What is the elephant in the room when considering new therapies for fungal diseases?

The global scenario of antimicrobial resistance is alarming, and the development of new drugs has not appeared to make substantial progress. The constraints on drug discovery are due to difficulties in finding new targets for therapy, the high cost of development, and the mismatch between the time of drug introduction in a clinic and microorganism adaptation to a drug. Policies to address neglected diseases miss the broad spectrum of mycosis. Society is not aware of the actual threat represented by fungi to human health, food security, and biodiversity. The evidence discussed here is critical for warning governments to establish effective surveillance policies for fungi.HIGHLIGHTSFungal diseases are ignored even among neglected disease classifications.There are few options to treat mycoses, which is an increasing concern regarding fungal resistance to drugs, as evidenced by the spread of Candida auris.Fungal diseases represent a real threat to human health and food security.Investment in research to investigate the potential of repurposing drugs already in use could obtain results in the short term.

Fonsecaea pedrosoi Conidia Induces Activation of Dendritic Cells and Increases CD11c+ Cells in Regional Lymph Nodes During Experimental Chromoblastomycosis.

The chromoblastomycosis is a subcutaneous mycosis with a high morbidity rate, Fonsecaea pedrosoi being the largest etiologic agent of this mycosis, usually confined to the skin and subcutaneous tissues. Rarely people get the cure, because the therapies shown to be deficient and few studies report the host-parasite relationship. Dendritic cells (DCs) are specialized in presenting antigens to naïve T lymphocytes inducing primary immune responses. Therefore, we propose to study the migratory capacity of DCs after infection with conidia of F. pedrosoi. The phenotype of DCs was evaluated using cells obtained from footpad and lymph nodes of BALB/c mice after 12, 24 and 72 h of infection. After 24 and 72 h of infection, we found a significant decrease in DCs in footpad and a significant increase in the lymph nodes after 72 h. The expression of surface markers and co-stimulatory molecules were reduced in cells obtained from footpad. To better assess the migratory capacity of DCs migration from footpad, CFSE-stained conidia were injected subcutaneously. We found that after 12 and 72 h, CD11c+ cells were increased in regional lymph nodes, leading us to believe that DCs (CD11c+) were able to phagocytic conidia present in footpad and migrated to regional lymph nodes.

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.

Insulin Modulates Inflammatory Cytokine Release in Acute Stages and Augments Expression of Adhesion Molecules and Leukocytes in Lungs on Chronic Stages of Paracoccidioidomycosis.

Type 1 diabetesmellitus (T1D) is caused by partial destruction of the insulin-producing beta cells in the pancreas and is a major issue for public health care worldwide. Reduced or impaired immunological responses, which render patients more susceptible to infections, have been observed in T1D, and this dysfunction is often related to a lack of insulin in the blood. Paracoccidioidomycosis is an important systemic mycosis endemic in Latin America. To evaluate the effects of T1D on this fungal infection and the modulatory effects of insulin, we induced diabetes in C57Bl/6 male mice (alloxan, 60 mg/kg), infected the mice (Pb18, 1 x 106 cells), and treated the mice with neutral protamine Hagedorn (NPH) insulin (2 IU/600 mg/dL blood glucose). Twenty-four hours after infection, infected diabetic mice showed reduced secretion of interferon (IFN)-γ and interleukine (IL)-12 p70 compared to infected nondiabetic controls. On the 45th day of infection, infected diabetic mice presented higher IFN-γ levels, a higher tumor necrosis factor (TNF)-α:IL-10 ratio, and lower adhesion molecule expression levels than nondiabetic mice. In the in vitro experiments, alveolar macrophages from diabetic animals showed reduced phagocytic activity compared to those from control animals at 4, 12, and 24 h. In infected diabetic mice, treatment with insulin restored IL-12 p70 levels at 24 h of infection, reduced IFN-γ levels and the TNF-α:IL-10 ratio at 45 days, and restored vascular cell adhesion molecule (VCAM)-1 expression in pulmonary blood vessels, and this treatment reduced the diminished phosphorylation of extracellular signal-regulated kinases (ERK) and increased nuclear factor-kappa-B(iκb)-α and jun amino-terminal kinases (JNK) p46 levels in infected nondiabetic mice. In addition, insulin promoted increased phagocytic activity in the alveolar macrophages of diabetic mice. These data suggest that T1D mice are more susceptible to Pb18 infection and that insulin modulates this inflammation in diabetic mice by augmenting the expression of adhesion molecules and leukocytes in the lungs and by reducing chronic inflammation.

Insulin Modulates Paracoccidioides brasiliensis-Induced Inflammation by Restoring the Populations of NK Cells, Dendritic Cells, and B Lymphocytes in Lungs.

