A prime-boost combination of a three-protein cocktail and multiepitopic MVA as a vaccine against Babesia bigemina elicits neutralizing antibodies and a Th1 cellular immune response in mice.

In the intraerythrocytic protozoan parasites of the genus Babesia both innate and adaptive immune responses are necessary to confer protection against clinical disease. In particular, the adaptive immune response involves the production of neutralizing antibodies as well as the presentation of parasite antigens to CD4+ T lymphocytes by professional antigen-presenting cells. Therefore, the development of alternative vaccines that replace the use of live attenuated strains should include relevant epitopes targeting both B and T cell responses. The aim of this study was to design new Babesia bigemina immunogens and evaluate the humoral and cellular responses in mice. To achieve this, three B. bigemina recombinant antigens called Apical Membrane Antigen 1 (AMA-1), Rhoptry Associated Protein 1 (RAP-1) and the Thrombospondin Related Anonymous Protein 1 (TRAP-1) were obtained. Besides, two recombinant modified vaccinia virus Ankara vectors coding for chimeric constructs containing bioinformatically predicted B and T cell epitopes from the same three antigens were generated. These immunogens were evaluated in prime-boost heterologous schemes. Among the combinations tested, priming with a cocktail of the three proteins followed by a booster immunization with a mix of both viruses induced the highest activation of IFN-γ+ CD4+ and CD8+ antigen-specific T cell responses. Remarkably, all vaccine schemes containing antigen cocktails also induced antibodies that were capable of neutralizing merozoite invasion of bovine erythrocytes in vitro at a level comparable to an anti B. bigemina hyperimmune bovine serum. Our results offer a new perspective for vaccines against B. bigemina combining bioinformatics predictions and prime-boost immunization regimes for future control measures against bovine babesiosis.

Characterization of the immunophenotype and the metastatic properties of a murine T-lymphoma cell line. Unexpected expression of cytoplasmatic CD4.

We report the first characterization of a mouse T-lymphoma cell line that surprisingly expresses cytoplasmatic (cy) yCD4. Phenotypically, LBC cells are CD5+, CD8+, CD16+, CD24+, CD25+, CD2-/dim, CD3-/dim, TCRbeta-/dim, TCRgammadelta, CD154 , CD40-, and CD45R. Coexpress cyTCRbeta, cyCD3, cyCD4, and yet lack surface CD4 expression. Transplantation of LBC cells into mice resulted in an aggressive T-lymphoblastic lymphoma that infiltrated lymph nodes, thymus, spleen, liver, ovary, and uterus but not peripheral blood or bone marrow. LBC cells display a modal chromosome number of 39 and a near-diploid karyotype. Based on the characterization data, we demonstrated that the LBC cell line was derived from an early T-cell lymphocyte precursor. We propose that the malignant cell transformation of LBC cells could coincide with the transition stage from late double-negative, DN3 (CD4- CD8 CD44-/low, CD25+) or DN4 (CD4-low, CD8-/low, CD44-, CD25-) to double-positive (DP: CD4+CD8+) stage of T-cell development. LBC cells provide a T-lymphoblastic lymphoma model derived from a malignant early T-lymphocyte that can be potentially useful as a model to study both cellular regulation and differentiation of T-cells. In addition, LBC tumor provides a short latency neoplasm to study cellular regulation and to perform preclinical trials of lymphoma-relatel clisorders.

Zymosan modulates CD44 isoform expression in a murine model of inflammation resembling rheumatoid arthritis synovitis.

