Potential of cinnamaldehyde essential oil as a possible antimicrobial against fowl typhoid in layers.

Fowl typhoid (FT) is an economically significant bacterial disease of layers leading to a drastic drop in egg production. Due to increased public health concerns about antibiotics in poultry feed, a search for new safe antimicrobials for treating fowl typhoid is crucial. The antimicrobial effect of cinnamaldehyde essential oil (CnEO) against fowl typhoid in layers was investigated in this experiment. The 60-week-old BV300-layer birds (n = 100) were divided into five groups: the non-challenged control group A, only cinnamaldehyde-treated group B (CnEO @ 1:8000 dilutions through drinking water for 60 days), the challenged group C, challenged plus cinnamaldehyde therapy group D (CnEO @ 1:8000 dilutions through drinking water from 16 to 30 dpi), and challenged plus antibiotic therapy group E (chloramphenicol @ 1 gm/5lit through drinking water from 16 to 30 dpi). Hens from all challenged groups were challenged with Salmonella Gallinarum (VTCCBAA588) @ 1 × 108 CFU/ml orally. Various parameters such as clinical signs, mortality, egg production and egg weight, colony-forming unit (CFU) count of cecal content, eggshell surface, and egg yolk were evaluated all through 60 days of an experimental trial. Results indicated that, in the case of the cinnamaldehyde therapeutic group, there was a significant improvement in egg production, mild clinical signs, lower feed conversion ratio (FCR), and a significantly lower bacterial count in ceca and on the eggshell surface compared to the control challenge group. Thus, CnEO @ 1:8000 dilutions through drinking water can be a potential antimicrobial for controlling fowl typhoid.

Safety and protective effects of an avirulent Salmonella Gallinarum isolate as a vaccine candidate against Salmonella Gallinarum infections in young chickens.

Fowl typhoid is an important disease of chickens and turkeys, which is caused by Salmonella Gallinarum (S. Gallinarum). Vaccines with high levels of protective effects against fowl typhoid need to be developed for the poultry industry. In this study, a S. Gallinarum strain, named SG01, was isolated from a poultry farm in Mashan region of Wuxi City, China, and identified through biochemical tests and specific PCR amplifications. Then, safety evaluations of the SG01 strain were performed in young chickens. No clinical symptom including depression and diarrhea and gross lesion involved in the cardiac nodule, hepatic necrotic lesion and splenic necrotic lesion, was determined on fifteen-day-old chickens after immunization with 1 × 1010 CFU of the SG01 strain through the oral route. However, diarrhea symptoms and hepatic lesions were identified from chickens immunized with the commercial vaccine strain SG9R by the same dose and route. At 14 days post inoculation, SG01 strain was eliminated in the liver and spleen from SG01-immunized chickens, while the SG9R strain still could be identified from SG9R-immunized chickens. After challenge with the virulent S. Gallinarum strain, significant reduction of the morbidity rate was found in the SG01 immunized group (20 %) compared to the challenge group (100 %) according to signs scoring systems for clinical symptoms and gross lesions. Additionally, immunization with the SG01 strain could provide more than 8 weeks of protection periods against fowl typhoid. These results demonstrate the SG01 strain is avirulent to young chickens and might be safer compared to the SG9R strain. In addition, SG01 strain is a potential vaccine candidate against fowl typhoid in young chickens.

Prospective lipid-A altered live attenuated Salmonella Gallinarum confers protectivity, DIVA capability, safety and low endotoxicity against fowl typhoid.

