Neutrophil-suppressive activity over T-cell proliferation and fungal clearance in a murine model of Fonsecaea pedrosoi infection.

Neutrophils are essential to control several fungal infections. These cells are commonly known for their pro-inflammatory activities. However, some studies have demonstrated the anti-inflammatory properties of neutrophils during certain infectious diseases, culminating in the inhibition of T cell proliferation. Chromoblastomycosis (CBM) is a deep and progressive mycosis that affects thousands of people worldwide. Although neutrophil infiltrates are observed in the lesion histopathology, the fungus can overtake the immune system response and destroy the host-infected tissue. The present study demonstrated that neutropenic animals had an increase in the IL-6 production in the spleen and liver, followed by a lower fungal burden in these organs up to 14 days of infection. Neutropenic animals also showed a lower F. pedrosoi-specific antibody production 14-days post infection and higher T-cell proliferation in the in vitro experiments after stimulation with F. pedrosoi-purified proteins. Taken together, our results suggest that the presence of regulatory neutrophils in the mouse model of F. pedrosoi infection could act favoring the spread of the fungus and the chronicity of the infection. These findings shed light on the CBM treatment, which might target neutrophil polarization as a new therapy approach to treat CBM lesions.

An immunoproteomic approach revealing peptides from Sporothrix brasiliensis that induce a cellular immune response in subcutaneous sporotrichosis.

Sporothrix brasiliensis is the most virulent fungus of the Sporothrix complex and is the main species recovered in the sporotrichosis zoonotic hyperendemic area in Rio de Janeiro. A vaccine against S. brasiliensis could improve the current sporotrichosis situation. Here, we show 3 peptides from S. brasiliensis immunogenic proteins that have a higher likelihood for engaging MHC-class II molecules. We investigated the efficiency of the peptides as vaccines for preventing subcutaneous sporotrichosis. In this study, we observed a decrease in lesion diameters in peptide-immunized mice, showing that the peptides could induce a protective immune response against subcutaneous sporotrichosis. ZR8 peptide is from the GP70 protein, the main antigen of the Sporothrix complex, and was the best potential vaccine candidate by increasing CD4+ T cells and higher levels of IFN-γ, IL-17A and IL-1ß characterizing a strong cellular immune response. This immune environment induced a higher number of neutrophils in lesions that are associated with fungus clearance. These results indicated that the ZR8 peptide induces a protective immune response against subcutaneous sporotrichosis and is a vaccine candidate against S. brasiliensis infection.

Therapeutic treatment with scFv-PLGA nanoparticles decreases pulmonary fungal load in a murine model of paracoccidioidomycosis.

Paracoccidioidomycosis (PCM) is a systemic mycosis with lymphatic dissemination that is caused by Paracoccidioides species. Treatment of PCM consists of chemotherapeutics such as itraconazole, trimethoprim, sulfamethoxazole or amphotericin B. However, several studies are aiming to develop therapeutic alternatives for the treatment of fungal infection using new molecules as adjuvants. The single-chain variable fragments (scFv) from an antibody that mimics the main fungal component incorporated within poly(lactide-co-glycolic) acid (PLGA) nanoparticles helped treat the fungal disease. After expressing the scFv in Picchia pastoris (P. pastoris), the recombinant molecules were coupled with PLGA, and the BALB/c mice were immunized before or after infection with yeast Paracoccidioides brasiliensis (P. brasiliensis). Our results showed decreased disease progression and decreased fungal burden. Taken together, our results showed an increased of IFN-γ and IL-12 cytokine production and an increased number of macrophages and dendritic cells in the pulmonary tissue of BALB/c mice treated with a high concentration of our molecule. Our data further confirm that the scFv plays an important role in the treatment of experimental PCM.

TLR3 Is a Negative Regulator of Immune Responses Against Paracoccidioides brasiliensis.

