccinology approaches, complete proteomes of bacteria are submitted to multiple computational prediction steps in order to filter proteins that are possible vaccine candidates. Most available tools perform such analysis only in a single strain, or a very limited number of strains. But the vast amount of genomic data had shown that most bacteria contain pangenomes, i.e., their genomic information contains core, conserved genes, and random accessory genes specific to each strain. Therefore, in reverse vaccinology methods it is of the utmost importance to define core proteins and core epitopes. EpitoCore is a decision-tree pipeline developed to fulfill that need. It provides surfaceome prediction of proteins from related strains, defines core proteins within those, calculate their immunogenicity, predicts epitopes for a given set of MHC alleles defined by the user, and then reports if epitopes are located extracellularly and if they are conserved among the core homologs. Pipeline performance is illustrated by mining peptide vaccine candidates in Mycobacterium avium hominissuis strains. From a total proteome of ~4,800 proteins per strain, EpitoCore predicted 103 highly immunogenic core homologs located at cell surface, many of those related to virulence and drug resistance. Conserved epitopes identified among these homologs allows the users to define sets of peptides with potential to immunize the largest coverage of tested HLA alleles using peptide-based vaccines. Therefore, EpitoCore is able to provide automated identification of conserved epitopes in bacterial pangenomic datasets.

A vaccine using Anaplasma marginale subdominant type IV secretion system recombinant proteins was not protective against a virulent challenge.

Anaplasma marginale is the most prevalent tick-borne livestock pathogen with worldwide distribution. Bovine anaplasmosis is a significant threat to cattle industry. Anaplasmosis outbreaks in endemic areas are prevented via vaccination with live A. centrale produced in splenectomized calves. Since A. centrale live vaccine can carry other pathogens and cause disease in adult cattle, research efforts are directed to develop safe recombinant subunit vaccines. Previous work found that the subdominant proteins of A. marginale type IV secretion system (T4SS) and the subdominant elongation factor-Tu (Ef-Tu) were involved in the protective immunity against the experimental challenge in cattle immunized with the A. marginale outer membrane (OM). This study evaluated the immunogenicity and protection conferred by recombinant VirB9.1, VirB9.2, VirB10, VirB11, and Ef-Tu proteins cloned and expressed in E. coli. Twenty steers were randomly clustered into four groups (G) of five animals each. Cattle from G1 and G2 were immunized with a mixture of 50 µg of each recombinant protein with Quil A® or Montanide™ adjuvants, respectively. Cattle from G3 and G4 (controls) were immunized with Quil A and Montanide adjuvants, respectively. Cattle received four immunizations at three-week intervals and were challenged with 107 A. marginale-parasitized erythrocytes 42 days after the fourth immunization. After challenge, all cattle showed clinical signs, with a significant drop of packed cell volume and a significant increase of parasitized erythrocytes (p<0.05), requiring treatment with oxytetracycline to prevent death. The levels of IgG2 induced in the immunized groups did not correlate with the observed lack of protection. Additional strategies are required to evaluate the role of these proteins and their potential utility in the development of effective vaccines.

Genotype-matched Newcastle disease virus vaccine confers improved protection against genotype XII challenge: The importance of cytoplasmic tails in viral replication and vaccine design.

