Peptides from Paracoccidioides brasiliensis GP43 inhibit macrophage functions and inflammatory response.

Paracoccidioidomycosis (PCM) is a systemic granulomatous disease caused by Paracoccidioides brasiliensis (Pb), a thermal dimorphic fungus. Its major antigen is a 43-kDa glycoprotein. Gp43 embodies different functions: it participates in evasion mechanisms during the installation of primary infection, stimulates granuloma-like formation in vitro and presents T-cell epitopes that induce protective response against the fungus. Here, we investigated epitopes from gp43 inhibitory of both, macrophage functions and inflammatory reaction. Different gp43 peptides, spanning the entire sequence of the molecule, were added to cultures of bone marrow-derived macrophages. After challenge with zymosan or Pb cells, phagocytic indexes were measured. Peptides expressed on the molecule surface were determined by graphic analysis using the Protean module; DNAstar Inc. Two peptides which decreased phagocytic index and were expressed at the surface of the molecule, P4 and P23, were selected for further studies. It was shown that both inhibited the release of NO by zymosan stimulated macrophages while enhanced release of H(2)O(2). The release of TNF-alpha in culture supernatants from in vitro phagocytic tests showed different response depending of P4 concentration (data not shown). In vivo assays with Mycobacterium bovis - bacillus Calmette-Guérin (BCG) or Pb cells demonstrated that these peptides presented non-specific and specific anti-inflammatory properties.

B-1 cells promote immunosurveillance against murine melanoma in host absence of CCR5: new perspective in autologous vaccination therapy.

Autologous vaccination with tumor-primed dendritic cells increases immune response against tumor, which seems to be improved in host absence of CCR5. Because B-1 lymphocytes modulate the activity of different immune cells, we decided to study their influence in the resistance against murine B16F10 melanoma in a CCR5 deprived environment. Adoptive transfer of peritoneal B-1 CCR5(+/+) lymphocytes to CCR5(-/-) animals inhibited the establishment of lung metastasis and melanoma cell growth, in comparison to saline-treated CCR5(-/-) mice. In loco cell analysis demonstrated that the adoptive transfer of B-1 CCR5(+/+) lymphocytes to CCR5 deficient host was associated with a more intense influx of T CD8(+) to tumor site, indicating that the presence of CCR5(+/+) B-1 cells in the tumor environment induces the migration of T CD8 CCR5(-/-) cells to the implantation site. To corroborate this idea, CCR5(-/-) mice were injected with non B-1 peritoneal cells from wild type (WT) mice before B16F10 inoculation. In this regimen, CCR5(-/-) mice were not protected from tumor growth reinforcing the idea that, in host absence of CCR5, B-1 cells are essential to confer tumor resistance. This work indicates that, in the host absence of CCR5, naive B-1 cells may activate CD8T lymphocytes thereby promoting tumor resistance. Our results strongly suggest that autologous vaccination with B-1 lymphocytes in combination with CCR5 antagonists can be an alternative approach to tumor therapy.

Paracoccidioides brasiliensis GP43-derived peptides are potent modulators of local and systemic inflammatory response.

Paracoccidioidomycosis is a systemic granulomatous disease caused by the dimorphic fungus Paracoccidioides brasiliensis. Its major antigen is a 43 kDa glycoprotein whose peptides embody different functions: P10 peptide, a T-cell epitope, induces protective response while P4 and P23 peptides inhibit both, macrophage functions and inflammatory reaction, thus facilitating infection. Here we investigated the modulating mechanisms of the immune response exerted by P4 and P23 involved in the latter inhibitory effect on macrophages. Moreover we analyzed the peptides effects in different models in vivo. While evaluating whether P4 and P23 present systemic anti-inflammatory effects in vivo, we showed that their intraperitonial administration decreased footpad swelling in mice infected with either P. brasiliensis or Mycobacterium bovis. Both, qPCR and ELISA assays suggested that this anti-inflammatory effect depended on alterations in the kinetics of production of innate immunity modulators such as TNF-α, IL6, IL10 and TLR2. IL10 seems to be early produced than TNF-α and IL6, produced later in presence of peptides. Higher doses or intravenously given P4 and P23 resulted in earlier and more prolonged anti-inflammatory effects. Moreover, continuous treatment with P4 and P23 sustained the anti-inflammatory activity throughout.