Soluble plantain nonstarch polysaccharides, although increasing caecal load, reduce systemic invasion of Salmonella Gallinarum in the chicken.

UNLABELLED: Soluble plantain (Musa paradisiaca) nonstarch polysaccharides (NSPs) have previously been shown to prevent pathogenic interaction with the intestinal epithelium. Here, we examined whether plantain NSP could prevent the invasion of the intestinal mucosa by Salmonella enterica Gallinarum, a causative agent of fowl typhoid. In vitro assays using B1OXI cells were performed with monolayers pretreated with/without plantain NSP, before inoculation with Salm. Gallinarum 287/91. Chicks were fed from hatch on a pellet diet containing 50 mg day(-1) plantain NSP, followed by oral inoculation with Salm. Gallinarum 287/91 at the age of 6 days. Bacteria were enumerated from the liver, spleen and caecal contents 3 days postinfection. Adhesion and invasion of Salm. Gallinarum to B1OXI cells were inhibited by 10 mg ml(-1) plantain NSP (reduction in invasion 52%; 95% CI 27-77; P < 0.05). In vivo diet supplemented with 50 mg day(-1) plantain NSP reduced the invasion of Salm. Gallinarum in the chick liver (control 4.05 Log10 CFU g(-1) , SE 0.28, vs plantain 2.07 Log10 CFU g(-1) , SE 0.65; P < 0.01) and nonsignificantly in the spleen. Conversely, CFUs were significantly increased in the caeca (control 1.27 Log10 CFU g(-1), SE 0.65, vs plantain 6.04 Log10 CFU g(-1) , SE 0.17; P < 0.001). Plantain NSP feed reduced the systemic infection by Salm. Gallinarum and may have potential in reducing the impact of the disease in avian salmonellosis. The caveat is the increased caecal load of Salm. Gallinarum, although this may reflect both the reduced intestinal invasion and the bacterial multiplication in the caeca. SIGNIFICANCE AND IMPACT OF THE STUDY: Nonstarch polysaccharide (NSP) derived from the plantain (Musa paradisiaca) inhibits interaction with epithelial cells by Salmonella enterica Gallinarum, a causative agent of the disease fowl typhoid. Incorporation of plantain NSP into the poultry feed reduced Salm. Gallinarum levels in the spleen and liver of chicks following experimental infection, although their numbers in the caeca increased. These data demonstrate that alternatives to antimicrobials such as NSP may be useful in the control of invasive salmonellosis in poultry.

Infection of chickens with antimicrobial-resistant Salmonella enterica Typhimurium DT193 and monophasic Salmonella Typhimurium-like variants: an emerging risk to the poultry industry?

Antimicrobial-resistant Salmonella enterica poses a particular risk to public health, and in particular isolates belonging to clonal lineages such as Salmonella Typhimurium DT104 cause epidemics across species including poultry. In recent years, antimicrobial-resistant S. Typhimurium DT193 and specifically the monophasic S. Typhimurium-like variants of this phage type, serotypes 4,12:i:- and 4,5,12:i:-, have become an increasing risk to public health in Europe and the USA and now account for nearly one-half of human S. Typhimurium infections in the UK. Unlike S. Typhimurium that possesses two forms of flagella which can vary between phase 1 and phase 2 during infection, monophasic variants possess only phase 1 flagella. These monophasic antimicrobial-resistant variants have become a major problem in pig production but human cases have also been associated with poultry consumption and have been found in UK flocks through surveillance schemes since 2010. In this study we determined the ability of antimicrobial-resistant DT193 serotype 4,12:i:- and 4,5,12:i:- isolates from pigs to infect chickens. All isolates were found to colonize the caeca and liver. All but one isolate of serotype 4,5,12:i:- also infected the spleen. Levels of infection and pathology were comparable with those found with the virulent S. Typhimurium isolate 4/74. These findings indicate that both S. Typhimurium DT193 and monophasic variants of this phage type usually associated with pigs are capable of colonizing the chicken. This shows that both S. Typhimurium DT193 and monophasic variants represent a significant and potential emerging threat to poultry production from "spill-over" of these isolates from the pig industry or other sources.

Multilocus sequence typing of human and canine C. upsaliensis isolates.