Although typical Newcastle disease virus (NDV) vaccines can prevent mortality, they are not effective in preventing viral shedding. To overcome this, genotype-matched vaccines have been proposed. To date, this approach has never been tested against genotype XII strains. In this study, we generated and assessed the protection against genotype XII challenge of two chimeric NDV vaccine strains (rLS1-XII-1 and rLS1-XII-2). The rLS1-XII-1 virus has the complete fusion protein (F) and the hemagglutinin-neuraminidase (HN) open reading frames replaced with those from genotype XII strain NDV/peacock/Peru/2011 (PP2011) in a recombinant LaSota (rLS1) backbone. In rLS1-XII-2 virus, cytoplasmic tails of F and HN proteins were restored to those of rLS1. In vitro evaluation showed that rLS1-XII-2 and the parental rLS1 strains replicate at higher efficiencies than rLS1-XII-1. In the first vaccine/challenge experiment, SPF chickens vaccinated with rLS1-XII-1 virus showed only 71.3% protection, whereas, rLS1 and rLS1-XII-2 vaccinated chickens were fully protected. In a second experiment, both rLS1-XII-2 and the commercial vaccine strain LaSota induced 100% protection. However, rLS1-XII-2 virus significantly reduced viral shedding, both in the number of shedding birds and in quantity of shed virus. In conclusion, we have developed a vaccine candidate capable of fully protecting chickens against genotype XII challenges. Furthermore, we have shown the importance of cytoplasmic tails in virus replication and vaccine competence.

Immune Response to Mucosal Brucella Infection.

Brucellosis is one of the most prevalent bacterial zoonosis of worldwide distribution. The disease is caused by Brucella spp., facultative intracellular pathogens. Brucellosis in animals results in abortion of fetuses, while in humans, it frequently manifests flu-like symptoms and a typical undulant fever, being osteoarthritis a common complication of the chronic infection. The two most common ways to acquire the infection in humans are through the ingestion of contaminated dairy products or by inhalation of contaminated aerosols. Brucella spp. enter the body mainly through the gastrointestinal and respiratory mucosa; however, most studies of immune response to Brucella spp. are performed analyzing models of systemic immunity. It is necessary to better understand the mucosal immune response induced by Brucella infection since this is the main entry site for the bacterium. In this review, some virulence factors and the mechanisms needed for pathogen invasion and persistence are discussed. Furthermore, some aspects of local immune responses induced during Brucella infection will be reviewed. With this knowledge, better vaccines can be designed focused on inducing protective mucosal immune response.

Effects of infection history on dengue virus infection and pathogenicity.

The understanding of immunological interactions among the four dengue virus (DENV) serotypes and their epidemiological implications is often hampered by the lack of individual-level infection history. Using a statistical framework that infers full infection history, we analyze a prospective pediatric cohort in Nicaragua to characterize how infection history modulates the risks of DENV infection and subsequent clinical disease. After controlling for age, one prior infection is associated with 54% lower, while two or more are associated with 91% higher, risk of a new infection, compared to DENV-naive children. Children >8 years old have 55% and 120% higher risks of infection and subsequent disease, respectively, than their younger peers. Among children with ≥1 prior infection, intermediate antibody titers increase, whereas high titers lower, the risk of subsequent infection, compared with undetectable titers. Such complex dependency needs to be considered in the design of dengue vaccines and vaccination strategies.

The Virulence of Different Vaccinia Virus Strains Is Directly Proportional to Their Ability To Downmodulate Specific Cell-Mediated Immune Compartments In Vivo.