Toll-like receptors (TLRs) comprise the best-characterized pattern-recognition receptor (PRR) family able to activate distinct immune responses depending on the receptor/adaptor set assembled. TLRs, such as TLR2, TLR4 and TLR9, and their signaling were shown to be important in Paracoccidioides brasiliensis infections. However, the role of the endosomal TLR3 in experimental paracoccidioidomycosys remains obscure. In vitro assays, macrophages of the bone marrow of WT or TLR3-/- mice were differentiated for evaluation of their microbicidal activity. In vivo assays, WT or TLR3-/- mice were infected intratracheally with Paracoccidioides brasiliensis yeasts for investigation of the lung response type induced. The cytotoxic activity of CD8+ T cells was assessed by cytotoxicity assay. To confirm the importance of CD8+ T cells in the control of infection in the absence of tlr3, a depletion assay of these cells was performed. Here, we show for the first time that TLR3 modulate the infection against Paracoccidioides brasiliensis by dampening pro-inflammatory response, NO production, IFN+CD8+T, and IL-17+CD8+T cell activation and cytotoxic function, associated with granzyme B and perforin down regulation. As conclusion, we suggest that TLR3 could be used as an escape mechanism of the fungus in an experimental paracoccidioidomycosis.

Novos reguladores de resposta envolvidos na virulência de Pseudomonas aeruginosa / New response regulators involved in Pseudomonas aeruginosa virulence

Os sistemas de sinalização de dois componentes são sistemas prevalentes em bactérias, permitindo a adaptação a diferentes condições ambientais. O sistema de dois componentes classicamente possui uma proteína histidina quinase, o primeiro componente, capaz de reconhecer o estímulo ambiental e fosforilar o regulador de resposta, o segundo componente. Pseudomonas aeruginosa é uma proteobactéria ubíqua, capaz de infectar hospedeiros filogeneticamente distintos. Esse patógeno oportunista apresenta um dos maiores conjuntos de sistemas de dois componentes em bactérias, que permite que ela sobreviva numa grande gama de ambientes, incluindo humanos. P. aeruginosa UCBPP-PA14 apresenta pelo menos 64 histidina quinases e 76 reguladores de resposta codificados em seu genoma. Diversos sistemas de dois componentes já foram correlacionados com a virulência, sendo o sistema GacSA o exemplo melhor caracterizado. Há poucos estudos sistemáticos sobre o envolvimendo dos reguladores de resposta na virulência de P. aeruginosa e os sinais que induzem a ativação dos reguladores de resposta precisam ser encontrados. Para identificar novos reguladores de resposta envolvidos na patogenicidade, infecções in vitro em macrófagos e in vivo em Drosophila melanogaster foram realizadas neste trabalho. Os macrófagos foram infectados com cada mutante dos reguladores de resposta ou com a linhagem selvagem, e a produção da citocina pró-inflamatória TNF-α e o clearance bacteriano foram determinados. Alternativamente, as moscas foram infectadas utilizando-se a estratégia de feeding e a sobrevivência foi verificada. Utilizando-se essas abordagens, a identificação de diversos reguladores de resposta com papel na virulência foi alcançada, além de se corfirmar o papel de reguladores de resposta já estudados. Um dos novos genes envolvidos em virulência, PA14_26570 (nomeado neste trabalho de atvR), codifica um regulador de resposta atípico com substituição no aspartato fosforilável para glutamato, o que usualmente induz um estado sempre ativo. Um mutante não polar em atvR foi construído e macrófagos infectados com a linhagem ΔatvR confirmaram um maior clearance bacteriano e maior produção de TNF-α em comparação aos macrófagos infectados com a linhagem selvagem. Para comprovar a participação de AtvR durante a patogênese, um modelo de pneumonia aguda em camundongos foi utilizado. Camundongos infectados com a linhagem ΔatvR apresentaram uma maior sobrevivência em comparação aos camundongos infectados com a linhagem selvagem. Além disso, os camundongos infectados com ΔatvR apresentaram menor carga bacteriana, aumento no recrutamento de neutrófilos ativados e aumento na produção de citocinas pró-inflamatórias (TNF-α e IFN-γ). Utilizando-se uma abordagem transcritômica (RNA-Seq), foi determindo diversos genes são regulados positivamente na linhagem superexpressando AtvR em relação à linhagem controle. Dentre esses, os clusters de respiração anaeróbia nar, nir, nor e nos estão incluídos. Esse resultado foi confirmado por qRT-PCR e análises fenotípicas, em que a linhagem ΔatvR apresentou menor crescimento e expressão da nitrato redutase durante condições de hipóxia em comparação à linhagem selvagem. Em suma, neste trabalho foi demonstrado que diversos reguladores de resposta são importantes para a virulência de P. aeruginosa em macrófagos in vitro e in vivo em Drosophila, além de caracterizar o regulador de resposta atípico AtvR, que regula a respiração anaeróbica por desnitrificação, permitindo que P. aeruginosa possa infectar e colonizar o hospedeiro com maior eficiência

