CARLOS PELLESCHI TABORDA
Projetos de Pesquisa
Unidades Organizacionais
BMM, ICB - Docente
LIM/53 - Laboratório de Micologia, Hospital das Clínicas, Faculdade de Medicina - Líder
LIM/53 - Laboratório de Micologia, Hospital das Clínicas, Faculdade de Medicina - Líder
20 resultados
Resultados de Busca
Agora exibindo 1 - 10 de 20
- Antibodies Against Glycolipids Enhance Antifungal Activity of Macrophages and Reduce Fungal Burden After Infection with Paracoccidioides brasiliensis(2016) BUENO, Renata A.; THOMAZ, Luciana; MUNOZ, Julian E.; SILVA, Cassia J. da; NOSANCHUK, Joshua D.; PINTO, Marcia R.; TRAVASSOS, Luiz R.; TABORDA, Carlos P.Paracoccidioidomycosis is a fungal disease endemic in Latin America. Polyclonal antibodies to acidic glycosphingolipids (GSLs) from Paracoccidioides brasiliensis opsonized yeast forms in vitro increasing phagocytosis and reduced the fungal burden of infected animals. Antibodies to GSL were active in both prophylactic and therapeutic protocols using a murine intratracheal infection model. Pathological examination of the lungs of animals treated with antibodies to GSL showed well-organized granulomas and minimally damaged parenchyma compared to the untreated control. Murine peritoneal macrophages activated by IFN-gamma and incubated with antibodies against acidic GSLs more effectively phagocytosed and killed P brasiliensis yeast cells as well as produced more nitric oxide compared to controls. The present work discloses a novel target of protective antibodies against P brasiliensis adding to other well-studied mediators of the immune response to this fungus.
- Experimental Therapy of Paracoccidioidomycosis Using P10-Primed Monocyte-Derived Dendritic Cells Isolated From Infected Mice(2019) SILVA, Leandro B. R.; TAIRA, Cleison L.; DIAS, Lucas S.; SOUZA, Ana C. O.; NOSANCHUK, Joshua D.; TRAVASSOS, Luiz R.; TABORDA, Carlos P.Paracoccidioidomycosis (PCM) is an endemic mycosis in Latin American caused by the thermodimorphic fungi of the genus Paracoccidioides spp. Notably, a Th1 immune response is required to control PCM. In this context, dendritic cells (DCs) seem to be essential players in capture, processing and presentation of Paracoccidioides antigens to naive T cells and their further activation. We have previously demonstrated that differentiated DCs from bone marrow cells, pulsed with the immunoprotective peptide 10 (P10), effectively control experimental PCM immunocompetent and immunosuppressed mice. However, this procedure may not be infeasible or it is limited for the therapy of human patients. Therefore, we have sought a less invasive but equally effective approach that would better mimics the autologous transplant of DC in a human patient. Here, we isolated and generated monocyte differentiated dendritic cells (MoDCs) from infected mice, pulsed them with P-10, and used them in the therapy of PCM in syngeneic mice. Similar to the results using BMDCs, the P10-pulsed MoDCs stimulated the proliferation of CD4(+) T lymphocytes, induced a mixed production of Th-1/Th-2 cytokines and decreased the fungal burden in murine lungs in the setting of PCM. The process of differentiating MoDCs derived from an infected host, and subsequently used for therapy of PCM is much simpler than that for obtaining BMDCs, and represents a more reasonable approach to treat patients infected with Paracoccidioides. The results presented suggest that P10-primed MoDC may be a promising strategy to combat complicated PCM as well as to significantly shorten the lengthy requirements for treatment of patients with this fungal disease.
- Vaccines and innmunotherapy against fungi: the new frontier(2013) NOSANCHUK, Joshua D.; TABORDA, Carlos P.