Vaccinia virus (VACV) is a notorious virus for a number of scientific reasons; however, most of its notoriety comes from the fact that it was used as a vaccine against smallpox, being ultimately responsible for the eradication of that disease. Nonetheless, many different vaccinia virus strains have been obtained over the years; some are suitable to be used as vaccines, whereas others are virulent and unsuitable for this purpose. Interestingly, different vaccinia virus strains elicit different immune responses in vivo, and this is a direct result of the genomic differences among strains. In order to evaluate the net result of virus-encoded immune evasion strategies of vaccinia viruses, we compared antiviral immune responses in mice intranasally infected by the highly attenuated and nonreplicative MVA strain, the attenuated and replicative Lister strain, or the virulent WR strain. Overall, cell responses elicited upon WR infections are downmodulated compared to those elicited by MVA and Lister infections, especially in determined cell compartments such as macrophages/monocytes and CD4+ T cells. CD4+ T cells are not only diminished in WR-infected mice but also less activated, as evaluated by the expression of costimulatory molecules such as CD25, CD212, and CD28 and by the production of cytokines, including tumor necrosis factor alpha (TNF-α), gamma interferon (IFN-γ), interleukin-4 (IL-4), and IL-10. On the other hand, MVA infections are able to induce strong T-cell responses in mice, whereas Lister infections consistently induced responses that were intermediary between those induced by WR and MVA. Together, our results support a model in which the virulence of a VACV strain is proportional to its potential to downmodulate the host's immune responses.IMPORTANCE Vaccinia virus was used as vaccine against smallpox and was instrumental in the successful eradication of that disease. Although smallpox vaccination is no longer in place in the overall population, the use of vaccinia virus in the development of viral vector-based vaccines has become popular. Nonetheless, different vaccinia virus strains are known and induce different immune responses. To look into this, we compared immune responses triggered by mouse infections with the nonreplicative MVA strain, the attenuated Lister strain, or the virulent WR strain. We observed that the WR strain was capable of downmodulating mouse cell responses, whereas the highly attenuated MVA strain induced high levels of cell-mediated immunity. Infections by the intermediately attenuated Lister strain induced cell responses that were intermediary between those induced by WR and MVA. We propose that the virulence of a vaccinia virus strain is directly proportional to its ability to downmodulate specific compartments of antiviral cell responses.

Streptococcus agalactiae - Distribuição sorotípica e relação com fatores de virulência e resistência antimicrobiana / Streptococcus agalactiae - Serotype distriburion and correlation with virulence factors and antibiotic resistance

Streptococcus agalactiae, ou Estreptococo do Grupo B, é um microrganismo que encontrado na microbiota intestinal, vaginal e/ou geniturinária de 10-30% de mulheres saudáveis. A principal infecção causada por S. agalactiae é a sepse neonatal. O bebê pode adquirir o microrganismo durante o parto ao passar pelo canal vaginal, ou até mesmo durante a gestação, caso haja ascensão de S. agalactiae para o útero. Existem diversos fatores associados à infecção do feto por S. agalactiae quando a mãe é colonizada, tais como fator CAMP, cápsula de polissacarídeos, hialuronidase, ß-citolisina/hemolisina e pili. Não existe consenso ou recomendação técnica sobre o tema no Brasil. Segundo o Caderno de Atenção Básica ao Pré-Natal, não existem estudos que levem à recomendação da antibioticoterapia intraparto. É necessário elucidar as características genotípicas de cepas de S. agalactiae isoladas no Brasil para alinhar as práticas clínicas às características fenotípicas do microrganismo. Desta forma, os objetivos deste projeto são: i) classificar cepas de S. agalactiae isoladas de gestantes e não gestantes quanto ao sorotipo capsular, por PCR Multiplex, ii) avaliar a presença e distribuição de fatores de virulência, por PCR e iii) avaliar o perfil de resistência antimicrobiana, pelo método de disco difusão e teste D. Os achados de virulência e resistência a antimicrobianos foram comparados com os sorotipos, gestação, localização geográfica e sítio de isolamento. Foram analisadas 292 cepas isoladas de gestantes e não gestantes em São Paulo, São José dos Campos e Rio de Janeiro. O sorotipo Ia foi o mais prevalente entre as cepas. Na cidade de São José dos Campos não houve diferença significativa entre a prevalência dos sorotipos Ia e V, sendo que o sorotipo V foi mais abundante do que nas cidades de São Paulo e Rio de Janeiro. O sorotipo II foi mais abundante em mulheres não gestantes do que gestantes. Não foram encontradas cepas resistentes à Penicilina e vancomicina; contudo a resistência a Cefepima, Eritromicina e Clindamicina ficou em torno de 22%. Foram encontradas diferenças entre os sorotipos quanto à resistência, genes de virulência e sítio de isolamento das cepas. Portanto essas diferenças podem se refletir no perfil epidemiológico da infecção por S. agalactiae quanto à localização geográfica também quanto à gestação. A incidência de sepse causada por S. agalactiae diminuiu muito nas últimas décadas, contudo o monitoramento constante é necessário para alinhar as práticas clínicas às características fenotípicas do microrganismo