OBJECTIVE: To study local inflammation induced by zymosan in the murine air pouch, considered a model of synovial-like tissue inflammation, we investigated the time-course synthesis of CD44 and tumor necrosis factor-alpha (TNF-alpha) mRNA and established a relationship with leukocyte migration into the air pouch and CD44 expression on the leukocyte membrane. METHODS: Leukocytes from the air pouch exudate were collected and counted at 1, 4, 12, 24, 48, and 72 h after zymosan or saline injection. CD44 and TNF-alpha mRNA were studied by RT-PCR. CD44 variable exon analysis was assessed by Southern blot and CD44 membrane expression by flow cytometry. RESULTS: Leukocyte accumulation after zymosan injection was significantly higher than in saline injected controls. CD44 standard and variable isoforms including at least variable exons v6 and v9 were highly expressed in leukocytes from the zymosan air pouch exudate. In contrast, only the CD44 mRNA standard isoform was present in leukocytes from saline air pouch. Maximal TNF-alpha mRNA level was observed at 48 h after zymosan injection, whereas CD44 mRNA was constantly expressed throughout the whole term of the experiment, although variations in leukocyte count and relative formula were observed. CONCLUSION: Expression of CD44 variable isoform in leukocytes was specifically induced by zymosan, since none was detected in saline controls. TNF-alpha mRNA expression and leukocyte count at every time point served as markers for local inflammation. The presence of variable isoforms, including at least exons v6 and v9, consistently expressed throughout the assay suggests that they could play a role in this arthritis-like inflammation induced under zymosan stimulus.

Induction of apoptosis in murine lymphoma cells by cyclosporin A.

The aim of this study was to investigate if CsA could induce apoptosis in the murine T-lymphoma cell line LBC, whose growth is inhibited by this immunosuppressive drug. CsA induced programmed cell death in LBC cells with typical features of apoptosis demonstrated by exposure of phosphatidyl serine residues on the cell membrane, the decrease of cell DNA content, chromatin condensation, and nuclear fragmentation. Apoptosis was evident within 12 h after CsA incubation, with a maximal effect at 48 h, in a time and dose-dependent fashion. In addition, the role of apoptosis inhibitors (Bcl-2 and Bcl-x) and the apoptosis inducer (Bax) in CsA induced-apoptosis was evaluated. The expression of Bcl-2 and Bax proteins were high in LBC cells and following CsA treatment the expression of these proteins as well as Bcl-XL decreased. In this work we demonstrated that cell growth inhibition following CsA treatment in LBC was paralleled by the induction of apoptosis thus providing an interesting animal model to identify the mechanism participating in the regulation of apoptotic genes by CsA in T-cell neoplasms and to assess preclinical in vivo trials of T-cell lymphoma-related disorders.

Evaluation of soluble CD44 in patients with breast and colorectal carcinomas and non-Hodgkin's lymphoma.

CD44 is a transmembrane glycoprotein involved in cell-cell and cell-substrate interactions. As a cell surface molecule, CD44 may be shed or released into the circulation by proteolytic enzymatic mechanisms. Therefore, soluble CD44 can be found in cell culture supernatants as well as in plasma. In this study we evaluated the levels of soluble total CD44 (sCD44) in serum samples of patients with breast and colorectal carcinoma as well as non-Hodgkin's lymphoma in order to correlate prognosis with sCD44 expression. Besides, we evaluated other clinical tumour markers routinely used, Cancer Antigen (CA) 15.3 and CA 19.9. We investigated 132 serological samples from breast cancer patients, 48 sera from colorectal tumours, 48 samples from stage IV non-Hodgkin's lymphoma and sera from 80 individuals without evidence of cancer or autoimmune disease. Breast cancer patients were divided into three groups: a) patients with no clinical evidence of positive nodules and no metastatic disease; b) patients with positive nodules; and c) patients with metastasis. sCD44 mean serum levels in these groups were 198+/-54 ng/ml, 221+/-78 ng/ml and 242+/-119 ng/ml, respectively, while the marker CA 15.3 values were 15.6+/-6.6 U/ml, 14.0+/-5.8 U/ml and 211.5+/-358.9 U/ml, respectively. sCD44 levels for colorectal tumour were 243+/-72 ng/ml, while CA 19.9 serum levels were 230+/-270 U/ml. Stage IV non-Hodgkin's lymphoma sCD44 levels were 398+/-160 ng/ml. sCD44, CA 15.3 and CA 19.9 values for healthy individuals without evidence of any cancer pathology were 223+/-58 ng/ml, 16.4+/-6.2 U/ml and 33+/-14 U/ml, respectively. From these results we conclude that sCD44 might be used as a reliable marker for patients with non-Hodgkin's lymphoma. However, sCD44 levels failed to correlate with prognosis, tumour burden or metastasis in breast and colorectal cancer patients. Neither was any correlation found between high CA 15.3 or CA 19.9 levels and soluble CD44 serum level.

