Humoral immune response and delayed-type hypersensitivity in rabbits infected with Trypanosoma equiperdum.

Trypanosoma equiperdum is the causative agent of dourine, a parasitic venereal disease of equids. In this work, rabbits were infected with T. equiperdum strain OVI; serological tests (complement fixation test, ELISA and immunoblotting), used for the diagnosis of dourine in horses, were applied to study rabbit humoral immune response and to characterise T. equiperdum antigen pattern recognised by antibodies from infected rabbits. Moreover a protein extract of T. equiperdum strain OVI was produced and tested in skin tests on infected rabbits to detect the cell-mediated response induced by T. equiperdum, in order to evaluate its use in the field diagnosis of dourine. Sera of infected rabbits recognized in immunoblotting Trypanosoma protein bands with molecular weight below 37 kDa, providing a serological response comparable with that already observed in dourine infected horses. Moreover the trypanosome protein extract was capable to produce in vivo delayed-type hypersensitivity (DHT Type IV) in rabbits and proved itself to be non-toxic and non-sensitizing.

Contagious Bovine Pleuropneumonia: A Comprehensive Overview.

Contagious bovine pleuropneumonia (CBPP) is a respiratory disease of cattle that is listed as notifiable by the World Organization for Animal Health. It is endemic in sub-Saharan Africa and causes important productivity losses due to the high mortality and morbidity rates. CBPP is caused by Mycoplasma mycoides subsp. mycoides (Mmm) and is characterized by severe fibrinous bronchopneumonia and pleural effusion during the acute to subacute stages and by pulmonary sequestra in chronic cases. Additional lesions can be detected in the kidneys and in the carpal and tarsal joints of calves. Mmm infection occurs through the inhalation of infected aerosol droplets. After the colonization of bronchioles and alveoli, Mmm invades blood and lymphatic vessels and causes vasculitis. Moreover, Mmm can be occasionally demonstrated in blood and in a variety of other tissues. In the lung, Mmm antigen is commonly detected on bronchiolar and alveolar epithelial cells, in lung phagocytic cells, within the wall of blood and lymphatic vessels, inside necrotic areas, and within tertiary lymphoid follicles. Mmm antigen can also be present in the cytoplasm of macrophages within lymph node sinuses, in the germinal center of lymphoid follicles, in glomerular endothelial cells, and in renal tubules. A complete pathological examination is of great value for a rapid presumptive diagnosis, but laboratory investigations are mandatory for definitive diagnosis. The purpose of this review is to describe the main features of CBPP including the causative agent, history, geographic distribution, epidemiology, clinical course, diagnosis, and control. A special focus is placed on gross and microscopic lesions in order to familiarize veterinarians with the pathology and pathogenesis of CBPP.

Pro-Inflammatory Response of Bovine Polymorphonuclear Cells Induced by Mycoplasma mycoides subsp. mycoides.

Mycoplasma mycoides subsp. mycoides (Mmm) is the etiological agent of contagious bovine pleuropneumonia (CBPP), one of the major diseases affecting cattle in sub-Saharan Africa. Some evidences suggest that the immune system of the host (cattle) plays an important role in the pathogenic mechanism of CBPP, but the factors involved in the process remain largely unknown. The present study aimed to investigate the cell response of bovine polymorphonuclear neutrophils (PMNs) after Mmm in vitro exposure using one step RT-qPCR and Western blotting. Data obtained indicate that gene and protein expression levels of some pro-inflammatory factors already change upon 30 min of PMNs exposure to Mmm. Of note, mRNA expression level in Mmm exposed PMNs increased in a time-dependent manner and for all time points investigated; targets expression was also detected by Western blotting in Mmm exposed PMNs only. These data demonstrate that when bovine PMN cells are triggered by Mmm, they undergo molecular changes, upregulating mRNA and protein expression of specific pro-inflammatory factors. These results provide additional information on host-pathogen interaction during CBPP infection.

Evaluation of veterinary autogenous vaccines safety by an MTT in-vitro cytotoxicity assay.