Streptococcus agalactiae, or Group B Streptococcus, is a microorganism found in intestinal, vaginal and/or genitourinary microbiota from about 10-30% of all healthy women. The main infection caused by S. agalactiae is neonatal sepsis. The baby can contract the infection during labor when passing through the vaginal canal, or even during pregnancy, if S. agalactiae ascends from the vaginal canal to the uterus. There are several factors associated to the infection of the fetus by S. agalactiae when the mother is colonized, such as the CAMP factor, polysaccharide capsule, hyaluronidase, ß-cytolysin/hemolysin and pili. There is no consensus or technical recommendation regarding this theme in Brazil. According to the Brazilian guidelines to prenatal care, there is no research that justifies the implementation of intrapartum antibiotic therapy. There is a need to clarify genotype characteristics of S. agalactiae strains isolated in Brazil in order to align clinical practices to phenotypical characteristics of this microorganism. This way, the goals of this project are: i) to classify S. agalactiae strains isolated from pregnant and nonpregnant women according to their capsular serotype, using PCR Multiplex, ii) to evaluate the presence and distribution of virulence factors, using PCR and iii) to evaluate their antibiotic resistance profile, using disk-diffusion and D-zone tests. The findings regarding virulence and resistance were compared to serotypes, pregnancy, geographic localization and the site where the sample was isolated. A total of 292 strains from pregnant and nonpregnant women from the cities of São Paulo, São José dos Campos and Rio de Janeiro were analyzed. Serotype Ia was the most prevalent among the strains. In São José dos Campos there was no significate difference in the prevalence of serotypes Ia and V. Serotype V was the most abundant in São Paulo and Rio de Janeiro. Serotype II was most prevalent in nonpregnant women when compared to pregnant women. No resistance to Penicillin nor Vancomycin was found. However, resistance to Cefepime, Erythromycin or Clindamycin was found in around 22% of strains. There were differences among serotypes regarding resistance, virulence genes and site where the strain was isolated. Therefore these differences can reflect into the epidemiologic profile of S. agalactiae infection in regards to geographic localization and pregnancy. The incidence of sepsis caused by S. agalactiae has decrease in the last few decades, however constant monitoring is necessary in order to align clinical practice to the microorganisms phenotypical characteristics

Sporothrix brasiliensis: aspectos imunológicos e virulência / Sporothrix brasiliensis: immunological aspects and virulence

A esporotricose caracteriza-se como uma micose subcutânea causada por fungos dimórficos do gênero Sporothrix, capazes de acometer o homem e uma grande variedade de animais, dentre eles os felinos. A princípio, Sporothrix schenckii era a única espécie conhecida como responsável pela esporotricose. Após estudos genotípicos e fenotípicos de isolados ambientais, clínicos humanos e animais, verificou-se alta variabilidade entre os isolados e estabeleceu-se a existência de um Complexo Sporothrix. Dentro deste, a maior causadora de surtos epidêmicos, justificada por uma maior virulência e capacidade de evasão da resposta imune, é a espécie Sporothrix brasiliensis. Nesse sentido, dada a ausência de estudos direcionados a está espécie, objetivou-se avaliar a importância de receptores Toll like-2 (TLR-2) e Toll like-4 (TLR-4) na infecção por S. brasiliensis. Além disso, utilizando técnicas de proteômica, procurou-se elucidar proteínas diferencialmente expressas em S. brasiliensis quando comparado à espécie S. schenckii. Para avaliação da resposta imune utilizaram-se modelos in vitro e in vivo de infecção, e para a investigação das proteínas diferencialmente expressas, utilizou-se a técnica de proteômica Bottom-up. A investigação da resposta imune in vitro mostrou a dependência dos receptores TLR-2 e TLR-4 no desencadeamento da resposta imune. Os ensaios in vivo mostraram a importância desses receptores no controle da infecção e dependência dos mesmos na produção de citocinas, principalmente nos primeiros 14 dias de infecção. Na ausência do receptor TLR-2, houve a polarização de resposta Th17 na tentativa de controle da infecção. Quando avaliadas as diferenças entre as espécies S. brasiliensis e S. schenckii, em termos de proteínas expressas, verificou-se que S. brasiliensis expressa diferencialmente 60 proteínas. Dentre essas, 9 são relatadas na literatura, como importantes na virulência e escape imunológico dos principais fungos de importância médica. Os resultados encontrados no presente trabalho permitem concluir que reconhecimento de S. brasiliensis é dependente dos receptores TLR-2 e TLR-4. Estudos que investiguem a utilização de outras vias de sinalização como mecanismos compensatórios, bem como, o sinergismo desses receptores no contexto da infecção por S. brasiliensis são fundamentais na compreensão da fisiopatologia dessa doença. No que tange a caracterização proteica, estudos com mutantes para cada uma das proteínas descritas nesse trabalho devem ser avaliados

