Neutrophil extracellular traps in inflammatory bowel diseases: Implications in pathogenesis and therapeutic targets.

Crohn's disease (CD) and ulcerative colitis (UC) are the two main forms of inflammatory bowel disease (IBD). Among the various immune cells involved in IBD, neutrophils are the first to infiltrate and appear to contribute to the impairment of the epithelial barrier, destruction of tissues by oxidative and proteolytic damage, as well as to the perpetuation of inflammation by the release of cytokines and chemokines associated with pro-inflammatory effects. In addition to basic effector mechanisms, such as phagocytosis and chemotaxis, neutrophils can also form extracellular traps (NETs), which is made up of a mesh-like structure - which contains its chromatin (DNA + histones) together with granules and enzymes, such as myeloperoxidase (MPO) and neutrophilic elastase (NE) - and that acts as a trap that can result in the death of extracellular pathogens and/or can promote tissue damage. Recent evidence indicates that NETs also play an important and significant role in the pathogenesis of IBD. Previous studies have reported increased levels of NETs in tissue and serum samples from patients with IBD, as well as in experimental colitis. In this review, we discuss current knowledge about the formation of NETs and their role in the pathophysiology of IBD, pointing out potential mechanisms by which NETs promote tissue damage, as well as their involvement in complications associated with IBD. In addition, we propose potential targets for therapy to regulate the production of NETs, making it possible to expand the current spectrum of therapies for IBD.

The Efficacy of Humanized Antibody against the Sporothrix Antigen, gp70, in Promoting Phagocytosis and Reducing Disease Burden.

Sporotrichosis is a subcutaneous mycosis distributed worldwide and is frequently reported in countries with tropical climates, as Latin America countries. We previously demonstrated that mice with sporotrichosis produce specific antibodies against a 70-kDa fungal protein, indicating that specific antibodies against this molecule may help to control the sporotrichosis. IgG1 monoclonal antibody was generated, and called mAbP6E7, in mice against a 70-kDa glycoprotein (gp70) of S. schenckii. The mAbP6E7 showed prophylactic and therapeutic activity against sporotrichosis. However, this antibody has a murine origin, and this can generate an immune response when administered to humans, precluding its use for a prolonged time. For its possible use in the treatment of human sporotrichosis, we humanized the mAbP6E7 by genetic engineering. Once expressed, the humanized antibodies had good stability and were able to bind to the 70-kDa cell wall antigens of Sporothrix schenckii and S. brasiliensis. The humanized P6E7 were able to opsonize S. schenckii yeasts, thus increasing the phagocytic index in human monocyte-derived macrophages. The treatment with humanized P6E7 decreased fungal burden in vivo. These data suggest that humanized P6E7 may have a therapeutic role in sporotrichosis.

Antibody phage display libraries: contributions to oncology.

Since the advent of phage display technology, dating back to 1985, antibody libraries displayed on filamentous phage surfaces have been used to identify specific binders for many different purposes, including the recognition of tumors. Phage display represents a high-throughput technique for screening billions of random fusion antibodies against virtually any target on the surface or inside cancer cells, or even soluble markers found in patient serum. Many phage display derived binders targeting important tumor markers have been identified. Selection directed to tumoral cells' surfaces lead to the identification of unknown tumoral markers. Also the improvement of methods that require smaller amounts of cells has opened the possibility to use this approach on patient samples. Robust techniques combining an antibody library displayed on the phage surface and protein microarray allowed the identification of auto antibodies recognized by patient sera. Many Ab molecules directly or indirectly targeting angiogenesis have been identified, and one of them, ramucirumab, has been tested in 27 phase I-III clinical trials in a broad array of cancers. Examples of such antibodies will be discussed here with emphasis on those used as probes for molecular imaging and other clinical trials.

Phylogeny and polymorphism in the long control region, E6, and L1 of human papillomavirus types 53, 56, and 66 in central Brazil.

INTRODUCTION: Several studies related that different human papillomavirus (HPV) types and intratype variants can present different oncogenic potential. In opposite to HPVs 16 and 18 variants, information about variants of other carcinogenic HPV types is still scarce. The aim of this study was to investigate the genetic variability of HPVs 53, 56, and 66 from Central Brazil isolates. METHODS: The long control region (LCR), E6, and L1 genomic regions were amplified and sequenced. We evaluate for nucleotide variations in relation to the reference sequence of each HPV type and also the conservation of physicochemical properties of the deduced amino acid substitutions. In silico analysis was performed to locate binding sites for transcriptional factors within the LCR. Moreover, we performed a phylogenetic analysis with the Central Brazilian and worldwide sequences available at genomic databases. RESULTS: Gathering LCR, E6, and L1 genomic regions, the highest genetic variability was found among HPV-53 isolates with 52 nucleotide variations, followed by HPVs 56 and 66 with 24 and 16 nucleotide substitutions, respectively. The genetic analysis revealed 11 new molecular variants of all HPV types analyzed, totalizing 31 new nucleotide and 3 new amino acid variations. Eight nonconservative amino acid substitutions were detected, which may indicate a biological and pathogenic diversity among HPV types. Furthermore, 8 nucleotide substitutions were localized at putative binding sites for transcription factors in the LCR with a potential implication on viral oncogene expression. The HPVs 53, 56, and 66 phylogenetic analysis confirmed a dichotomic division only described to HPV subtypes and different from the patterns described for HPVs 16 and 18 variants. CONCLUSIONS: The high genetic variability observed emphasizes the importance of investigating polymorphisms in types other than HPVs 16 or 18 to better understand the molecular genomic profile of viral infection by different HPV types.

New variants of human papillomavirus type 18 identified in central Brazil.

HPV-18 is the second most prevalent human papillomavirus genotype found in cervical cancer. Nucleotide variations in HPV-18 sequence can interfere with the viral oncogenic potential. However, the knowledge about HPV-18 variants in Brazil is still limited. The present study aims to determine the LCR, E6, and L1 genetic variability of HPV-18 variants found in women co-infected with HIV-1 in Central Brazil. Four HPV-18 samples were identified and had the LCR, E6, and L1 genomic regions sequenced. It was possible to characterize three European variants and one African variant of HPV-18. All of them are new variants, showing nucleotide substitutions not previously reported. Nucleotide variations in binding sites for transcriptional factors were observed. Phylogenetic analysis was also performed, evidencing the three clusters related to the Asian-American, African, and European variants. The characterization of HPV genetic variability is of pivotal importance to the understanding of the viral pathogenicity.