The present study describes creating an attenuated Salmonella Gallinarum (SG) strain with reduced endotoxicity to prevent fowl typhoid. The strain was attenuated by deleting the lon, cpxR, and rfaL virulence-related genes. Endotoxicity was reduced by deleting the pagL open reading frame and replacing it with the lpxE gene derived from Francisella tularencis. Both events, (1) deletion of the pagL and (2) introduction of the lpxE genes, conferred reduced endotoxicity by detoxifying the lipid A structure. The detoxified SG strain (SGVSdt) was well tolerated in 7-day-old chicks when administered orally at 1 × 108 CFU/bird and in 14-day-old birds administered 1 × 107 CFU/bird subcutaneously. Parenteral immunization of detoxified vaccine strain was completely safe in birds and free of environmental contamination. Subcutaneous immunization conferred disease protection and induced humoral and cell-mediated immune responses marked by Th1-skewed patterns similar to those produced by the commercial SG9R vaccine strain. Compared with the SG9R-based vaccine, the SGVSdt construct generated significantly fewer inflammatory TNF-α responses while significantly inducing IFN-γ cytokine levels as an indication of an adaptive antibacterial response. The differentiating infected from vaccinated animals (DIVA) capability was on par with the predecessor SGVS. This study presents an appealing biological strategy to minimize lipid A-mediated endotoxicity without compromising protective efficacy against the SG challenge. Reduced endotoxicity permits the utilization of higher inoculation doses to maximize protection against fowl typhoid.

Heat stress impairs egg production in commercial laying hens infected by fowl typhoid.

Salmonella Gallinarum (SG) is an avian-restricted pathogen that causes fowl typhoid in poultry. Although it has been reported frequently over many decades in poultry flocks worldwide, the microorganism is more commonly associated with poultry in developing countries, particularly those with high ambient temperatures, where the acute form of the disease results in considerable economic losses. A more detailed investigation of environmental factors that affect the course of disease may assist in identifying effective prevention and control measures. Heat stress is known to impair the immunological response to a variety of pathogens and clearly may be an important contributory factor in the prevalence of disease in countries with warm or hot climates. Thus, the objective of the present study was to evaluate the effects of heat stress on chickens infected with SG. For this, light and semi-heavy commercial laying hens were distributed randomly within four groups as follows: infected and non-infected groups in rooms held at ambient temperature, and infected and non-infected groups under heat stress. Clinical signs, egg production, and mortality were recorded daily. Bacteriological counts in liver and spleen samples were estimated at 2, 5, 7, and 14 days post-infection. The results showed that both SG infection and heat stress had similar effects on egg production and a synergistic effect of the two stressors was observed. The data show an interaction between disease and heat stress which could point towards environmental and biosecurity approaches to resolving the possible 30% fall in production observed in such countries.

Evidence of vector borne transmission of Salmonella enterica enterica serovar Gallinarum and fowl typhoid disease mediated by the poultry red mite, Dermanyssus gallinae (De Geer, 1778).

BACKGROUND: The poultry red mite Dermanyssus gallinae (De Geer, 1778) is a major ectoparasite of poultry. Infestations are found in most laying hen farms in Europe, and breeder flocks have also been reported to be affected. Mite infestation has detrimental effects on animal welfare, it causes significant economic losses, and, additionally, D. gallinae is often considered as a vector for pathogens. Despite suspicion of a close relationship between the poultry red mite and Salmonella enterica enterica serovar Gallinarum biovar Gallinarum (serovar Gallinarum), the causative agent of fowl typhoid disease (FT), there has been no definitive proof of mite-mediated transmission. Therefore, an investigation was conducted to determine if D. gallinae-mediated transmission of serovar Gallinarum could be demonstrated among four different hen groups. METHODS: Two groups of 8 hens (A and B) were experimentally infected with serovar Gallinarum in two isolators. After 7 days, when birds showed signs of FT, about 25,000 mites were introduced. After 3 days, mites were harvested and used to infest two other hen groups of 8 (C and D), in two separate isolators. The health status of hens was constantly monitored; detection and quantification of serovar Gallinarum were performed by PCR and qPCR from mites and organs of dead hens. The maximum likelihood estimation of the infection rate and mite vectorial capacity were calculated. RESULTS: Clinical disease was observed in groups infected with serovar Gallinarum (A and B) and in hens of groups C and D infested with mites harvested from the isolators containing groups A and B. In all four groups, serovar Gallinarum was detected from liver, spleen, ovary, and cecum of hens, thus confirming the diagnosis of FT. Mite analysis demonstrated the presence of the pathogen, with an estimated infection rate ranging between 13.72 and 55.21 infected per thousand mites. Vectorial capacity was estimated to be 73.79. CONCLUSIONS: Mites harvested from birds infected with serovar Gallinarum were shown to carry the mite, and then to transfer serovar Gallinarum to isolated groups of pathogen-free birds that subsequently showed signs of FT. Mite vectorial capacity was high, demonstrating that D. gallinae should be considered an effective vector of FT.