Sporotrichosis is a subcutaneous mycosis caused by dimorphic fungi of the genus Sporothrix that affects humans and animals, predominantelly felines. Inicially, Sporothrix schenckii was the only specie associated to sporotrichosis. However, after genotypic and phenotypic studies of human and animal clinical isolates, a high variability among the isolates was found and was concluded the existence of a complex: the Sporothrix Complex. Inside the Sporothrix complex, the major cause of epidemic outbreaks, justified by a greater virulence and ability to evade the immune system, is Sporothrix brasiliensis. Concerning this, the absence of studies directed to this specific specie, the aim was to evaluate the importance of Toll like receptor-2 (TLR-2) and Toll like receptor-4 (TLR-4) during S. brasiliensis infection. In addition, was look using proteomics techniques, the proteins differentially expressed in S. brasiliensis when compared to S. schenckii. To evaluate the immune response, in vitro and in vivo tecniques were used, and for the investigation of differentially expressed proteins, the Bottom-up proteomics technique was used. The investigation of the in vitro immune response showed the dependence of TLR-2 and TLR-4 receptors on phagocytosis and the production of inflammatory mediators, such as cytokines and NO. In vivo assays showed the importance of these receptors to control the infection and their dependence on cytokine production during the first 14 days of infection. In the absence of the TLR-2 receptor, the Th17 response was polarized in an attempt to control the infection. Evaluating the differences between S. brasiliensis and S. schenckii, in terms of expressed proteins, it was verified that S. brasiliensis differentially expressed 60 proteins. Among these, 9 are reported in the literature, as important in the virulence and immune evasion among the most important medical fungi. The results found in the present study allow to conclude that S. brasiliensis recognition is dependent on TLR-2 and TLR-4 receptors. Studies investigating the use of other signaling pathways as compensatory mechanisms, as well as the synergism of these receptors in the context of S. brasiliensis infection, are fundamental to understand the pathophysiology of this disease. Regarding the protein characterization, studies with mutants for each of the proteins described in this work should be evaluated

Salmonella impairs CD8 T cell response through PD-1: PD-L axis.

We have shown that Salmonella remains for a long period of time within B cells, plasma cells, and bone marrow B cell precursors, which might allow persistence and dissemination of infection. Nonetheless, how infected cells evade CD8 T cell response has not been characterized. Evidence indicates that some pathogens exploit the PD-1: PD-L (PD-L1 and PD-L2) interaction to inhibit CD8 T cells response to contribute the chronicity of the infection. To determine whether the PD-1: PD-L axis plays a role during Salmonella infection; we evaluated PD-1 expression in antigen-specific CD8 T cells and PD-1 ligands in Salmonella-infected cells. Our results show that infected B cells and macrophages express continuously co-stimulatory (CD40, CD80, and CD86) and inhibitory molecules (PD-L1 and PD-L2) in early and late stages of chronic Salmonella infection, while antigen-specific CD8 T cells express in a sustained manner PD-1 in the late stages of infection. Blocking this axis restores the ability of the CD8 T cells to proliferate and eliminate primary infected APCs. Therefore, a continuous PD-1: PDL interaction might be a mechanism employed by Salmonella to negatively regulate Salmonella-specific CD8 T cell cytotoxic response in order to remain within the host for a long period of time.