Alternative exon-specific PCR method for the analysis of human CD44 isoform expression.

CD44 is a widely expressed cell-surface transmembrane glycoprotein involved in diverse adhesive processes. Its isoforms have been implicated in tumor progression and are considered a promising marker for evaluation of the metastatic potential of various tumors. Several methods have been described for the analysis of CD44 isoforms in tumor cells, including immuno-histochemistry, RT-PCR followed by hybridization and nested RT-PCR. We describe an alternative nested PCR for the analysis of CD44 isoform expression in various malignancies. Total RNA was isolated from various shock-frozen tissues from human tumors, reverse-transcribed and PCR-amplified using CD44-specific primers. Reverse-transcription was performed by two different methods, either using Tth-polymerase or MMLV-RT. Exon-specific amplification was then carried out using specific primers for each variable exon. Amplification products were assayed by agarose gel electrophoresis. Comparison of the patterns obtained from the first amplification and from the exon-specific amplification allowed to identify exons expressed by tumor tissues, as well as the genomic organization of CD44 isoforms. The method developed proved to be sensitive, reliable and inexpensive in comparison with other methods. It can be performed even in solid tumors and for numerous samples, and is suitable for laboratories with limited resources.

Interleukin 2 exerts autocrine stimulation on murine T-cell leukaemia growth.

As it has been suggested that an autocrine mechanism may control tumour cell growth, in this work cells from a spontaneous murine T lymphocyte leukaemia (LB) expressing the interleukin-2 receptor (IL-2R) (CD25) were evaluated in vitro for IL-2-mediated autocrine growth. Cells grew readily in culture and proliferation was enhanced by the addition of recombinant IL-2 but inhibited by monoclonal antibodies against either IL-2 or IL-2 receptor, in the absence of exogenous IL-2. Cyclosporin A also inhibited LB cell growth. However, when exogenous IL-2 was added together with cyclosporin A, cell proliferation proved similar to controls. Using reverse transcription polymerase chain reaction (PCR), mRNA for IL-2 was found to be present in tumour cells. Our findings support the hypothesis that LB tumour cell proliferation is mediated by an autocrine pathway involving endogenous IL-2 generation, despite the fact that these cells are not dependent on exogenous IL-2 to grow in culture.

Enhancement of anti-tumour immunity in syngeneic mice after MHC class II gene transfection.

The relationship between tumorigenicity and expression of MHC class II molecules in a class II-negative murine leukaemia cell line (LBC) was studied. Analysis of structural DNA sequences encoding MHC class II proteins was performed by Southern blot with DNA isolated from both the original LB tumour and LBC cell line, digested with EcoRI, BamHI and HindIII and hybridised with specific probes for I-A alpha d and I-A beta d chains. Similar patterns were obtained for LB, LBC and normal BALB/c lymphocytes. In vitro treatment with IFN-gamma (20 - 1000 IU ml-1) failed to induce the expression of MHC class II antigens in LBC cell line. LBC cells were tri-transfected by a liposome-mediated protocol with I-A alpha d, I-A beta d genes and pSV2neo. Cells were selected for growth in medium containing Geneticin (G418). Surviving transfectants were cloned and three I-A+ clones were obtained after 20 days (LBCT cells). Syngeneic mice inoculated with 1.0 x 10(3) LBCT (I-A+) cells failed to develop a tumour, whereas the DT50 of mice injected with 1.0 x 10(6) LBCT cells was three times the value for mice injected with LBC cells (I-A-). Furthermore, specific CTL response against tumour cells was significantly enhanced upon priming with irradiated LBC-transfected cells (27 +/- 2%) compared with irradiated LBC cells (15 +/- 1.5%) in a 4 h 51Cr-release assay. It is suggested that neoexpression of MHC class II molecules enhances anti-tumour response by transforming tumour cells into professional antigen-presenting cells (APCs), which may be used to improve tumour-specific immunity in the autologous host.

