Summary
De novo expression of costimulatory molecules in tumours generally increases their immunogenicity, but does not always induce a protective response against the parental tumour. This issue was addressed in the mouse Sp6 hybridoma model, comparing different immunization routes (subcutaneous, intraperitoneal and intravenous) and doses (0·5 × 106 and 5 × 106 cells) of Sp6 cells expressing de novo B7‐1 (Sp6/B7). The results can be summarized as follows. First, de novo expression of B7‐1 rendered Sp6 immunogenic, as it significantly reduced the tumour incidence to ≤15% with all delivery routes and doses tested, whereas wild‐type Sp6 was invariably tumorigenic (100% tumour incidence). Second, long‐lasting protection against wild‐type Sp6 was mainly achieved when immunization with Sp6/B7 was subcutaneous: a dose of 0·5 × 106 Sp6/B7 cells elicited protection that was confined to sites in the same anatomical quarter as the immunizing injection. Repeated injections of the same dose extended protection against wild‐type Sp6 to other anatomical districts, as well as a single injection of a 10‐fold higher dose (5 × 106 cells). Finally, Sp6‐specific cytotoxic T‐lymphocyte activity was detected in draining lymph nodes, and the splenic expansion of Sp6‐specific cytotoxic T‐lymphocyte precursors quantitatively correlated with the dose of antigen. We conclude that activation of a protective immune response against Sp6 depends on the local environment where the immunogenic form of the ‘whole tumour cell antigen’ is delivered. The antigen dose regulates the anatomical extent of the protective response.
Mycoplasma gallisepticum (MG) infects many avian species and leads to significant economic losses in the poultry industry. Transmission of this pathogen occurs both horizontally and vertically, and strategies to avoid the spread of MG rely on vaccination and the application of biosecurity measures to maintain breeder groups as pathogen-free. Two live attenuated MG vaccine strains are licensed in Italy: 6/85 and ts-11. After their introduction, the implementation of adequate genotyping tools became necessary to distinguish between field and vaccine strains and to guarantee proper infection monitoring activity. In this study, 40 Italian MG isolates collected between 2010–2019 from both vaccinated and unvaccinated farms were genotyped using gene-targeted sequencing (GTS) of the cythadesin gene mgc2 and multilocus sequence typing (MLST) based on six housekeeping genes. The discriminatory power of GTS typing ensures 6/85-like strain identification, but the technique does not allow the identification ts-11 strains; conversely, MLST differentiates both vaccine strains, describing more detailed interrelation structures. Our study describes MG genetic scenario within a mixed farming context. In conclusion, the use of adequate typing methods is essential to understand the evolutionary dynamics of MG strains in a particular area and to conduct epidemiological investigations in the avian population.
Differentiation among types I, II, and III is the primary step in typing Mycobacterium avium subsp. paratuberculosis. We propose an innovative approach based on detection of gyrase B (gyrB) gene polymorphisms by suspension array technology, with high discriminatory power and high-throughput potential.
In the Sp6 mouse plasmacytoma model, a whole-cell vaccination with Sp6 cells expressing de novo B7-1 (Sp6/B7) induced anatomically localized and cytotoxic T cell (CTL) -mediated protection against wild-type (WT) Sp6. Both WT Sp6 and Sp6/B7 showed down-regulated expression of MHC H-2 Ld. Increase of H-2 Ld expression by cDNA transfection (Sp6/B7/Ld) raised tumour immune protection and shifted most CTL responses towards H-2 Ld-restricted antigenic epitopes. The tumour-protective responses were not specific for the H-2 Ld-restricted immunodominant AH1 epitope of the gp70 common mouse tumour antigen, although WT Sp6 and transfectants were able to present it to specific T cells in vitro. Gp70 transcripts, absent in secondary lymphoid organs of naive mice, were detected in immunized mice as well as in splenocytes from naive mice incubated in vitro with supernatants of CTL-lysed Sp6 cell cultures, containing damage-associated molecular patterns (DAMPs). It has been shown that Toll-like receptor triggering induces gp70 expression. Damage-associated molecular patterns are released by CTL-mediated killing of Sp6/B7-Sp6/B7/Ld cells migrated to draining lymph nodes during immunization and may activate gp70 expression and presentation in most resident antigen-presenting cells. The same could also apply for Mus musculus endogenous ecotropic murine leukaemia virus 1 particles present in Sp6-cytosol, discharged by dying cells and superinfecting antigen-presenting cells. The outcome of such a massive gp70 cross-presentation would probably be tolerogenic for the high-affinity AH1-gp70-specific CTL clones. In this scenario, autologous whole-tumour-cell vaccines rescue tumour-specific immunoprotection by amplification of subdominant tumour antigen responses when those against the immune dominant antigens are lost.
Mycoplasma dispar is an overlooked pathogen often involved in bovine respiratory disease (BRD), which affects cattle around the world. BRD results in lost production and high treatment and prevention costs. Additionally, chronic therapies with multiple antimicrobials may lead to antimicrobial resistance. Data on antimicrobial susceptibility to M. dispar is limited so minimum inhibitory concentrations (MIC) of a range of antimicrobials routinely used in BRD were evaluated using a broth microdilution technique for 41 M. dispar isolates collected in Italy between 2011–2019. While all isolates had low MIC values for florfenicol (<1 μg/mL), many showed high MIC values for erythromycin (MIC90 ≥8 μg/mL). Tilmicosin MIC values were higher (MIC50 = 32 μg/mL) than those for tylosin (MIC50 = 0.25 μg/mL). Seven isolates had high MIC values for lincomycin, tilmicosin and tylosin (≥32 μg/mL). More, alarmingly, results showed more than half the strains had high MICs for enrofloxacin, a member of the fluoroquinolone class considered critically important in human health. A time-dependent progressive drift of enrofloxacin MICs towards high-concentration values was observed, indicative of an on-going selection process among the isolates.
Molecular diagnostic tests are widely implemented in animal and human health microbiology. Efficient nucleic acid extraction methods are essential in diagnostic laboratories and automation is a valuable tool for those with high throughput activity. Nucleic acid extraction protocols present variable efficiency depending on the composition of the specimen and the chemical-physical characteristics of the target pathogen. In the present study, we compared the DNA extraction performances of four automated methods (kits I, M, P, Q) adapted on a Hamilton Robotics ''Microlab Starlet'' extraction unit, and one manual method (kit R). Ten-fold dilutions of Mycobacterium avium subsp. paratuberculosis (MAP) were used to contaminate bovine central nervous system (CNS) and lung-spleen-liver pools (LSL). In consideration of its chemical-physical characteristics, MAP was selected as a template for pathogen DNA detection. Analytical performance and repeatability were assessed through downstream real-time PCR amplification, hands-on time (HOT), total turnaround time (TAT) and costs of all kits. MAP was detected differently depending on extraction kit and type of matrix analysed. Kits M and I showed the highest analytical performance on CNS (1 MAP/ml) and LSL (10 MAP/ml), respectively. Besides analytical results, kits I and M displayed high repeatability, the same HOT, very similar TAT, and were inexpensive. In conclusions, different standardized automated systems have been established with high throughput, sensitivity and repeatability for CNS and LSL. Our results also demonstrated that is necessary to assess the effectiveness of extraction kits in matrices not previously tested to avoid the risk of unreliable diagnostic outcomes.
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