Immunological response to re-infections with clones of the Colombian strain of Trypanosoma cruzi with different degrees of virulence: influence on pathological features during chronic infection in mice

Re-infections with Trypanosoma cruzi are an aggravating factor for Chagas disease morbidity. The Colombian strain of T. cruzi represents multiclonal populations formed by clonally propagating organisms with different tropisms and degrees of virulence. In the present study, the influence of successive inoculations with clones of the Colombian strain, exhibiting different degrees of virulence, on chronic myocarditis and the humoral and cellular immune responses (Col-C1 high virulence, Col-C8 medium virulence and Col-C5 low virulence) were demonstrated. Mice from three groups with a single infection were evaluated during the acute (14th-30th day) and chronic phases for 175 days. An immunofluorescence assay, ELISA and delayed type hypersensitivity (DTH) cutaneous test were also performed. Mice with a triple infection were studied on the 115th-175th days following first inoculation. The levels of IgM and IgG2a were higher in the animals with a triple infection. DTH showed a higher intensity in the inflammatory infiltrate based on the morphometric analysis during a 48 h period of the triple infection and at 24 h with a single infection. The histopathology of the heart demonstrated significant exacerbation of cardiac inflammatory lesions confirmed by the morphometric test. The humoral responses indicate a reaction to the triple infection, even with clones of the same strain.

Immunological response to re-infections with clones of the Colombian strain of Trypanosoma cruzi with different degrees of virulence: influence on pathological features during chronic infection in mice.

Re-infections with Trypanosoma cruzi are an aggravating factor for Chagas disease morbidity. The Colombian strain of T. cruzi represents multiclonal populations formed by clonally propagating organisms with different tropisms and degrees of virulence. In the present study, the influence of successive inoculations with clones of the Colombian strain, exhibiting different degrees of virulence, on chronic myocarditis and the humoral and cellular immune responses (Col-C1 high virulence, Col-C8 medium virulence and Col-C5 low virulence) were demonstrated. Mice from three groups with a single infection were evaluated during the acute (14th-30th day) and chronic phases for 175 days. An immunofluorescence assay, ELISA and delayed type hypersensitivity (DTH) cutaneous test were also performed. Mice with a triple infection were studied on the 115th-175th days following first inoculation. The levels of IgM and IgG2a were higher in the animals with a triple infection. DTH showed a higher intensity in the inflammatory infiltrate based on the morphometric analysis during a 48 h period of the triple infection and at 24 h with a single infection. The histopathology of the heart demonstrated significant exacerbation of cardiac inflammatory lesions confirmed by the morphometric test. The humoral responses indicate a reaction to the triple infection, even with clones of the same strain.

Effect of Histoplasma capsulatum glucans on host innate immunity.

ß-1,3-Glucan is important for infective forms (mycelial phase) of Histoplasma capsulatum and shares many features allotted to pathogen-associated molecular patterns. These cell wall carbohydrates interact with phagocytes by binding to Toll and lectin-like receptors, present on cell surfaces of macrophages, neutrophils, and dendritic cells. This review focuses on recent findings of the major H. capsulatum and host carbohydrate-driven interactions that account for internalization of fungal infective forms into phagocytes, and its subsequent avoidance of intracellular elimination. The yeast phase of H. capsulatum possesses different modulating factors of the macrophagic-anti-fungal mechanisms, mainly α-1,3-glucan, which is considered relevant for virulence. This manuscript is part of the series of works presented at the "V International Workshop: Molecular genetic approaches to the study of human pathogenic fungi" (Oaxaca, Mexico, 2012).

