['Cephalopods were proved to process epithelial acid-base regulatory machinery; however, its evo-devo bases for extracellular pH homeostasis are still poorly understood. In this study, we used embryos of cuttlefish, Sepia pharaonis, to examine integrative expressions of, neurohypophysial hormones (pro-sepiatocin and sepiatocin) and its possible receptor (sepiatocin-related receptor, spr) under CO2-induced acidification. Intact resting respiration data showed that S. pharaonis embryos, whose gills were well developed in stage 24 and stage 28, were capable of surviving under CO2 perturbations as low as to pH7.6 and pH7.0, respectively. In addition, RNA in situ hybridization images indicated that spr2 were expressed in embryonic epithelium and adult gills, the dominant sites for acid-base regulation and pro-sepiatocin and sepiatocin were expressed on the optic lobes. Sepiatocin related genes were found to be upregulated accompanied with those stimulated genes for epithelial acid-base regulation (e.g. nbc, nhe3, rhp and nka) in CO2-acidified condition; moreover, the gill perfusion proved pro-sepiatocin can directly increase the excretion of proton and ammonium. In conclusion, the present work inferred that the promptly activations of sepiatocin and spr might be involved in operating epidermal ion fluxes; accordingly, in order to cope with acid-base disturbances during their oviparous development, cephalopod embryos have evolved sophisticated evolution pathway regarding epithelium differentiation and neurohypophysial hormones regulation.']