Enterotoxigenic Escherichia coli (ETEC), Shigella, and Campylobacter have been identified as major causes of diarrheal diseases worldwide. In addition to overt disease and death, they are responsible for stunting in children with the risk of lifelong consequences on health and economic opportunities. All three of these bacterial pathogens, which collectively account for approximately 30 % of the cases of diarrheal diseases, are recognized as antimicrobial resistance (AMR) threats. In spite of the dangers these pathogens represent for both children and adults, there is as yet no licensed vaccine available for any of them. Fortunately, much has been accomplished to identify conserved antigens against each of these pathogens so that now relatively simple vaccines have the potential to be developed into multi-pathogen vaccines which could have a major impact on reduction of diarrheal diseases. Conserved antigens may be used even more efficiently if consolidated and expressed on a cellular vector or as part of a conjugate vaccine. A new mucosal adjuvant, double mutant heat-labile toxin (dmLT), has been shown to not only be among the conserved antigens against ETEC, but to also have properties which drive robust mucosal and systemic immune responses for antigens given orally or intramuscularly. Conserved antigens and the strategies for their use such as co-administration with dmLT will be presented in this review.