Aspectos clínico-epidemiológicos e microbiológicos de processos infecciosos causados por Corynebacterium spp em pacientes de centro de referência oncológico – Rio de Janeiro, Brasil / Clinical-epidemiological and microbiological aspects of infectious processes caused by Corynebacterium spp in pacients at the National Cancer Institute in Rio de Janeiro, Brazil

Os resultados permitiram a redação de quatro artigos. Aspectos microbiológicos e clínicos de corinebacterioses em pacientes com câncer observados durante cinco anos foram descritos no Artigo 1. No Artigo 2 foram apresentados casos de bacteremia causados por corinebactérias invasivas não toxigênicas em dois períodos com intervalo de sete anos. As infecções em pacientes com câncer por C. diphtheriae, causando casos clínicos atípicos foram descritas no Artigo 3, além do estudo dos principais fatores de virulência de uma cepa de C. diphtheriae isolada de infecção associada ao cateter de nefrostomia foi descrita no Artigo 4. Resumidamente no Artigo 1, além dos aspectos clínico-epidemiológicos foram avaliados os perfis de resistência aos antimicrobianos e o potencial de virulência dos micro-organismos. Em cinco anos, 932 amostras de corinebactérias, com perfis de resistência aos antimicrobianos testados, foram isoladas de pacientes com câncer. As espécies predominantes foram Corynebacterium amycolatum (44,7%), Corynebacterium minutissimum (18,3%) e Corynebacterium pseudodiphtheriticum (8,5%). O uso de catéteres de longa permanência e a neutropenia, foram às condições importantes para infecção por corinebactérias. As doenças de base mais comuns foram os tumores sólidos. Pacientes hospitalizados apresentaram risco seis vezes maior de morrer, quando relacionadas às taxas de mortalidade com 30 dias (RC= 5,5; IC 95%= 1,15-26,30; p= 0,033). As bacteremias (Artigo 2) causadas por corinebactérias foram observadas em dois períodos: 2003-2004 (n=38) e de 2012-2013 (n=24). As espécies multirresistentes C. amycolatum e Corynebacterium jeikeium foram os principais responsáveis pelos quadros de bacteremia. Havia 34 pacientes com tumores sólidos e 28 pacientes com doenças linfoproliferativas, sendo que 21 deles apresentavam neutropenia e 54 utilizavam cateter venoso central. Em 41 pacientes havia infecção relacionada ou associada aos dispositivos intravasculares...

A retrospective study at the InstitutoNacional doCâncer-INCA (National Cancer Institute) in Rio de Janeiro, Brazil examined infections of Corynebacterium sp. in cancer patients. The results were presented in four papers. Article 1 describes microbiological and clinical aspects of corynebacteriosis in cancer patients observed over five years. Article 2 presents cases of bacteremia caused by invasive non-toxigenic corynebacteria observed in 2003-2004 and seven years later in 2012-2013. Article 3 presents atypical clinical cases of cancer patients infected by Corynebacterium diphtheriae, while Article 4 is a study of the major bacterial virulence factors of an isolated strain of C. diphtheriae in infections associated with nephrostomy catheters.In addition to clinical and epidemiological aspects, Article 1 evaluates the antimicrobial resistance profiles and potential virulence factor of microorganisms. Over a period of five years, 932 samples of corynebacteria with antimicrobial resistance profiles were isolated from patients with cancer. The predominant species were Corynebacterium amycolatum (44.7%), Corynebacterium minutissimum (18.3%) and Corynebacterium pseudodiphtheriticum (8.5%).Long-term catheter use and neutropenia were the major conditions for infection by corynebacteria. Solid tumors were the most common underlying illness. The 30-day mortality rate for patients with corynebacteria infections was six times greater in hospitalized patients than for non-hospitalized patients (OR = 5.5, 95% CI = 1.15 to 26.30, p = 0.033).In Article 2, bacteremia caused by corynebacteria were observed in two time frames: 2003 to 2004 (n=38) and 2012 to 2103 (n=24). The multidrug-resistant species C. amycolatum and Corynebacterium jeikeium were responsible for invasive diseases.There were 34 patients with solid tumors and 28 patients with lymphoproliferative diseases, of which 21 had neutropenia and 54 used central venous catheter...

