Background: Many protective proteins, including lactoferrin and heavy chain antibodies, are present in camel colostrum, giving it a distinctive composition. Beyond a broad spectrum of pathogens, these proteins demonstrate antibacterial properties.
Aim: The current research assessed the prophylactic properties of camel colostrum against Escherichia coli F17.
Methods: A microbroth dilution method was employed to assess the efficacy of camel colostrum, whereas a crystal violet assay was utilized to determine its antibiofilm potential. Extracellular deoxyribonuclease acid (eDNA) release, swarming, and swimming motilities were also examined.
Results: Showed that camel colostrum significantly reduced E. coli-F17 growth by 70% and above at different incubation periods (6-24 hours). The rate of cell attachment gradually decreased from approximately 40% to 24% as the concentration increased from 12.5 to 50 mg/ml. E. coli-F17 developed a biofilm at a rate of 54.8% when exposed to 50 mg/ml of camel colostrum. In contrast, the greatest level of biofilm formation against the tested bacteria (94%) was observed at a concentration of 1.5 mg/ml. A halo zone of camel colostrum ranging from 10 to less than 30 mm at concentrations between 6 and 50 mg/ml also inhibited swimming and swarming capabilities. The treated cells yielded no eDNA.
Conclusion: According to these results, camel colostrum inhibits the growth of E. coli-F17 by impeding the swarming and swimming motilities, and biofilm formation. Additionally, camel colostrum incubation with E. coli-F17 diminishes eDNA. To evaluate the potential protective effects of camel colostrum in an animal model, additional research is recommended.
Keywords: Biofilm; Calf diarrhea; Camel colostrum; Diarrheagenic bacterial pathogen; eDNA.