Salmonella enterica serovars linked with poultry in India: antibiotic resistance profiles and carriage of virulence genes.

Salmonella is an important poultry pathogen with zoonotic potential. Being a foodborne pathogen, Salmonella-contaminated poultry products can act as the major source of infection in humans. In India, limited studies have addressed the diversity of Salmonella strains of poultry origin. This study represented 26 strains belonging to Salmonella serovars Typhimurium, Infantis, Virchow, Kentucky, and Agona. The strains were tested for resistance to 14 different antimicrobial agents using the Kirby-Bauer disk-diffusion assay. The presence of the invA, hilA, agfA, lpfA, sopE, and spvC virulence genes was assessed by polymerase chain reaction (PCR), and the genetic diversity was assessed by Enterobacterial Repetitive Intergenic Consensus Polymerase Chain Reaction (ERIC-PCR). The highest resistance to tetracycline (n = 17; 65.38%) followed by nalidixic acid (n = 16; 61.53%) was detected among the strains. Among the strains (n = 17) phenotypically resistant to tetracycline, 94% (n = 16) were also positive for the tetA gene. Based on the presence of virulence genes, the strains were characterized into three virulence profiles (PI, P2, and P3). Among the investigated virulence genes, invA, hilA, agfA, and lpfA were present in all strains. The sopE gene was mostly associated with serovars Virchow (n = 3; 100%) and Typhimurium (n = 8; 80%), whereas spvC gene was exclusive for two Typhimurium strains that lacked sopE gene. ERIC-PCR profiling indicated clusters correlating their serovar, geographical, and farm origins. These results demonstrate that Salmonella isolates with a wide genetic range, antibiotic resistance, and virulence characteristics can colonize poultry. The presence of such strains is crucial for both food safety and public health.

Isolation and characterization of vB_SenS_Ib_psk2 bacteriophage against drug-resistant Salmonella enterica serovar Kentucky.

Salmonella enterica serovar Kentucky is one of the food-borne zoonotic pathogens which is isolated in high frequency from poultry meat in the recent decades and is known for its multidrug resistance. The current study was aimed to isolate and characterize a bacteriophage against S. enterica serovar Kentucky isolate, 5925, which showed resistance to at least seven antibiotics and to study its efficiency to decontaminate S. Kentucky from chicken skin. The bacteriophage against S. enterica serovar Kentucky was isolated and was named vB_SenS_Ib_psk2 representing the place, source, and host. Electron microscopy revealed that the phage possesses isometric head and contractile tail, indicative of Siphoviridae family. Molecular detection of major capsid protein E gene yielded 511 bp, and NCBI blast analysis revealed that the phage belonged to the genus chivirus. The optimum temperature and pH for phage survival and multiplication were found to be - 20 to 42 °C and 6-10, respectively. One-step growth curve experiment of vB_SenS_Ib_psk2 revealed a latent period of 20 min and burst size of 253 phages/bacterial cell. The host susceptibility studies revealed that 83% of MDR isolates of S. enterica were susceptible to vB_SenS_Ib_psk2. Artificial spiking studies on chicken skin revealed that high multiplicity of infection (MOI) of phages of 106 pfu/mL is required for significant reduction (p ≤ 0.01) of bacterial concentration (0.14 ± 0.04) after 24-h incubation at 8 °C compared to group 1 (2.55 ± 0.89 cfu/mL).

Isolation and characterization of bacteriophage Ib_pec2 against shigatoxigenic Escherichia coli.

This study was aimed to isolate and characterize bacteriophage against drug-resistant, shigatoxigenic Escherichia coli (STEC), one of the zoonotic, food-borne organisms associated with ruminants, mainly cattle. STEC were isolated (n = 35) from neonatal calves, dairy workers, and the surrounding environment and their antimicrobial resistance pattern was studied. Out of the 35 isolates tested, 17 isolates were found to be multidrug resistant to important antibiotics like ampicillin, amoxicillin-clavulanate, ciprofloxacin, streptomycin, and tetracycline. Bacteriophage namely Ib_pec2 was isolated against one of the STEC isolates and its morphology, genetic and proteomic characterization was done. Morphological analysis by TEM revealed bacteriophages belonging to myoviridae family. The genetic characterization of g23 gene revealed that the bacteriophage belonged to Tequatrovirus of myoviridae family. Proteomic analysis was able to identify five proteins identical to Tequatrovirus of myoviridae family. One-step growth curve experiment revealed a latency period of 40 min and a burst size of 893 pfu/bacteria. Temperature and pH ranging from 40°C to 50°C, pH 6-8, respectively. Phage could able to lyse majority of the STEC isolates. STEC are commensal organisms in the gastrointestinal tract of ruminants but are pathogenic in humans. Bacteriophages can be used as alternatives to antibiotics to control bacterial growth in ruminants and prevent its further spillage in the environment.

