Abstract
Antimicrobial strategies have consistently been a central theme in caries prevention research. Due to their potent antibacterial properties and the potential for multifunctionality through sequence modification, antimicrobial peptides (AMPs) are emerging as promising candidates for anticaries therapeutics. Traditional investigations primarily focused on the broad-spectrum bactericidal efficacy of AMPs to eradicate cariogenic bacteria; however, this approach may inadvertently harm the beneficial oral microbiome. With advancing knowledge of oral microecology, the focus has progressively shifted towards ecological approaches. These strategies aim to selectively modulate cariogenic populations or the disease-associated microbiota while preserving microbial diversity and maintaining ecological balance, as demonstrated in multispecies biofilm models and sequencing-based microbiome analyses. Current innovations include targeting specific pathogens, regulating virulence factors, utilizing bio-responsive mechanisms within the cariogenic microenvironment, and disrupting dental plaque biofilms. This article reviews the current progress and limitations of antimicrobial peptide-based ecological approaches to caries control and offers valuable insights for the future design and optimization of antimicrobial peptides with microecology regulating effects or other promising functions aiding caries prevention.