More and more signaling peptides have been discovered to participate in plant defense through stimulating jasmonate (JA) signaling pathway that activates defense genes and enhances the production of secondary metabolites. However, little is known pertaining to the role of peptides in hairy root cultures accumulating secondary metabolites. In this study, tomato hairy roots were first established. Afterwards, tobacco hairy roots were used as the study model to screen out peptides that could affect nicotine content. Based on the screening procedure established in tobacco hairy roots, a screening procedure for the tomato hairy root targeting its metabolite, tomatine, was subsequently developed. Through this process, we found nicotine content elevated by 0.1 µM MeJA but decreased significantly after the addition of tobacco or tomato systemin. Tomatine content decreased by 20% in comparison with that in 0.1 µM MeJA after the addition of tomato systemin or flg22. These results demonstrate that in both tobacco and tomato hairy root cultures, the addition of specific peptides gave rise to a negative effect of 0.1 µM MeJA on accumulating secondary metabolites, suggesting an antagonistic effect between 0.1 µM MeJA and peptides.