- Vaccine development for pathogenic fungi: current status and future directions(2023) CHECHI, Jessica L.; COSTA, Felipe A. C. da; FIGUEIREDO, Julia M.; SOUZA, Cassia M. de; VALDEZ, Alessandro F.; ZAMITH-MIRANDA, Daniel; CAMARA, Aline C.; TABORDA, Carlos P.; NOSANCHUK, Joshua D.Introduction: Fungal infections are caused by a broad range of pathogenic fungi that are found worldwide with different geographic distributions, incidences, and mortality rates. Considering that there are relatively few approved medications available for combating fungal diseases and no vaccine formulation commercially available, multiple groups are searching for new antifungal drugs, examining drugs for repurposing and developing antifungal vaccines, in order to control deaths, sequels, and the spread of these complex infections.Areas covered: This review provides a summary of advances in fungal vaccine studies and the different approaches under development, such as subunit vaccines, whole organism vaccines, and DNA vaccines, as well as studies that optimize the use of adjuvants. We conducted a literature search of the PubMed with terms: fungal vaccines and genus of fungal pathogens (Cryptococcus spp. Candida spp. Coccidioides spp. Aspergillus spp. Sporothrix spp. Histoplasma spp. Paracoccidioides spp. Pneumocystis spp. and the Mucorales order), a total of 177 articles were collected from database.Expert opinion: Problems regarding the immune response development in an immunocompromised organism, the similarity between fungal and mammalian cells, and the lack of attention by health organizations to fungal infections are closely related to the fact that, at present, there are no fungal vaccines available for clinical use.
- Neutrophil Cells Are Essential for The Efficacy of a Therapeutic Vaccine against Paracoccidioidomycosis(2021) DIAS, Lucas dos Santos; SILVA, Leandro B. R.; NOSANCHUK, Joshua D.; TABORDA, Carlos PelleschiParacoccidioidomycosis (PCM), caused by the Paracoccidioides species, is a systemic disease endemic in several Latin American countries, mainly in Brazil, Colombia, Argentina, and Venezuela. Current treatment approaches are challenging as they require prolonged durations of antifungal drugs that have potential toxicities, and despite antifungals, relapses are common. Hence, new therapeutic approaches, such as vaccines, are being investigated. The therapeutic vaccine consisting of peptide P10 associated with lipid cationic DODAB (P10+DODAB) is effective in murine models of PCM. However, the specific immune mechanisms required for the protective response has not been fully elucidated. The present work aims at evaluating the participation of neutrophils in the immune response induced by P10+DODAB. We found that the vaccine reduced both the influx of pulmonary neutrophils and the fungal load in comparison to infected animals that did not receive this treatment. The parenchymal architecture of the lungs of P10+DODAB-treated animals was largely preserved with only a few granulomas present, and tissue cytokine analysis showed a Th1 cytokine profile with augmented levels of IL-12, IFN-gamma and TNF-alpha, and low levels of IL-4. When neutrophils were depleted 24 h prior to each treatment, the effectiveness of the P10+DODAB vaccine was completely lost as the fungal burdens remained high and histological examination showed a marked inflammation and fungal dissemination with a dysregulated cytokine response. In conclusion, these findings indicate that neutrophils are vital to ensure the triggering of an effective immune response to P10+DODAB.
- Dendritic cell interactions with Histoplasma and Paracoccidioides(2015) THIND, Sharanjeet K.; TABORDA, Carlos P.; NOSANCHUK, Joshua D.
- Immunization with P10 Peptide Increases Specific Immunity and Protects Immunosuppressed BALB/c Mice Infected with Virulent Yeasts of Paracoccidioides brasiliensis(2014) MUNOZ, Julian E.; LUFT, Vinicius D.; AMORIM, Juliana; MAGALHES, Adriana; THOMAZ, Luciana; NOSANCHUK, Joshua D.; TRAVASSOS, Luiz R.; TABORDA, Carlos P.Paracoccidioidomycosis is a systemic granulomatous disease caused by Paracoccidioides spp. A peptide from the major diagnostic antigen gp43, named P10, induces a T-CD4(+) helper-1 immune response in mice and protects against intratracheal challenge with virulent P. brasiliensis. Previously, we evaluated the efficacy of the P10 peptide alone or combined with antifungal drugs in mice immunosuppressed and infected with virulent isolate of P. brasiliensis. In the present work, our data suggest that P10 immunization leads to an effective cellular immune response associated with an enhanced T cell proliferative response. P10-stimulated splenocytes increased nitric oxide (NO) production and induced high levels of IFN-gamma, IL-1 beta and IL-12. Furthermore, significantly increased concentrations of pro-inflammatory cytokines were also observed in lung homogenates of immunized mice. P10 immunization was followed by minimal fibrosis in response to infection. Combined with antifungal drugs, P10 immunization most significantly improved survival of anergic infected mice. Administration of either itraconazole or sulfamethoxazole/trimethoprim together with P10 immunization resulted in 100 % survival up to 200 days post-infection, whereas untreated mice died within 80 days. Hence, our data show that P10 immunization promotes a strong specific immune response even in immunocompromised hosts and thus P10 treatment represents a powerful adjuvant therapy to chemotherapy.
