Plants were often suffered from many biotic and abiotic stresses such as mechanical wounding and insect herbivores. Plants protect themselves by several defense responses. Sucrose is the major product of photosynthesis. It is involved in many metabolic regulatory pathways and plays an important role in the plant defense responses as signaling molecule. Rice leaffolder [Cnaphalocrocis medinalis (Guenée)] is one of chewing insects. It attacks rice plants by folding leaves and scraping the mesophyll tissues. In this study, we found that after fourth-instar larvae feeding, sucrose contents were decreased in the leaf damaged by leaffolder but increased in developing leaf. Thus, it was suggested that sucrose translocation from damaged leaf to developing sink tissues may be promoted in leaffolder-attacked rice plants. Sucrose transporters (SUT) is the key factor in charge of sucrose loading and unloading in phloem for long-distance translocation in plants. Gene expressions of OsSUT4, a rice SUT gene family member, were significantly induced in leaffolder infestated leaves, but the changes of transcript levels in other leaves were not significant. Rice leaffolder infestation induced jasmonic acid, salicylic acid, abscisic acid and ethylene biosynthesis gene expressions in rice seedlings. Hydrogen peroxide were also accumulated in wounded leaves. Furthermore, leaffolder-induced OsSUT4 gene expressions in leaf tissues would be repressed by inhibitors of jasmonic acid, abscisic acid and hydrogen peroxide biosynthesis. Taken together, the aforementioned results suggested that OsSUT4 gene expression induced by leaffolder infestation was mediated jasmonic acid, abscisic acid or hydrogen peroxide as signalings.