Two-component systems are widespread in bacteria, allowing the adaptation to environmental changes. A two-component system is classically composed by a sensor kinase that phosphorylates a cognate response regulator. Pseudomonas aeruginosa is a ubiquitous proteobacterium able to cause disease in several hosts. This opportunistic pathogen presents one of the largest sets of two-component systems known in bacteria, which certainly contributes to its ability to thrive in a wide range of environmental settings, including humans. P. aeruginosa UCBPP-PA14 genome codes for at least 64 sensor kinases and 76 response regulators. Some response regulators are already known to be related to virulence, with the GacSA system as the best characterized. There are no systematic studies about the involvement of P. aeruginosa response regulators in virulence. Moreover, the input signal that triggers the response regulator activation is yet to be uncovered for most systems. To find new response regulators involved in virulence, in vitro infections werecarried out using macrophages. Briefly, the macrophages were infected with each response regulator mutant or the wild-type strain, the pro-inflammatory cytokine production (TNF-α) and the bacterial clearance were evaluated. Using this approach, we identified several response regulators involved in virulence, and we also confirmed the involvement of known response regulators in this process. One of the novel virulence-related response regulators, PA14_26570 (named here as AtvR), is an atypical response regulator with a substitution in the phosphorylable aspartate to glutamate, that usually leads to an always-on state. A non-polar mutant was constructed, and macrophage infection with ΔatvR confirmed an increased bacterial clearance as well as a higher TNF-α production as compared to the wild-type strain. To ascertain the role of AtvR during the pathogenic process, an acute pneumonia model was used. Mice infected with ΔatvR showed an increased survival as compared to mice infected with the wildtype strain. In addition, ΔatvR infected mice showed reduced bacterial burden, increased neutrophil recruitment and activation, as well as increased pro-inflammatory cytokine production (TNF-α and IFN-γ). Also, using a transcriptomic approach (RNASeq), we showed that several genes were upregulated in the strain overexpressing AtvR. These genes include the anaerobic respiration clusters nar, nir, nor and nos. This result was confirmed by qRT-PCR and phenotypic analysis, in which ΔatvR showed reduced growth and nitrate reductase expression during hypoxic conditions as compared to the wild-type strain. In conclusion, we have demonstrated that several response regulators are important for P. aeruginosa virulence in vitro. In addition, we further characterized the atypical response regulator AtvR, which regulates anaerobic respiration via denitrification, allowing this bacterium to infect and colonize the host more efficiently

The Critical Role of Notch1-TLR 4 Signaling in the Inflammatory and Fungicidal Activity of Macrophages Against Paracoccidioides brasiliensis Strain Pb18.

Paracoccidioidomycosis is a systemic mycosis of deep nature that primarily affects the lung and can spread via lymphatic and hematogenous to other organs and tissues. It is mainly caused by Paracoccidioides brasiliensis fungus which exhibits thermal dimorphism. The innate immune system mediated by macrophages is extremely important for the control of infection and is involved in the induction and regulation of immune/inflammatory response. These cells are able to recognize pathogens through pattern recognition receptors (PRRs) such as Toll-like receptors (TLR). Beyond these PRRs, the importance of Notch signaling has recently been demonstrated in the innate immune system and the regulation of macrophage activity. Our data demonstrate that the Pb18 strain of P. brasiliensis is able to activate the transcription of Notch1 receptor in J774 macrophages. Activation of this receptor with also activation of TLR 4 (via LPS) induces IL-6 production, which favors the pathogenesis. By using a γ-secretase pharmacological inhibitor (DAPT) for inhibiting the activation of Notch1 receptor on macrophages, it is possible to observe the decreased fungal burden, less production of IL-6, and increased TNF-α and phagocytosis. Taken together, these results showed that Pb18 is able to induce the transcription of Notch1 receptor on macrophages and may provide a new immunity study approach in experimental paracoccidioidomycosis.