The effect of a selected yeast fraction on the prevention of pullorum disease and fowl typhoid in commercial breeder chickens.

A selected yeast fraction (SYF) was tested for the purpose of preventing pullorum disease and fowl typhoid in breeder chickens. In a challenge-protection experiment, commercial Three-Yellow breeder chicks were initially divided into groups A, B (challenged, treated), C (challenged, untreated), and D (unchallenged, untreated). The group A diet was supplemented with SYF and group B was supplemented with Acidipure via drinking water. At 7 D, birds of groups A, B, and C were divided into 2 equal subgroups (A1-A2, B1-B2, and C1-C2). Subgroups A1, B1, and C1 were challenged with Salmonella pullorum (SP), while subgroups A2, B2, and C2 were challenged with Salmonella gallinarum (SG). Clinical signs and mortality were recorded daily. At intervals, antibodies against SP and SG were detected by a plate agglutinate test (PAT). At 42 D, all birds were weighed and necropsied, lesions were recorded and challenge pathogens were isolated. Results showed that SP and SG isolation positive rates of groups A1-A2 were significantly lower (P < 0.05) than those of B1-B2 and C1-C2, respectively. The average body weight (BW) of groups A1-A2 was significantly higher (P < 0.05) than that of B1-B2 and C1-C2, respectively. In the field trial, chicks were randomly divided into 3 groups. Group 1 birds were fed a diet supplemented with SYF, group 2 diet was supplemented with Acidipure via drinking water, and group 3 was fed the same but un-supplemented diet as the control group. Antibodies against SP and SG were detected by PAT at 120 D. The antibodies positive rate of group 1 was significantly lower (P < 0.05) than those of groups 2 and 3, while no significant difference (P > 0.05) was found between groups 2 and 3. The results demonstrated that SYF supplementation could significantly decrease SP and SG infection rates, improve the BW of birds challenged with SP and SG, and was more effective than Acidipure via drinking water.

Molecular and phylogenetic analyses of Salmonella Gallinarum trace the origin and diversification of recent outbreaks of fowl typhoid in poultry farms.

Fowl typhoid (FT) and pullorum disease (PD) are two important poultry infections caused by Salmonella enterica subsp. enterica serotype Gallinarum (S. Gallinarum). S. Gallinarum strains are adapted to birds and classified into biovars Gallinarum (bvGA) and Pullorum (bvPU) as they are the causative agent of FT and PD, respectively. In Brazil, FT/PD outbreaks have been reported along the last 50 years, but there was a recent increase of FT field reports with the suspicion it could be due to virulence reversion of the attenuated live vaccine SG9R. In this study, we applied molecular biology assays and phylogenetic methods to detect and investigate S. Gallinarum isolates from commercial poultry flocks in order to understand the evolutionary history and origin of the recent FT outbreaks in Brazil. S. Gallinarum isolates were obtained from thirteen different poultry flocks with clinical signs of FT/PD from 2013 to 2015. These isolates were serotyped, tested with three specific PCR (for the detection of bvGA, bvPU and live vaccine strain SG9R) and submitted to sequencing of a variable genome region (ISR analysis). The complete genome of one bvGA strain (BR_RS12) was also compared to other S. Gallinarum complete genomes (including other two Brazilian ones: bvGA 287/91 and bvPU FCVA198). PCR detected all thirteen isolates as S. Gallinarum (eight bvGA and five bvPU), none positive for SG9R strain. ISR analysis revealed that all eight bvGA isolates showed exactly the same nucleotide sequences with 100% similarity to reference strains, while two patterns were observed for bvPU. Genome phylogeny demonstrated distinct clades for bvGA and bvPU, with the bvGA clade showing a clear subdivision including three genomes: SG9R vaccine, the respective SG9 parent strain and one SG9R revertant field isolate (MB4523). The evolutionary rate of the total S. Gallinarum genome was calculated at 6.15×10-7 substitutions/site/year, with 2.8 observed substitutions per year per genome (1 SNP per 4292 bases). Phylodynamics analysis estimated that at least two introductions of S. Gallinarum bvGA happened in Brazil, the first in 1885 and the second in 1950. The Brazilian bvGA genomes 287/91 and BR_RS12 analyzed here were related to the early and the late introductions, respectively. In conclusion, these results indicate the occurrence of S. Gallinarum strains associated with FT outbreaks that have been circulating for more than 50 years in Brazil and are not originated from virulence reversion of the SG9R vaccine.