A comparative genomics approach for identifying genetic factors in Escherichia coli isolates associated with bovine diseases.

AIMS: E. coli are ubiquitously present bacterial pathogens that cause septicaemia, diarrhoea and other clinical illness in farm animals. Many pathogen factors can be associated with disease conditions. Currently, studies inferring E. coli genetic factors associated with infection in bovines are limited. Hence, the present study envisaged to determine the pathogen genetic factors associated with bovine disease conditions. METHOD AND RESULTS: The comparative genomic analysis involved genome sequence data of 135 diseased and 145 healthy bovine origin E. coli strains. Phylogroups A and C, as well as pathotypes ExPEC and EPEC, were found to have a strong connection with bovine disease strains. STEC strains, including EHEC, seem to play a less important role in bovine disease. Sequence types (STs) predominant among strains from diarrhoeal origin were ST 301 (CC 165) and ST 342. Correlation of core genome phylogeny with accessory gene-based clustering, phylogroups and pathotypes indicated lineage-specific virulence factors mostly associated with disease conditions. CONCLUSIONS: Comparative genomic analysis was applied to infer genetic factors significant in bovine disease origin E. coli strains. Isolates from bovine disease origin were enriched for the phylogroups A and C, and for the pathotypes ExPEC and EPEC. However, there was minimal evidence of STEC involvement. The study also indicated predominant genetic lineages and virulence genes (pap, sfa and afa) associated with disease origin strains. SIGNIFICANCE AND IMPACT OF STUDY: The study revealed significant pathotypes, phylogroups, serotypes and sequence types associated with bovine disease conditions. These identified genetic factors can be applied for disease diagnosis, implementing vaccines and therapeutic measures. In addition, E. coli isolates from the bovine species revealed a complex pattern of disease epidemiology.

Antimicrobial resistance in Indian isolates of non typhoidal Salmonella of livestock, poultry and environmental origin from 1990 to 2017.

A retrospective antimicrobial resistance study of nontyphoidal Salmonella enterica isolates from India during 1990-2017 was conducted to study the microbial susceptibility to antibiotics. A total of 271 Salmonella enterica isolates from poultry (n = 146), farm animals (n = 55) and environmental sources (n = 70) were tested for susceptibility using 15 antimicrobial drugs. The drug classes include aminoglycosides, phenicols, cephalosporins, penicillins, carbapenems, fluoroquinolones, and sulphonamide-trimethoprim. Study revealed that overall, 133 (49.08%) of 271 isolates were resistant to ≥ 1 antimicrobial drugs and 81 (29.89%) out of 271 isolates were multidrug resistant (resistance to ≥ 3 drugs). Majority (68.96%) of Typhimurium serovars (n = 87) were susceptible to all antibiotics tested, whereas only 5% Kentucky serovars (n = 40) were pan susceptible. All the drugs revealed decreasing trend of susceptibility from 1990 towards 2017 except cephalosporins and carbapenems. Statistical analysis of association between time period and antimicrobial resistance revealed a significance of < 0.05. Molecular detection of genetic determinants associated with antimicrobial resistance revealed the presence of genes like class I integrons, sul1, sul2, catIII, cmlA, dfrA, blaTEM, blaAmpC in the resistant isolates. Furthermore, plasmid mediated quinolone resistant determinants like qnrD and qnrS were also reported in the current study.

Detection of novel sequence types and zoonotic transmission potentiality among strains of Shiga toxigenic Escherichia coli (STEC) from dairy calves, animal handlers and associated environments.

Shiga toxigenic Escherichia coli (STEC) is one of the most important food-borne zoonotic bacterial pathogens responsible for causing gastrointestinal infections, haemorrhagic colitis and haemolytic uremic syndrome. The present study was aimed to isolate and characterize STEC from neonatal dairy calves, animal handlers and their surrounding environment and to establish the genetic relationship among isolates by multilocus sequence typing (MLST). A total number of 115 samples were collected and processed for the isolation of E. coli. The occurrence rate of E. coli was 92.2% (106/115), of which, 18 were typed as STEC. Antibacterial susceptibility analysis revealed 11 (61.1%) strains as multiple drug-resistant (MDR). MLST analysis has delineated 16 sequence types (STs) including nine novel STs. Among STs, ST58 dominated with three strains and was recovered from the environment and neonatal calves. Strains from neonatal calves and humans showed genetic relatedness with significant bootstrap support values indicative of zoonotic transmission potentiality. Analysis of 211 global isolates belonging to 61 STs indicated predominant STs (ST 21, ST 33 and ST 3416) that can be either host-specific (ST 33 and ST 3416) or can be shared among human and bovine hosts (ST 21). The MLST analysis indicates genetic relatedness among isolates and the results predispose inter-host transmission and zoonotic spread.