The Atypical Response Regulator AtvR Is a New Player in Pseudomonas aeruginosa Response to Hypoxia and Virulence.

Two-component systems are widespread in bacteria, allowing adaptation to environmental changes. The classical pathway is composed of a histidine kinase that phosphorylates an aspartate residue in the cognate response regulator (RR). RRs lacking the phosphorylatable aspartate also occur, but their function and contribution during host-pathogen interactions are poorly characterized. AtvR (PA14_26570) is the only atypical response regulator with a DNA-binding domain in the opportunistic pathogen Pseudomonas aeruginosa Macrophage infection with the atvR mutant strain resulted in higher levels of tumor necrosis factor alpha secretion as well as increased bacterial clearance compared to those for macrophages infected with the wild-type strain. In an acute pneumonia model, mice infected with the atvR mutant presented increased amounts of proinflammatory cytokines, increased neutrophil recruitment to the lungs, reductions in bacterial burdens, and higher survival rates in comparison with the findings for mice infected with the wild-type strain. Further, several genes involved in hypoxia/anoxia adaptation were upregulated upon atvR overexpression, as seen by high-throughput transcriptome sequencing (RNA-Seq) analysis. In addition, atvR was more expressed in hypoxia in the presence of nitrate and required for full expression of nitrate reductase genes, promoting bacterial growth under this condition. Thus, AtvR would be crucial for successful infection, aiding P. aeruginosa survival under conditions of low oxygen tension in the host. Taken together, our data demonstrate that the atypical response regulator AtvR is part of the repertoire of transcriptional regulators involved in the lifestyle switch from aerobic to anaerobic conditions. This finding increases the complexity of regulation of one of the central metabolic pathways that contributes to Pseudomonas ubiquity and versatility.

scFv from Antibody That Mimics gp43 Modulates the Cellular and Humoral Immune Responses during Experimental Paracoccidioidomycosis.

Paracoccidioidomycosis (PCM), caused by Paracoccidioides species is a prevalent systemic and progressive mycosis that occurs in Latin America. It is caused by Paracoccidioides species. Immunization with dendritic cells transfected with a plasmid encoding the scFv (pMAC/PS-scFv) that mimics the main antigen of P. brasiliensis (gp43) confers protection in experimental PCM. DCs link innate and adaptive immunity by recognizing invading pathogens and selecting the type of effector T cell to mediate the immune response. Here, we showed that DC-pMAC/PS-scFv induces the activation of CD4+ and CD8+ T cells. Moreover, our results demonstrated that BALB/c mice infected with P. brasiliensis and treated with DC-pMAC/PS-scFv showed the induction of specific IgG production against gp43 and IFN-γ, IL-12 and IL-4 cytokines. Analysis of regional lymph nodes revealed increases in the expression of clec7a, myd88, tlr2, gata3 and tbx21, which are involved in the immune response. Taken together, our results indicate that the scFv modulates the humoral and cellular immune responses and presents epitopes to CD4+ and CD8+ T cells.

Therapeutic vaccine using a monoclonal antibody against a 70-kDa glycoprotein in mice infected with highly virulent Sporothrix schenckii and Sporothrix brasiliensis.