In Italy, veterinary autogenous vaccines manufacturing is regulated by the legislative decree of the Ministry of Health, March 17th, 1994, n. 287. The production is performed by the network of the 'Istituti Zooprofilattici Sperimentali' (IZSs), public health institutes scattered all over the Italian territory. The aim of this research was to evaluate the feasibility of an in vitro method to test the abnormal toxicity of autogenous bacterial vaccines as an alternative to animal models routinely employed. For this purpose, the Istituto Zooprofilattico Sperimentale dell'Abruzzo e del Molise (IZSAM) in partnership with the Istituto Zooprofilattico Sperimentale della Lombardia e dell'Emilia Romagna (IZSLER), evaluated the toxicity of 49 batches of autogenous bacterial vaccines, previously shown to be safe in guinea pigs and mice, on animal model, by means of the methyl tetrazolium (MTT) assay. All vaccines showed cytotoxic effects when tested 1:2 diluted and undiluted; overall, all vaccines lost toxicity at 1:128 dilution. As expected, these findings suggest a different susceptibility of this assay  compared to the laboratory animal model. On the other hand, these results do not clarify which components of the vaccines are responsible for the cytotoxic effect. Overall, more experiments are warranted in order to standardize the MTT assay which could be coupled with the trials in laboratory animals.

Respiratory explants as a model to investigate early events of contagious bovine pleuropneumonia infection.

Contagious bovine pleuropneumonia (CBPP) is a severe disease caused by Mycoplasma mycoides subsp. mycoides (Mmm). Knowledge on CBPP pathogenesis is fragmented and hampered by the limited availability of laboratory animal and in vitro models of investigation. The purpose of the present study is to assess respiratory explants as useful tools to study the early stages of CBPP. Explants were obtained from trachea, bronchi and lungs of slaughtered cattle, tested negative for Mycoplasma spp. and for the major bacterial and viral respiratory pathogens. The interaction of Mmm with explant cells was studied by immunohistochemistry (IHC), double-labelling indirect immunofluorescence (DLIIF) and laser scanning confocal microscopy (LSCM). Mmm capability to survive and proliferate within the explants was evaluated by standard microbiological procedures. Finally, the putative cellular internalization of Mmm was further investigated by the gentamicin invasion assay. IHC and DLIIF indicated that Mmm can colonize explants, showing a marked tropism for lower airways. Specifically, Mmm was detected on/inside the bronchiolar and alveolar epithelial cells, the alveolar macrophages and the endothelial cells. The interaction between Mmm and explant cells was abolished by the pre-incubation of the pathogen with bovine anti-Mmm immune sera. Mmm was able to survive and proliferate in all tracheal, bronchial and lung explants, during the entire time course of the experiments. LSCM and gentamicin invasion assay both confirmed that Mmm can enter non-phagocytic host cells. Taken together, our data supports bovine respiratory explants as a promising tool to investigate CBPP, alternative to cattle experimental infection.

Preliminary results on innocuity and immunogenicity of an inactivated vaccine against Peste des petits ruminants.

Peste des petits ruminants (PPR) virus belongs to the family Paramyxoviridae and represents a major threat to small livestock industry. In recent years, outbreaks of PPR have occurred in Turkey and North Africa. In endemic areas, disease prevention is accomplished using live­attenuated vaccines. However, the use of live vaccines in non­endemic regions, such as Europe, is not approved by Veterinary Authorities. In these regions inactivated vaccines are then the only viable alternative. In this study an inactivated vaccine (iPPRVac) was formulated with either a water­in­oil emulsion (ISA 71 VG) or with delta inulin adjuvant, alone (AFSA1) or combined with a TLR9 agonist oligonucleotide (AFSA2). These formulations were then tested for immunogenicity on rats. The iPPRV formulation with AFSA2 adjuvant induced 100% seroconversion in rats after 2 injections and was subsequently evaluated in goats. Five goats were immunised twice subcutaneously, 36 days apart with iPPRVac + AFSA2. The immunised goats all seroconverted to PPR by day 9 and remained seropositive until the end of the experimental period (133 days). These data indicate that the rat model is useful in predicting vaccine responses in goats and that inactivated vaccine, when formulated with a delta inulin adjuvant, represents a promising alternative to live attenuated vaccines for PPR vaccination campaigns in non­endemic areas.