Paracoccidioidomycosis, a key issue for Brazilian health service, can be aggravated in patients with impaired immunological responses, such as diabetic patients. We evaluated the role of insulin in inflammatory parameters in diabetic and nondiabetic mice using a systemic mycosis Paracoccidioides brasiliensis (Pb) model. Diabetic C57BL-6 mice and controls were infected with Pb18 and treated with insulin for 12 days prior to experiments. After 55 days, infected diabetic mice exhibited fewer leukocytes in both peritoneal lavage fluid (PeLF) and bronchoalveolar lavage fluid and reduced secretion of interleukin- (IL-) 6 in lungs. In addition, diabetic mice presented a reduced influx of TCD4+ cells, TCD8+ cells, B lymphocytes, NK cells, and dendritic cells compared to control infected groups. Insulin treatment restored the leukocyte number in PeLF and restored the presence of B lymphocytes, dendritic cells, and NK cells in lungs of diabetic animals. The data suggest that diabetic mice present impaired immunological response to Pb18 infection and insulin modulates inflammation by reducing IL-6 levels in lung and CINC-1 levels in spleen and liver homogenates, restoring leukocyte concentrations in PeLF and also restoring populations of dendritic cells and B lymphocytes in lungs of diabetic mice, permitting the host to better control the infection.

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.

Caracterização da inter-relação entre as vias de sinalização Notch e TLR na paracoccidioidomicose experimental / Characterization of the inter-relationship between Notch and TLR signaling pathways in experimental paracoccidioidomycosis

A paracoccidioidomicose é uma micose sistêmica de natureza profunda que afeta preferencialmente o tecido pulmonar podendo disseminar via linfo-hematogênica para outros órgãos e tecidos, sendo causada principalmente pelo Paracoccidioides brasiliensis, fungo que apresenta dimorfismo térmico. O sistema imune inato mediado por macrófagos é extremamente importante para o controle de infecções e está envolvido na indução e regulação da resposta imune/inflamatória. Estas células são capazes de reconhecer patógenos por meio de receptores de reconhecimento de padrões (PRRs), tais como receptores Toll-like (TLR). Além desses PRRs, recentemente, demonstrou-se a importância da via de sinalização Notch no sistema imune inato e na regulação da atividade dos macrófagos. Nossos dados demonstram que a cepa Pb18 do P. brasiliensis é capaz de ativar o receptor Notch1 em macrófagos J774. A ativação desse receptor concomitante com a ativação de TLR 4 (via LPS) induz a produção de IL-6, e apresenta elevada carga fúngica e menor fagocitose, o que favorece a patogenia. Ao utilizarmos um inibidor farmacológico da γ-secretase (DAPT) para inibir a ativação do receptor Notch1 em macrófagos, é possível observar diminuição da carga fúngica, diminuição de IL-6, aumento de TNF-α e aumento da fagocitose. Entretanto, a ausência do receptor TLR 4 em macrófagos derivados de medula óssea de camundongos TLR 4-/-, na presença de DAPT, percebe-se diminuição da capacidade fagocítica desses macrófagos e também diminuição da carga fúngica, evidenciando a relação entre TLR 4 e Notch1. Em adição, realizamos um tratamento em camundongos BALB/c com DAPT previamente à infecção com Pb18. Nossos resultados evidenciaram que animais com este tratamento apresentaram diminuição da carga fúngica dos pulmões, diminuição de IL-6, ativação de macrófagos e aumento de IgG, após 45 dias de infecção, indicando um perfil de cura desses animais. O mesmo tratamento foi realizado em camundongos BALB/c NUDE, seguido da infecção com Pb18. Nestes animais, verificamos que há maior produção de citocinas pró-inflamatórias no pulmão, aumento de células CD19+ e a carga fúngica dos animais tratados manteve-se similar ao dos animais não tratados, indicando que o perfil protetor observado em animais com DAPT é dependente da resposta das células T. Juntos, esses resultados evidenciam que o Pb18 é capaz de ativar o receptor Notch1 em macrófagos e utiliza a via de sinalização Notch-TLR 4 como um possível mecanismo de escape, podendo fornecer uma nova abordagem de estudo da imunidade envolvida na paracoccidioidomicose experimental

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 exhibit 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 Notch1 receptor in J774 macrophages. Activation of this receptor with also activation of TLR 4 (via LPS) induces IL-6 production, induces phagocytosis and decreases fungal burden, 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 decreased fungal burden, less production of IL-6, and increased TNF-α and phagocytosis. However, due to the absence of TLR 4 receptor in bone marrow derived macrophages from TLR 4-/- mice, these macrophages showed decreased phagocytic ability and also reduced fungal burden in the presence of DAPT, showing a relationship between TLR 4 and Notch1. In addition, we made a treatment with DAPT in BALB/c mice prior to infection with Pb18. And our results showed that DAPT-treated animals exhibited a decrease of fungal burden in the lungs, and a decrease of IL-6. Furthermore, we observed an increase of IgG after 45 days of infection, indicating probably a healing of these animals. Same treatment was made in BALB/c NUDE mice, followed by infection with Pb18. In these animals, we observed an increased production of proinflammatory cytokines in the lung and increased CD19+ cells, but fungal burden was similar in both group (treated and untreated), which indicates that treatment with DAPT is dependent on T cell response. Taken together, these results showed that Pb18 is able to activate the Notch 1 receptor on macrophages and uses the Notch-TLR 4 signaling pathway as a possible escape mechanism, and may provide a new immunity study approach in experimental paracoccidioidomycosis