Sporotrichosis is a chronic granulomatous mycosis caused by the dimorphic fungi that comprise the Sporothrix complex. The latter are widely distributed in nature, developing a saprophytic mycelial form on plant debris and soil. Formerly, the S. schenckii species was thought to be the only species capable of causing sporotrichosis. However, in recent years, the existence of a group of highly genotypically and phenotypically variable species has been reported as etiologic agents of this mycosis. Recently, it has become important to study aspects such as virulence and the immune response against key members of the Sporothrix complex and to observe the presence of glycoprotein (gp) 70 and efficacy of the P6E7 monoclonal antibody against more virulent strains. The data presented here demonstrate that the strain isolated from a case of feline sporotrichosis, that is, strain 5110 (American Type Culture Collection MYA-4823) is the most virulent and the only one able to secrete gp70. This glycoprotein is apparently an important factor in the virulence of Sporothrix spp. because treatment with MAb P6E7 resulted in the reduction of fungal burden in the analyzed organs. Additional studies of the role of gp70 in modulating the immune response of the host are needed to understand the pathology of sporotrichosis.

Involvement of a 1-Cys peroxiredoxin in bacterial virulence.

The killing of bacterial pathogens by macrophages occurs via the oxidative burst and bacteria have evolved to overcome this challenge and survive, using several virulence and defense strategies, including antioxidant mechanisms. We show here that the 1-Cys peroxiredoxin LsfA from the opportunistic pathogen Pseudomonas aeruginosa is endowed with thiol-dependent peroxidase activity that protects the bacteria from H(2)O(2) and that this protein is implicated in pathogenicity. LsfA belongs to the poorly studied Prx6 subfamily of peroxiredoxins. The function of these peroxiredoxins has not been characterized in bacteria, and their contribution to host-pathogen interactions remains unknown. Infection of macrophages with the lsfA mutant strains resulted in higher levels of the cytokine TNF-α production due to the activation of the NF-kB and MAPK pathways, that are partially inhibited by the wild-type P. aeruginosa strain. A redox fluorescent probe was more oxidized in the lsfA mutant-infected macrophages than it was in the macrophages infected with the wild-type strain, suggesting that the oxidative burst was overstimulated in the absence of LsfA. Although no differences in the phagocytosis rates were observed when macrophages were infected with wild-type and mutant bacteria in a gentamicin exclusion assay, a higher number of wild-type bacterial cells was found in the supernatant. This difference was not observed when macrophages were pre-treated with a NADPH oxidase inhibitor, confirming the role of LsfA in the bacterial resistance to ROS generated via NADPH oxidase. In an acute pneumonia model, mice infected with the mutant strains presented higher cytokine release in the lungs and increased activated neutrophil recruitment, with reduced bacterial burden and improved survival rates compared to mice infected with the wild-type bacteria. LsfA is the first bacterial 1-Cys Prx shown to modulate host immune responses and its characterization will allow a better understanding of the role of redox signaling in host-pathogen interactions.

A novel role for an ECF sigma factor in fatty acid biosynthesis and membrane fluidity in Pseudomonas aeruginosa.

Extracytoplasmic function (ECF) sigma factors are members of cell-surface signaling systems, abundant in the opportunistic pathogen Pseudomonas aeruginosa. Twenty genes coding for ECF sigma factors are present in P. aeruginosa sequenced genomes, most of them being part of TonB systems related to iron uptake. In this work, poorly characterized sigma factors were overexpressed in strain PA14, in an attempt to understand their role in the bacterium's physiology. Cultures overexpressing SigX displayed a biphasic growth curve, reaching stationary phase earlier than the control strain, followed by subsequent growth resumption. During the first stationary phase, most cells swell and die, but the remaining cells return to the wild type morphology and proceed to a second exponential growth. This is not due to compensatory mutations, since cells recovered from late time points and diluted into fresh medium repeated this behavior. Swollen cells have a more fluid membrane and contain higher amounts of shorter chain fatty acids. A proteomic analysis was performed to identify differentially expressed proteins due to overexpression of sigX, revealing the induction of several fatty acid synthesis (FAS) enzymes. Using qRT-PCR, we showed that at least one isoform from each of the FAS pathway enzymes were upregulated at the mRNA level in the SigX overexpressing strain thus pointing to a role for this ECF sigma factor in the FAS regulation in P. aeruginosa.