Generation of a safety enhanced Salmonella Gallinarum ghost using antibiotic resistance free plasmid and its potential as an effective inactivated vaccine candidate against fowl typhoid.

A safety enhanced Salmonella Gallinarum (SG) ghost was constructed using an antibiotic resistance gene free plasmid and evaluated its potential as fowl typhoid (FT) vaccine candidate. The antibiotic resistance free pYA3342 plasmid possesses aspartate semialdehyde dehydrogenase gene which is complimentary to the deletion of the chromosomal asd gene in the bacterial host. This plasmid was incorporated with a ghost cassette containing the bacteriophage PhiX174 lysis gene E, designated as pJHL101. The plasmid pJHL101 was transformed into a two virulence genes-deleted SG. The SG ghosts with tunnel formation and loss of cytoplasmic contents were observed by scanning electron microscopy and transmission electron microscopy. The cell viability of the culture solution was decreased to 0% at 24h after the induction of gene E expression by an increase in temperature from 37°C to 42°C. The safety and protective efficacy of the SG ghost vaccine was further examined in chickens which were divided into three groups: group A (non-immunized control), group B (orally immunized), and group C (intramuscularly immunized). The birds were immunized at 7d of age. No clinical symptoms associated with FT such as anorexia, depression and greenish diarrhea were observed in the immunized chickens. Upon challenge with a virulent SG strain at 3 week post-immunization, the chickens immunized with the SG ghost via various routes were efficiently protected, as shown by significantly lower mortality and post-mortem lesions in comparison with control group. In addition, all the immunized chickens showed significantly higher antibody responses accompanied by a potent antigen-specific lymphocyte proliferative response along with significantly increased numbers of CD4⁺ and CD8⁺ T lymphocytes. Overall, our results provide a promising approach of generating SG ghosts using the antibiotic resistance free plasmid in order to prepare a non-living bacterial vaccine candidate which could be environmentally safe yet efficient to prevent FT in chickens.

Phenotypic and genetic traits of Salmonella enterica subsp. serovar Typhimurium strains causing salmonellosis foci in rabbit farms from Southern Italy in 1999-2003.

In this study, we characterised the Salmonella Typhimurium strains responsible for four outbreaks which occurred in distinct rabbit farms (Southern Italy) from 1999 to 2003. Strains were typed by Pulsed Field Gel Electrophoresis (PFGE) and the genetic basis of antimicrobial resistance was established. A major group of clonally related isolates, pulsotype STYMXB.0061, accounted for three of the salmonellosis foci. Strains were resistant to streptomycin, chloramphenicol, tetracycline, ampicillin and sulphonamides encoded respectively by the aadA2, floR, tetG, blaPSE-1, sul1 gene cluster harboured by a Salmonella Genomic Island 1. The clonally related group of isolates included strains phage type DT104, DT12 or undefined type (NT). The fourth salmonellosis focus was caused by a strain pulsotype STYMXB.0147, resistant to sulphonamides (encoded by sul2) and phage type U302. Results provided first molecular characterisation of S. Typhimurium strains isolated from rabbit farms in Italy and highlighted the presence of the pulsotype STYMXB.0061 even before its wide detection among human clinical isolates collected in Italy in the mid 2000s from clinical cases.

