ABSTRACT
Background: Avian pathogenic Escherichia coli (APEC) causes colibacillosis and septicemia; in certain cases, mortality leads to economic losses and elicits potential foodborne zoonotic risk. The study aimed to determine the prevalence of APEC pathotypes and serotypes in poultry, followed by characterization for virulence markers and antibiotic sensitivity and analysis of lytic efficacy of bacteriophages in the eradication of APEC. Methods: We successfully isolated and characterized 34 E. coli isolates from poultry farms. The lytic efficacy of seven bacteriophages, as well as a phage cocktail, was evaluated for biological control of multiple drug resistance (MDR) APEC. Results: A total of 67.65% of isolated E. coli were APEC. A total of 94.11% of the isolates were multidrug-resistant bacteria harboring virulence genes. The lytic ability of seven bacteriophages ranged from 0.98% to 36.76%, with a cocktail of EscoΦA-06 and ΦA-07 exhibiting lysis of 48.04% isolates. Conclusion: As serological variability in APEC limits the application and development of vaccines, the findings support the employment of bacteriophages against elimination of MDR APEC in poultry settings.
ABSTRACT
Background and Aim: The Indian and global poultry industries suffer significant economic losses due to Mycoplasma gallisepticum (MG) and Mycoplasma synoviae (MS) infections, which adversely affect egg production, hatchability, weight gain, and feed efficiency in farms, thus decreasing the overall production efficiency. This study aimed to determine the percent positivity and phylogenetic analysis of MG, MS, and co-infection of both mycoplasmas in commercial poultry farms across different states of India from 2017 to 2021. Materials and Methods: A total of 3620 tracheal or choacal swabs were collected from breeder and layer farms showing clinical signs of avian mycoplasma infections from commercial poultry farms across India, and the percent positivity for MG, MS, and co-infection of both mycoplasmas were determined by Polymerase chain reaction using the 16S rRNA and vlhA genes amplification, respectively. Phylogenetic analysis was carried out by sequencing the mgc2 and vlhA genes of 2 samples of MG and 24 samples of M. synoviae to gain insight into the genetic variability of Indian strains. The data were then compared with other Indian strains, vaccines strains, and strains from other countries. Results: Our data shows the percent positivity of MG, MS, and co-infection of both MG and MS was 6.43%, 23.61%, and 15.49%, respectively. The phylogenetic relationship between MG and MS was determined using the vlhA and mgc2 genes, revealing two samples of MG and 24 samples of MS clustered with other Indian strains. M. synoviae MSM22 and previously studied M. synoviae MGS 482 clustered with vaccine strain M. synoviae MS-H. Conclusion: Mycoplasma synoviae infections in breeder, layer, and in both is predominant compared to MG across the states investigated in India. Sequenced samples of MG and MS showed evolutionary relationships with the previously studied Indian strains of MG and MS. These findings support our view that monitoring chickens for avian mycoplasma infections are of paramount significance. It further lends credence to the contention that such information will pave the way for the development of a home-grown vaccination control program and thus safeguard the poultry sector against mycoplasma infections.