Elucidating the 3D Structure of a Surface Membrane Antigen from Trypanosoma cruzi as a Serodiagnostic Biomarker of Chagas Disease.

Chagas disease (CD) is a vector-borne parasitosis, caused by the protozoan parasite Trypanosoma cruzi, that affects millions of people worldwide. Although endemic in South America, CD is emerging throughout the world due to climate change and increased immigratory flux of infected people to non-endemic regions. Containing of the diffusion of CD is challenged by the asymptomatic nature of the disease in early infection stages and by the lack of a rapid and effective diagnostic test. With the aim of designing new serodiagnostic molecules to be implemented in a microarray-based diagnostic set-up for early screening of CD, herein, we report the recombinant production of the extracellular domain of a surface membrane antigen from T. cruzi (TcSMP) and confirm its ability to detect plasma antibodies from infected patients. Moreover, we describe its high-resolution (1.62 Å) crystal structure, to which in silico epitope predictions were applied in order to locate the most immunoreactive regions of TcSMP in order to guide the design of epitopes that may be used as an alternative to the full-length antigen for CD diagnosis. Two putative, linear epitopes, belonging to the same immunogenic region, were synthesized as free peptides, and their immunological properties were tested in vitro. Although both peptides were shown to adopt a structural conformation that allowed their recognition by polyclonal antibodies raised against the recombinant protein, they were not serodiagnostic for T. cruzi infections. Nevertheless, they represent good starting points for further iterative structure-based (re)design cycles.

Identification and characterization of a bacterial hyaluronidase and its production in recombinant form.

Hyaluronidases (Hyals) are broadly used in medical applications to facilitate the dispersion and/or absorption of fluids or medications. This study reports the isolation, cloning, and industrial-scale recombinant production, purification and full characterization, including X-ray structure determination at 1.45 Å, of an extracellular Hyal from the nonpathogenic bacterium Streptomyces koganeiensis. The recombinant S. koganeiensis Hyal (rHyal_Sk) has a novel bacterial catalytic domain with high enzymatic activity, compared with commercially available Hyals, and is more thermostable and presents higher proteolytic resistance, with activity over a broad pH range. Moreover, rHyal_Sk exhibits remarkable substrate specificity for hyaluronic acid (HA) and poses no risk of animal cross-infection.

A novel polyclonal antibody library for expression profiling of poorly characterized, membrane and secreted human proteins.

The YOMICS™ antibody library (http://www.yomics.com/) presented in this article is a new collection of 1559 murine polyclonal antibodies specific for 1287 distinct human proteins. This antibody library is designed to target marginally characterized membrane-associated and secreted proteins. It was generated against human proteins annotated as transmembrane or secreted in GenBank, EnsEMBL, Vega and Uniprot databases, described in no or very few dedicated PubMed-linked publications. The selected proteins/protein regions were expressed in E. coli, purified and used to raise antibodies in the mouse. The capability of YOMICS™ antibodies to specifically recognize their target proteins either as recombinant form or as expressed in cells and tissues was confirmed through several experimental approaches, including Western blot, confocal microscopy and immunohistochemistry (IHC). Moreover, to show the applicability of the library for biomarker investigation by IHC, five antibodies against proteins either known to be expressed in some cancers or homologous to tumor-associated proteins were tested on tissue microarrays carrying tumor and normal tissues from breast, colon, lung, ovary and prostate. A consistent differential expression in cancer was observed. Our results indicate that the YOMICS™ antibody library is a tool for systematic protein expression profile analysis that nicely complements the already available commercial antibody collections.

Preclinical studies on immunogenicity of the HIV-1 p17-based synthetic peptide AT20-KLH.

Several studies have suggested that HIV-1 p17 matrix protein may play an important role in AIDS pathogenesis, since anti-p17 antibodies represent a serological marker of disease progression during HIV-1 infection both in adults and children. Moreover, it has been recently reported that the viral protein is capable of significantly increasing the proliferation of preactivated T lymphocytes and the release of proinflammatory cytokines. Recombinant HIV-1 p17 also has induced an increased rate of HIV-1 replication in vitro. All p17 biological activities are exerted after its binding to a specific cellular receptor expressed on activated T lymphocytes. The functional p17 epitope involved in receptor binding was found to be located at the NH(2)-terminal region of the viral protein. Immunization of C57BL/6 mice with a 20 amino acid synthetic peptide representative of the HIV-1 p17 functional region (AT20) coupled to the carrier protein keyhole limpet hemocyanin (KLH) and given in Freund's incomplete adjuvant, resulted in the development of p17-neutralizing antibodies capable of blocking p17/p17 receptor interaction, and consequently, all biological activities of the viral protein. Moreover, it was possible to skew the humoral response induced by priming mice with AT20-KLH toward cell-mediated immune responses, boosting animals with p17. Our findings may provide a new strategy to develop a synthetic AIDS vaccine based on a potentially effective and safe subunit vaccine against the HIV-1 cytokine-like matrix protein p17. Preclinical immunogenicity data for AT20-KLH provide the basis for evaluation of the peptide-based vaccine, alone and in combination with p17 or p17 DNA vaccines, in Phase I clinical trials.