Correlating blood immune parameters and a CCT7 genetic variant with the shedding of Salmonella enterica serovar Typhimurium in swine.

The porcine response to Salmonella infection is critical for control of Salmonella fecal shedding and the establishment of Salmonella carrier status. In this study, 40 crossbred pigs were intranasally inoculated with Salmonella enterica serovar Typhimurium (Salmonella Typhimurium) and monitored for Salmonella fecal shedding and blood immune parameters at 2, 7, 14 and 20 days post-inoculation (dpi). Using a multivariate permutation test, a positive correlation was observed between Salmonella Typhimurium shedding levels at 2 and 7dpi and serum interferon-gamma (IFNgamma) levels at 2dpi (p<0.05), with Salmonella being shed in greater numbers from animals with higher IFNgamma levels. A positive correlation was also observed between IFNgamma levels and the number of banded neutrophils (2dpi), circulating neutrophils (7 and 14dpi), monocytes (7dpi), and white blood cells (WBCs) (7, 14 and 20dpi). We have further performed association studies on these immune response parameters as well as shedding status of the Salmonella-infected pigs with a single nucleotide polymorphism (SNP) in the porcine gene CCT7, previously shown by our group to be transcriptionally up-regulated in swine experimentally inoculated with Salmonella Typhimurium. Our analyses with the 40 pigs suggest a positive association (p=0.0012) of SNP genotype A/G at position AK240296.c1153G>A of the CCT7 gene with Salmonella shedding at 7dpi compared to the G/G homozygote genotype. Linking specific genes and genetic polymorphisms with the porcine immune response to Salmonella infection and shedding may identify potential markers for carrier pigs as well as targets for disease diagnosis, intervention and prevention.

Evaluación de la actividad fagocitaria y bactericida de los monocitos y heterófilos aviares contra Samonella gallinarum / Evaluation of phagocytic and bactericidal activities of avian monocytes and heterophils against Salmonella gallinarum in vitro

Se determinó, mediante ensayos in vitro, la capacidad fagocítica y bactericida de los deterófilos y de los monocitos aviares contra Salmonella gallinarum, en presencia y en ausencia de 10 por ciento de suero hiperinmune. En los ensayos de fagocitosis se observó que los hetrófilos fagocitaron al 28 ñ 4.7 por ciento de las bacterias sin opsonizar y al 45 ñ 9.9 por ciento de las bacterias opsonizadas, obteniéndose diferencias significativas (P< 0.05). En contraste, los monocitos sólo fagocitaron un 10.3 ñ 4.2 por ciento y un 11.7 ñ 3.8 por ciento de bacterias opsonizadas y sin opsonizar respectivamente (P> 0.05). En los ensayos bactericidas se observó que los heterófilos destruyeron al 90.46 ñ 3.3 por ciento de la bacteria sin opsonizar y 90 ñ 2.3 por ciento de la bacteria opsonizada (P> 0.05); sin embargo, en los monocitos se obtuvo un 10.5 ñ 6.6 por ciento y un 84.74 ñ 5 por ciento respectivamante, obteniéndose diferencias significativas (P< 0.05). Los resultados del presente estudio indican que la fagocitosis de los heterófilos fue significativamente incrementada por la opsonización; en el caso de los monocitos, no hubo un efecto significativamente mayor. Aproximadamente el 90 por ciento de las bacterias fagocitadas por los heterófilos fueron destruidos, como se determinó en el ensayo. La opsonización no incrementó significativamante el porcentaje de bacteria destruida por parte de los heterófilos, sin embargo, la psonización de Salmonella gallinarum sí favoreció la capacidad bactericida de los monocitos

