Plants can detect the surrounding environmental signals and change their physiological metabolism, growth, and development accordingly. The interactions between light and various hormones are necessary for controlling plant photomorphogenesis. During the seedling stage, FAR-RED INSENSITIVE 219 (FIN219) participates in far-red (FR) light signal transduction regulated by phytochrome A (phyA) and is an important regulator involved in jasmonate responses. Far-Red Elongated Hypocotyl 1 (FHY1) is a positive regulator of FR light signal transduction and also plays a vital role in regulating nuclear accumulation and export of phyA. Previous studies showed the interaction between FIN219 and FHY1 under FR light. However, there are still some unclear points about the detailed molecular mechanisms underlying their relationships with JA. Here, we found that the presence of FHY1 promotes the accumulation of FIN219 phosphorylated by PHYA in the cytoplasm and that the phosphorylated FIN219 may be more physiologically active. FHY1 promotes jasmonic acid (JA) reaction and JA responsive gene expression through the phosphorylated FIN219 to enhance the inhibition of hypocotyl elongation. At the same time, it promotes the expression and accumulation of HY5 in the nucleus, leading to the short hypocotyl. In addition, Co-immunoprecipitation (Co-IP) data show that FIN219 interacts with FHY1 and PHYA under low far-red light. In summary, FHY1 can promote the stability of FIN219 phosphorylation by PHYA, induce the signal transduction of light and JA, and inhibit the growth of hypocotyls in Arabidopsis.