[Immunobiological characterization of murine LB leukemia and the LBC cell line]. / Caracterización inmunobiológica de la leucemìa murina LB y la línea celular LBC.

LB leukemia is a nonimmunogenic T cell tumor which spontaneously arose in a BALB/c mouse; efforts to induce immunological rejection of the leukemic cells have always failed. The leukemic cells grow rapidly and progressively in the syngeneic host invading spleen, lymph nodes and liver. A cell line (LBC) was developed from the original tumor. Both the original tumor and the cell line have been characterized as expressing the Thy 1+, CD3-, CD25+, MHC class I+, class II-, CD4- (original tumor), CD4+ (cell line), CD8+, gp70-, J11d.2+ phenotypes. Immunization of syngeneic mice with irradiated LBC cells induced cytotoxic T lymphocytes as well as anti-LBC antibodies which reacted with components of 14, 16 and 27 kDa present on LB tumor cells, LBC cell line and normal thymocytes but not on normal lymph node cells. Immunization of syngeneic mice with LBC cells partially protected them against subsequent challenge with the original tumor cells. The effect of sera from tumor-bearing mice and the super-natants from short term cultures were studied on cell proliferation. An inhibitory activity was demonstrated in these fluids, which was abrogated by addition of exogenous IL-2. ELISA showed the presence of soluble IL-2R alpha chain both in the conditioned medium as well as in the serum, which was demonstrated to be responsible for the inhibitory activity. The soluble IL-2R was produced by LB leukemic cells and exerted the inhibitory activity blocking cell proliferation and modulating immune response by binding to free IL-2. Using reverse-transcription PCR, mRNA for IL-2 was found to be present in tumor cells. Our findings indicate that LB cell proliferation is mediated by an autocrine pathway involving endogenous IL-2 generation, despite the fact that these cells are not dependent on exogenous IL-2 to grow in culture. The relationship between tumorigenicity and expression of MHC class II was also investigated. In vitro treatment with IFN-gamma failed to induce the expression of class II antigens in LBC cell line. Therefore these cells were tri-transfected by a liposome-mediated protocol with 1-A alpha d, I-A beta d genes and pSV2neo. Cells were selected to grow in medium containing Genetecin (G418) and surviving transfectants were cloned. Three I-A+ clones were obtained (LBCT) and were used to induce a specific CTL response against tumor cells. Syngeneic mice inoculated with 10(3) LBCT cells failed to develop a tumor while the DT50 of mice injected with 10(6) LBCT cells was three times the value for mice injected with LBC cells (I-A-). It is suggested that neoexpression of MHC class II molecules enhances anti-tumor response by transforming tumor cells into professional antigen-presenting cells, which may be used to improve tumor-specific immunity in the autologous host.

Induction of anti-tumour immunity in syngeneic mice by a leukaemic cell line.

Induction of anti-tumour immunity in syngeneic mice by LBC cell line derived from a non-immunogenic T cell leukaemia was studied. The immunization of BALB/c mice with LBC irradiated cells induced in them anti-tumour spleen cells, cytotoxic T lymphocytes and anti-LBC antibodies. The anti-LBC antibodies reacted with components of 14, 16 and 27 kDa present on LB tumour cells, LBC cell line and normal thymocytes, but not with normal lymph node cells. Furthermore, immunization of the autologous hosts with LBC cells partially protected them against subsequent challenge with the original LB leukaemic cells. These findings demonstrate that culture conditions induced modifications in the antigenic properties of the leukaemic cells, allowing LBC cells to stimulate an immune response directed against components expressed at early stages during T cell maturation. These results also suggest that the immune response is responsible for the prolongation of the survival time of the mice inoculated with the parental leukaemic cells.