- Biodistribution and Adjuvant Effect of an Intranasal Vaccine Based on Chitosan Nanoparticles against Paracoccidioidomycosis(2023) SANTOS, Samuel Rodrigues Dos; BARBALHO, Filipe Vieira; NOSANCHUK, Joshua D.; AMARAL, Andre Correa; TABORDA, Carlos PelleschiParacoccidioidomycosis (PCM) is a fungal infection caused by the thermodimorphic Paracoccidioides sp. PCM mainly affects the lungs, but, if it is not contained by the immune response, the disease can spread systemically. An immune response derived predominantly from Th1 and Th17 T cell subsets facilitates the elimination of Paracoccidioides cells. In the present work, we evaluated the biodistribution of a prototype vaccine based on the immunodominant and protective P. brasiliensis P10 peptide within chitosan nanoparticles in BALB/c mice infected with P. brasiliensis strain 18 (Pb18). The generated fluorescent (FITC or Cy5.5) or non-fluorescent chitosan nanoparticles ranged in diameter from 230 to 350 nm, and both displayed a Z potential of +20 mV. Most chitosan nanoparticles were found in the upper airway, with smaller amounts localized in the trachea and lungs. The nanoparticles complexed or associated with the P10 peptide were able to reduce the fungal load, and the use of the chitosan nanoparticles reduced the necessary number of doses to achieve fungal reduction. Both vaccines were able to induce a Th1 and Th17 immune response. These data demonstrates that the chitosan P10 nanoparticles are an excellent candidate vaccine for the treatment of PCM.
- Monoclonal antibodies to heat shock protein 60 induce a protective immune response against experimental Paracoccidioides lutzii(2014) THOMAZ, Luciana; NOSANCHUK, Joshua D.; ROSSI, Diego C. P.; TRAVASSOS, Luiz R.; TABORDA, Carlos P.Paracoccidioidomycosis (PCM) is an endemic mycosis in Latin America. PCM is primarily caused by Paracoccidioides brasiliensis and less frequently by the recently described, closely related species Paracoccidioides lutzii. Current treatment requires protracted administration of systemic antibiotics and relapses may frequently occur despite months of initial therapy. Hence, there is a need for innovative approaches to treatment. In the present study we analyzed the impact of two monoclonal antibodies (mAbs) generated against Heat Shock 60 (Hsp60) from Histoplasma capsulatum on the interactions of P. lutzii with macrophages and on the experimental P. lutzii infection. We demonstrated that the Hsp60-binding mAbs labeled P. lutzii yeast cells and enhanced their phagocytosis by macrophage cells. Treatment of mice with the mAbs to Hsp60 before infection reduced the pulmonary fungal burden as compared to mice treated with irrelevant mAb. Hence, mAbs raised to H. capsulatum Hsp60 are protective against P. lutzii, including mAb 7B6 which was non-protective against H. capsulatum, suggesting differences in their capacity to bind to these fungi and to be recognized by macrophages. These findings indicate that mAbs raised to one dimorphic fungus may be therapeutic against additional dimorphic fungi, but also suggests that biological differences in diseases may influence whether a mAb is beneficial or harmful.
- Editorial: Vaccines, Immunotherapy and New Antifungal Therapy against Fungi: Updates in the New Frontier(2017) TABORDA, Carlos P.; NOSANCHUK, Joshua D.