Development of protective egg yolk immunoglobulins (IgY) targeting CfaB, LTB, and EtpA recombinant proteins of Enterotoxigenic Escherichia coli (ETEC) for inhibiting toxin activity and bacterial adherence.

Enterotoxigenic Escherichia coli (ETEC) stands as a prevalent bacterial cause of global diarrheal incidents. ETEC's primary virulence factors encompass the B subunit of the Heat Labile Enterotoxin, along with the adhesion factors CfaB and EtpA. In this study, we isolated IgY antibodies against the three virulence factors individually, in pairs, and as triple cocktails. The in vitro efficacy of these IgY antibodies was examined, focusing on inhibiting heat-labile enterotoxin (LT) toxin cytotoxicity and impeding ETEC adherence to HT29 cells. Assessing the impact of IgY-treated bacteria on intestinal epithelial cells utilized the standard ileal loop method. Results demonstrated that the anti-LTB IgY antibody at 125 µg/ml and IgY antibodies from double and tertiary cocktails at 200 µg/ml effectively inhibited LT toxin attachment to the Y1 cell line. Pre-incubation of HT29 intestinal cells with specific IgYs reduced bacterial attachment by 59.7%. In the ileal loop test, toxin neutralization with specific IgYs curtailed the toxin's function in the intestine, leading to a 74.8% reduction in fluid accumulation compared to control loops. These findings suggest that egg yolk immunoglobulins against recombinant proteins LTB, CfaB, and EtpA, either individually or in combination, hold promise as prophylactic antibodies to impede the functioning of ETEC bacteria.