Molecular genetics of glioblastomas: defining subtypes and understanding the biology.

Despite comprehensive therapy, which includes surgery, radiotherapy, and chemotherapy, the prognosis of glioblastoma multiforme is very poor. Diagnosed individuals present an average of 12 to 18 months of life. This article provides an overview of the molecular genetics of these tumors. Despite the overwhelming amount of data available, so far little has been translated into real benefits for the patient. Because this is such a complex topic, the goal is to point out the main alterations in the biological pathways that lead to tumor formation, and how this can contribute to the development of better therapies and clinical care.

The regulatory CD4+CD25+ T cells have a limited role on pathogenesis of infection with Trypanosoma cruzi.

Recent reports have established an important role of CD4+CD25+ T cells in the immune regulation of infectious diseases, autoimmune disorders and cancer. In the present work, we investigated whether these cells had a regulatory role during Trypanosoma cruzi infection, using the Colombian strain. Inactivation of CD4+CD25+ cells in vivo conferred mice slightly more resistant to infection with the Colombian strain of T. cruzi, as evidenced by lower parasitemia and mortality rates. The augmented resistance to infection with Colombian strain did correlate with increased activation of effector CD4 cells. It was antibody-independent, since no difference in levels of IgM, IgG, IgG1 and IgG2a(b) recognizing T. cruzi antigens was observed throughout the infection of CD25-inactivated and control mice. Regarding pathogenesis, inflammatory infiltrate and frequency of CD4 and CD8 T cells or macrophages in the cardiac tissue was similar in both groups. Together, our data indicate that CD4+CD25+ cells have a limited role on host resistance during early T. cruzi infection. Despite exhaustive investigation, we did not observe any role for these regulatory cells in the pathogenesis of experimental chronic Chagas' disease.

CD8+ T cells are not required for vaccine-induced immunity against Leishmania amazonensis in IL-12/23P40(-/-) C57BL/6 mice.

Vaccine-induced protection against leishmaniasis is largely dependent on cell-mediated type 1 response and IL-12-driven IFN-gamma production. Surprisingly, our previous data showed that IL-12/23p40(-/-) mice could be vaccinated against L. amazonensis and were able to produce limited amounts of IFN-gamma. Since the role of CD8+ T in immunization against L. amazonensis is obscure, the aim of this study was to evaluate the effects of CD8+ cells in protection against L. amazonensis in IL-12/23p40(-/-) mice. In order to deplete CD8+ cells, one group of vaccinated animals was treated with anti-CD8 mAb. Infection was followed for 8 weeks. The vaccinated CD8+ -depleted group developed smaller lesions than the non-depleted group. CD8 depletion did not affect tissue parasitism or antibody response against the parasite, and treated animals displayed milder inflammation and better tissue integrity. IFN-gamma production in spleen and draining lymph node was impaired in the depleted group, suggesting that CD8+ cells produced this cytokine in IL-12-independent vaccination. Such results suggest that this T cell subset contributes to augmented pathology in IL12/23p40(-/-) mice vaccinated and challenged with L. amazonensis. Although these cells could produce some IFN-gamma the in the absence of IL-12, they do not affect the parasite tissue load.

Folding of an MHC class II-restricted tumor antigen controls its antigenicity via MHC-guided processing.

CD4(+) and CD8(+) T cell responses to endogenous retroviral envelope glycoprotein gp90 generate protective immunity to murine colon carcinoma CT26. A panel of I-A(d)-restricted T cell hybridomas recognize gp90 synthesized by CT26 cells but not by other gp90-expressing tumors. Here we report that antigenicity resides in an incompletely folded form of gp90 that is unique to CT26. In contrast to more compact forms of gp90 that are present in other tumors, this open conformer is captured by recycling I-A(d) on antigen-presenting cells and is processed intracellularly. Thus, gp90 acquires immunodominance via MHC-guided processing, and the generation of an MHC class II-restricted response can be controlled by the intracellular folding environment of antigen-expressing cells.

Innate and acquired immunity in the pathogenesis of Chagas disease.

The apparent discrepancy between the intensity of inflammatory reaction and scarce number of parasites in chronic chagasic myocarditis prompt several investigators to hypothesize that an autoimmune process was involved in the pathogenesis of Chagas disease. Here, we recapitulate diverse molecular and cellular mechanisms of innate and acquired immunity involved in the control of parasite replication and in the build up of myocarditis observed during infection with Trypanosoma cruzi. In addition, we review the immunoregulatory mechanisms responsible for preventing excessive immune response elicited by this protozoan parasite. Ongoing studies in this research area may provide novel therapeutic strategies that could enhance the immunoprotective response while preventing the deleterious parasite-elicited responses observed during Chagas disease.

The influence of CD25+ cells on the generation of immunity to tumour cell lines in mice.

CD25+ regulatory T cells comprise 5-10% of CD4+ T cells in naïve mice and have been shown in several in vivo murine models to prevent the induction of autoimmune disease and inflammatory disease. Since T cells, which mediate autoimmunity, can through recognition of self-antigens also target tumour cells, it was postulated that CD25+ regulatory cells would also inhibit the generation of immune responses to rumours. Depletion of these cells using CD25-specific monoclonal antibodies has indeed been shown to promote rejection of several transplantable murine tumour cell lines including melanoma, leukaemia and colorectal carcinoma. Results obtained using these models indicate that in the absence of regulatory cells, CD4+ T cells mediate tumour immunity, although the precise mechanisms through which these cells result in tumour rejection have not yet been elucidated. The target antigens recognized by these CD4+ T cells have also not yet been identified. Immunization of mice with tumour cells in the absence of CD25+ regulatory cells does, however, induce immunity against a variety of different tumour cell lines indicating that the target antigen(s) are shared amongst tumours of distinct histological origins. Since CD25+ regulatory cells have been identified in humans, the possibility that the cells inhibit immune responses to shared rejection antigens expressed by human tumours is worthy of investigation.