Serological and molecular study of Leptospira in pediatric patients at a tertiary care centre of northern India.

Leptospirosis is considered as one of the most neglected zoonotic tropical diseases. Animals and humans acquire this infection through direct contact with contaminated urine or body fluids of infected animals. This prospective study was undertaken to know the proportion of leptospirosis in pediatric patients presented with acute febrile illness at the Post Graduate Department of Microbiology, King George's Medical University, Lucknow, Uttar Pradesh. Blood samples were collected over a period of one year from January to December 2018 from 70 pediatric patients aged up to 0-12 years presented with febrile illness for 3-14 days. Out of the 70 samples, 7 (10%) samples were found positive by IgM ELISA, 4 (5.7%) samples were positive by MAT and 3(4.3%) were found positive by PCR. Risk factors such as contact with infected animals and contaminated environment were highly associated with seropositivity of leptospirosis. Clinical symptoms such as fever, chills, myalgia, headache, abdominal pain and cough were significantly associated (p < 0.05) with the seropositivity of leptospirosis.

Multilocus sequence typing of Clostridium perfringens strains from neonatal calves, dairy workers and associated environment in India.

Clostridium perfringens is a globally recognized zoonotic pathogen. We report isolation and genotyping of C. perfringens from neonatal calves, dairy workers and their associated environment in India. A total of 103 fecal samples from neonatal calves, 25 stool swabs from the dairy workers and 50 samples from their associated environment were collected from two dairy farms. C. perfringens was detected in 26 out of 103 (25.2%) neonatal calf samples, 7 out of 25 (28%) human stool samples and 17 out of 50 (34%) environmental samples. C. perfringens type A strains were predominant in neonatal calves (24/26; 92.3%) and associated environment (15/17; 88.2%). In contrast, strains from dairy workers mostly belonged to type F (5/7; 71.4%), which also carried the beta2 toxin gene. Seventeen strains were analyzed by multilocus sequence typing (MLST) for studying genotypic relationship along with 188 C. perfringens strains available from public databases. A total of 112 sequence types (STs) were identified from 205 C. perfringens strains analyzed. A Clonal complex (CC) represented by three STs (ST 98, ST 41 and ST 110) representing predominantly type F (18/20 strains) were mostly associated with human illnesses. Among predominant STs, ST 54 was associated with enteritis cases in foals and dogs and ST 58 associated with necrotic enteritis in poultry. Seventeen Indian strains were assigned to 13 STs. Genetic relatedness among strains of calves, dairy worker and associated environments indicate inter-host transfers and zoonotic spreads.

Deciphering type-specific neutralizing antibodies to bluetongue virus in goats of Andaman and Nicobar Islands, India.

The presence of antibodies to bluetongue virus (BTV) and the viral antigen is reported recently from the Andaman and Nicobar Islands, a group of islands at the juncture of the Bay of Bengal and the Andaman Sea. A retrospective study was conducted to investigate the presence of neutralizing antibodies to different BTV serotypes in the seroconverted goats of the Islands. Thirty six samples out of 186 serum samples tested were selected on the basis of high antibody titre as predicted in an indirect ELISA. Each of the selected serum samples was used for neutralization of six BTV serotypes (BTV-1, BTV-2, BTV-9, BTV-10, BTV-16 and BTV-23), the most commonly reported serotypes in India. Out of 36 serum samples used in the neutralization study, neutralizing antibodies could be determined in 15 samples. The neutralizing antibodies to BTV-10 were found in more number of the serum samples followed by BTV-1, BTV-2 and BTV-23 and BTV-9 and BTV-16. Many of the serum samples could neutralize more than one BTV serotypes indicating possible widespread superinfections by multiple BTV serotypes in goats in the Islands. Majority of the serum samples used in the neutralization study could not neutralize any of the six BTV serotypes commonly reported from India indicating possible circulation of other BTV serotypes yet to confirm. The present study reveals circulation of multiple BTV serotypes in Andaman and Nicobar Islands where there was no such report available earlier. The findings are laudable as the baseline information for further investigations to identify and characterize the virus and competent vectors and for implementing appropriate suitable control strategies for bluetongue in the Islands and the nearby territories.