Risk of Campylobacter infection in humans has been associated with many sources, including dogs. C. upsaliensis is the most common species found in canines, and has been occasionally isolated from symptomatic humans. This study aimed to investigate the genetic diversity of 41 C. upsaliensis isolates carried by dogs and from nine isolates carried by humans using Multilocus sequence typing (MLST). We identified considerable genetic diversity amongst the C. upsaliensis isolates from both dogs and humans, identifying 45 different sequence types (STs). All STs were new, apart from that of the reference strain. Only three STs were found in more than one isolate: ST-72 (2 isolates), ST-98 (2 isolates) and ST-104 (3 isolates). ST-104 was the only ST to be encountered in both dogs and humans. Thirty-one of the 45 STs were assigned to one of 13 clonal complexes (CCs). Four of these CCs contained STs originating from both humans and dogs. None of the CCs contained exclusively human isolates, and two isolates from dogs within the same kennel belonged to the same CC. The large amount of diversity found in both dog and human isolates of C. upsaliensis, combined with the relatively small database, made it difficult to assign strains to sources of infection. This emphasizes the need to increase the size of the database. Dog and human isolates occasionally grouped together, however there were insufficient human-derived isolates to determine whether or not dogs are a common source of infection. Although C. upsaliensis infection is rare in humans, dogs still remain a potential source, and are therefore a possible zoonotic risk. Further work is needed to investigate the epidemiology of C. upsaliensis infection in humans.

Prevalence and shedding patterns of Campylobacter spp. in longitudinal studies of kennelled dogs.

Dog ownership is considered a risk factor for campylobacteriosis in humans. This study investigated the prevalence and shedding of Campylobacter spp. in kennelled dogs. Faecal samples (n=399) were collected in longitudinal studies from 52 dogs in two kennels. Campylobacter spp. were isolated using charcoal-based selective agars and direct PCR. The prevalence of Campylobacter spp. in dogs in boarding kennels ranged from 46% (95% CI 22, 72) on entry, to 50% (95% CI 30, 70) overall, and in dogs in 'rescue' kennels from 68% (95% CI 49, 84) on entry to 73% (95%, CI 56, 87) overall. C. upsaliensis was isolated from 62% (95% CI 48, 73) of the dogs, whilst C. jejuni was isolated from 15% (95% CI 7, 26) of animals. The majority of infected dogs entered the kennels already carrying Campylobacter spp., and remained infected throughout their stay. However, in some cases, shedding appeared to commence after kennelling. Given that the prevalence of C. upsaliensis and C. jejuni was relatively high in dogs from both boarding and rescue kennels, such animals may pose a zoonotic risk.

Prevalence of Campylobacter spp. in a cross-sectional study of dogs attending veterinary practices in the UK and risk indicators associated with shedding.

Campylobacteriosis is a major cause of gastroenteritis in humans and some studies have suggested that dog ownership is a risk factor for the condition. To determine the prevalence, species distribution, and risk indicators for Campylobacter spp. infecting dogs attending veterinary practices in UK, faecal samples were collected in a cross-sectional study from 249 dogs with and without clinical signs. The prevalence of Campylobacter spp. was 38% (95% CI 32, 44), with Campylobacter upsaliensis accounting for 94 (98%) of the isolates and Campylobacter jejuni for the remainder. Multivariable analysis indicated that younger dogs were more likely to carry C. upsaliensis and the high prevalence of this pathogen supports the hypothesis that dogs, particularly younger animals, may be an important source of C. upsaliensis infection for humans. However the prevalence of C. jejuni, the most common Campylobacter spp. associated with disease in humans, was low (1.2%, 95% CI 0.3, 3).

Typing of Campylobacter jejuni isolates from dogs by use of multilocus sequence typing and pulsed-field gel electrophoresis.

Campylobacter is a major cause of human gastroenteritis worldwide. Risk of Campylobacter infection in humans has been associated with many sources, including dogs. This study aimed to investigate whether C. jejuni carried by dogs could potentially be a zoonotic risk for humans and if there were common sources of C. jejuni infection for both humans and dogs. Multilocus sequence typing (MLST) together with macrorestriction analysis of genomic DNA using SmaI and pulsed-field gel electrophoresis (PFGE) were both used to analyze 33 C. jejuni isolates obtained from various dog populations, including those visiting veterinary practices and from different types of kennels. MLST data suggested that there was a large amount of genetic diversity between dog isolates and that the majority of sequence types found in isolates from these dogs were the same as those found in isolates from humans. The main exception was ST-2772, which was isolated from four samples and could not be assigned to a clonal complex. The most commonly identified clonal complex was ST-45 (11 isolates), followed by ST-21 (4 isolates), ST-508 (4 isolates), and ST-403 (3 isolates). The profiles obtained by macrorestriction PFGE were largely in concordance with the MLST results, with a similar amount of genetic diversity found. The diversity of sequence types found within dogs suggests they are exposed to various sources of C. jejuni infection. The similarity of these sequence types to C. jejuni isolates from humans suggests there may be common sources of infection for both dogs and humans. Although only a small number of household dogs may carry C. jejuni, infected dogs should still be considered a potential zoonotic risk to humans, particularly if the dogs originate from kennelled or hunt kennel dog populations, where the prevalence may be higher.