Efecto de la adición del acido cápsico, proveniente de la semilla de paprika (Capsicum annuum) en la dieta de pollo de engorda infectado experimentalmente por Salmonella gallinarum / Effect of Paprika seed (Capsicum annum) diet on Salmonella gallinarum infection in broiler chicks

Para evaluar el efecto del ácido cápsico en la dieta de pollos de engorda, se utilizaron 150 pollitos mixtos de un día de edad, que fueron divididos aleatoriamente en 5 grupos con 30 aves cada uno. Los grupos 1 y 2 fueron alimentados con una dieta basal, mientras que los grupos 3, 4 y 5 recibieron una dieta basal con 18, 27 y 35 ppm de ácido cáspico respectivamante. A los 15 días de edad se registraron los pesos de todos los grupos y se inocularon a las aves de los grupos 2, 3, 4 y 5 con 10 ufc/ml de Salmonella gallinarum resistente a ácido nalidíxico y novobiocina. Las aves se sacrificaron 24 h posinoculación y se realizó la lectura del pH cecal; se obtuvieron muestras de tonsilas cecales para determinar la colonización cecal y de hígado y bazo (muestra mixta) para determinar la invasión a órganos. Tanto la colonización como la invasión por S. gallinarum fue menor (P< 0.001) en los tres grupos que recibieron ácido cápsico en la dieta, en comparación con el grupo inoculado que recibió una dieta basal. El pH cecal disminuyo significativamante (P< 0.05) en los grupos tratados, en relación con los grupos testigo. Los resultados obtenidos en este estudio concuerdan con estudios previos donde se observó que la capsaicina aumentó la resistencia a la invasión de S. enteritidis en órganos. Esta resistencia estuvo asociada con el pH cecal y sugiere que la capsaicina presente en la semilla de paprika es también efectiva en la invasión causada por S. gallinarum en órganos

Serological evidence for the presence of antibodies to Salmonella typhi among slaughtered pigs, goats and sheep.

A serological search for healthy carriers of S. typhi was undertaken among regularly slaughtered pigs, goats and sheep. Serum samples from 49 pigs, 40 goats and 35 sheep were tested for the presence of antibodies to S. typhi by the tube agglutination (TAG) and indirect haemagglutination (IHA) methods. Of the 49 pig sera screened, a total number of 39 cases were positive, of which 27 were positive by both IHA and TAG methods, and 12 one test only. Twenty-two of the pig sera but none of the sheep and goat sera were positive at higher titre. These findings suggest that pigs may harbour S. typhi and may act as carriers in transmitting infection to man.

The influence of protein source and basal dietary component on survival in acute experimental fowl typhoid in the chick (Gallus domesticus).

1. The influence of diet on the survival of chicks inoculated orally at 15 d of age with Salmonella gallinarum was determined, and in the first experiment the numbers of salmonellae were counted in blood 5 or 7 d after inoculation to assess their value in predicting survival. 2. Significantly more chicks survived among those given beef powder as the protein supplement in a starch-based diet than among those where fish flour replaced beef powder. The number of salmonellae in blood was significantly higher in chicks given the fish-flour diet than in those given the beef-powder diet, but the relationship between the number of viable organisms in blood and the final survival rate was not close. 3. Whale meat and soya-bean protein gave high survival rates, similar to that given by beef powder, and casein plus gelatin was slightly poorer in this respect. 4. For each high-protein food the level of survival from the acute disease was significantly greater with wheat than with starch as the basal component of the diet. 5. The addition of either condensed beef extract or fish solubles to a standard diet did not influence survival.

Relationship of aflatoxicosis to Salmonella gallinarum infections of chickens.

Aflatoxicosis and Salmonella gallinarum exert their effects on the body weight and mortality of chickens without any interaction.