Plants have developed various defense mechanisms, including using phytohormones to adapt stress conditions. Under abiotic stresses such as drought and salt stress, abscisic acid (ABA) is the major phytohormone in regulating the stress tolerance of plants. In addition to ABA, jasmonic acid (JA) and ethylene also participate in drought and salt stress responses. FIN219 (FAR-RED INSENSITIVE 219), also known as JAR1 (JASMONIC ACID RESISTANT 1), is an enzyme that conjugates JA with isoleucine (Ile) and leads to the formation of JA-Ile, an active form of JA. Our previous microarray data showed that several ERF (ETHYLENE RESPONSIVE FACTOR) transcription factors were affected by FIN219/JAR1. Moreover, ERFs mainly functioned in stress responses. These findings imply that FIN219 may participate in osmotic and salt stress responses through regulating ERFs. Besides, HY5 (ELONGATED HYPOCOTYL 5) has been reported to bind to the promoters of ERF4 and ERF11, which suggests the involvement of HY5 in the FIN219-ERF signaling network. This study shows that the mutation of HY5 decreases the resistance of plants to salt and drought stresses and affects the levels of FIN219. Moreover, HY5 and ERF15 mRNA levels and FIN219 protein levels increase under ABA treatment. It seems that the FIN219-HY5-ERF signaling network is regulated by ABA under stresses since their protein levels and phenotypes are influenced by ABA, salt and mannitol treatments. On the other hand, we further establish the inducible HY5 and ERFs overexpression (OE) lines to examine their physiological functions under stresses. The results indicate that ERF11 negatively and ERF15 positively regulates osmotic and salt stresses tolerance of plants. Further co-immunoprecipitation (Co-IP) assay shows that protein-protein interaction exists between HY5 and ERF15. In conclusion, our work reveals that the FIN219-HY5-ERF signaling may serve as a module to regulate stress responses in Arabidopsis.