A Brucella virulence factor targets macrophages to trigger B-cell proliferation.

Brucella spp. and Trypanosoma cruzi are two intracellular pathogens that have no evolutionary common origins but share a similar lifestyle as they establish chronic infections for which they have to circumvent the host immune response. Both pathogens have a virulence factor (prpA in Brucella and tcPrac in T. cruzi) that induces B-cell proliferation and promotes the establishment of the chronic phase of the infectious process. We show here that, even though PrpA promotes B-cell proliferation, it targets macrophages in vitro and is translocated to the cytoplasm during the intracellular replication phase. We observed that PrpA-treated macrophages induce the secretion of a soluble factor responsible for B-cell proliferation and identified nonmuscular myosin IIA (NMM-IIA) as a receptor required for binding and function of this virulence factor. Finally, we show that the Trypanosoma cruzi homologue of PrpA also targets macrophages to induce B-cell proliferation through the same receptor, indicating that this virulence strategy is conserved between a bacterial and a protozoan pathogen.

Gene elements that regulate Streptococcus pneumoniae virulence and immunity evasion.

Streptococcus pneumoniae is one of the most important aetiological agents of bacterial pneumonia and meningitis in the world. This bacterium can cause severe inflammation of lung tissue and disseminate to the central nervous system. Although B cell activation and antibody secretion is considered one of the most important events in the prevention or clearance of bacterial infection by the host, dendritic cells (DCs) and T cells play a fundamental role in the generation of the protective immunity required to prevent the pathogenesis caused by S. pneumoniae infection. Here we review recent studies that have evaluated the impact of DCs and T cells on S. pneumoniae infection and the gene elements encoding virulence factors used by this bacterium to interfere with the appropriate function of these immune cells. This knowledge could be relevant for generating new prophylactic and therapeutic tools and to prevent the severe infection caused by this pathogen.

Mycobacterium leprae virulence-associated peptides are indicators of exposure to M: leprae in Brazil, Ethiopia and Nepal

Silent transmission of Mycobacterium leprae, as evidenced by stable leprosy incidence rates in various countries, remains a health challenge despite the implementation of multidrug therapy worldwide. Therefore, the development of tools for the early diagnosis of M. leprae infection should be emphasised in leprosy research. As part of the continuing effort to identify antigens that have diagnostic potential, unique M. leprae peptides derived from predicted virulence-associated proteins (group IV.A) were identified using advanced genome pattern programs and bioinformatics. Based on human leukocyte antigen (HLA)-binding motifs, we selected 21 peptides that were predicted to be promiscuous HLA-class I T-cell epitopes and eight peptides that were predicted to be HLA-class II restricted T-cell epitopes for field-testing in Brazil, Ethiopia and Nepal. High levels of interferon (IFN)-γ were induced when peripheral blood mononuclear cells (PBMCs) from tuberculoid/borderline tuberculoid leprosy patients located in Brazil and Ethiopia were stimulated with the ML2055 p35 peptide. PBMCs that were isolated from healthy endemic controls living in areas with high leprosy prevalence (EChigh) in Ethiopia also responded to the ML2055 p35 peptide. The Brazilian EChigh group recognised the ML1358 p20 and ML1358 p24 peptides. None of the peptides were recognised by PBMCs from healthy controls living in non-endemic region. In Nepal, mixtures of these peptides induced the production of IFN-γ by the PBMCs of leprosy patients and EChigh. Therefore, the M. leprae virulence-associated peptides identified in this study may be useful for identifying exposure to M. leprae in population with differing HLA polymorphisms.