CD25+ regulatory T cells and tumor immunity.

Tumor cells express a range of antigens including self-antigens (those whose expression is shared by normal host tissue) and non-self antigens (such as those that arise as a result of mutations in normal cellular genes or in the case of some tumors, viral antigens). Immune responses to both types of antigen have been identified in human patients with cancer and in murine tumor models. In both cases, these responses are typically weak and generally fail to result in tumor rejection. Accumulating evidence indicates that a population of T cells, namely CD25(+) regulatory cells, is at least partly responsible for the poor immunogenicity of tumor cells. This evidence is discussed in the context of a murine model of melanoma.

Infection with Schistosoma mansoni correlates with altered immune responses to Ascaris lumbricoides and hookworm.

Studies were performed on humoral and cellular immune responses of patients from areas in Brazil endemic for hookworm and Ascaris lumbricoides, and either endemic or non-endemic for Schistosoma mansoni. Humoral and cellular responses were evaluated by enzyme-linked immunosorbant assay (ELISA) and peripheral blood mononuclear cell (PBMC) proliferation assays against larval hookworm antigens, A. lumbricoides egg antigens, and soluble egg antigens (SEA) or soluble whole adult antigenic preparation (SWAP) from S. mansoni. Patients from S. mansoni-endemic areas, who currently had only hookworm or Ascaris infections, expressed lower humoral and cellular responses to hookworm or Ascaris antigens, respectively, than did their counterparts from areas not endemic for S. mansoni. Individuals from S. mansoni endemic area, although without detectable S. mansoni infection, do mount humoral and cellular responses to SEA and SWAP. This group of individuals has been probably in contact with S. mansoni antigens, since the groups harboring A. lumbricoides or hookworm infections from non-S. mansoni endemic areas do not have detectable anti-S. mansoni responses. PBMC proliferative responses discriminated well between patients with active hookworm infections versus ascariasis, if they were from areas not endemic for S. mansoni.

Depletion of CD25+ regulatory cells uncovers immune responses to shared murine tumor rejection antigens.

Although it is known that the immune system can mount responses to a variety of tumors it is clear that most tumors exhibit weak or even undetectable immunogenicity. Recent findings suggest that the lack of tumor immunogenicity is partly due to a population of cells called CD4+ CD25+ regulatory T cells since depletion of these cells in mice can result in tumor rejection. These cells have also been shown to inhibit the development of organ-specific autoimmune diseases suggesting that they inhibit immune responses to tissue-specific self-antigens. Such immune responses may also mediate tumor rejection. Alternatively, immune responses in mice depleted of regulatory cells may target tumor antigens that are not tissue-specific, but which are shared by tumors of diverse origins. In experiments performed to discriminate between these possibilities we found, using the murine colorectal tumor CT26, that tumor immunity stimulated in the absence of regulatory cells is not restricted to tumors of colorectal origin, but is effective against tumors of different histological types such as B cell lymphomas and a renal cell carcinoma. By comparing this to CT26-induced immunity through the use of adjuvant we show that the generation of cross-reactive tumor immunity is a specific manifestation of CD25+ regulatory cell depletion. The generation of CD4+ T cells capable of mediating tumor rejection is another important feature of tumor immunity induced in the absence of CD25+ cells.

Molecular approaches to diagnosis of Chagas' disease: use of defined antigens and a target ribosomal RNA sequence

We evaluated the performance of two defined antigens in the serological diagnosis of Chagas' disease. One of them is a recombinant protein named B13 isolated from a genomic library of Trypanosoma cruzi in the expression vector lambda gtll. We show that the gene corresponding to B13 is conserved in the evolutive stages of the two ®polar® strains of T. cruzi. The protein epitopes cloned in B13 are represented in 140 kDa, 116 kDa and 35 kDa polypeptides of trypomastigotes. The other antigen chosen for serodiagnosis is a lipopeptidophosphoglycan (LPPG). This glycoconjugate is also widely distributed in T. cruzi strains. The use of a rabbit serum to LPPG allowed the demonstration that this molecule bears epitopes in common to LPPG-like components and to 80-90 kDa glycoproteins of trypomastigotes. Both B13 and LPPG were evaluated in serodiagnosis by ELISA and RIA using a panel of normal human, Chagasic and Leishmaniasis sera. It was observed that B13 presents high sensitivity and specificity for Chagasic sera. For LPPG it was also concluded that this reagent discriminates between individuals infected and non-infected with T. cruzi. A heterogeneity in the level of antibodies to LPPG in Chagasic patients was detected. No correlation was found between the clinical form of Chagas' disease and the preferential reactivity to B13 or LPPG. We also report preliminary studies towards the characterization of a 100 bp sequence of the 24S alpha rRNA as a target for DNA-based detection systems for diagnosis. We show that polymerase chain reaction of total DNA of different trypanosomatids lead to the specific amplification of a 100 bp fragment only for T. cruzi. Northern blots confirmed the presence of the target region in the mature 24S alpha rRNA. Titration experiments based on the direct amplification of RNA with Taq DNA polymerase allowed the detection of 50 parasites. Studies are in progress to increase the sensitivity of the proposed system