Phytophagous insects do not constantly chew their diets; most of their time is spent in a non-feeding quiescent state even though they live on or around their diets. Following starvation, phytophagous insect larvae exhibit enhanced foraging behaviors such as nibbling and walking similar to the sequential behavior that occurs prior to each meal. Although extensive physiological studies have revealed regularly occurring feeding behaviors in phytophagous insects, little has been elucidated regarding the mechanism at the molecular level. Here, we report identification and characterization of a novel 62-amino acid peptide, designated as hemolymph major anionic peptide (HemaP), from the hemolymph of Bombyx mori larvae that induces foraging behaviors. The endogenous HemaP levels are significantly increased by diet deprivation, whereas refeeding after starvation returns them to basal levels. In larvae fed ad libitum, hemolymph HemaP levels fluctuate according to the feeding cycle, indicating that locomotor-associated feeding behaviors of B. mori larvae are initiated when HemaP levels exceed an unidentified threshold. Furthermore, administration of exogenous HemaP mimics the starvation-experienced state by affecting dopamine levels in the suboesophageal ganglion, which coordinates neck and mandible movements. These data strongly suggest that fluctuation of hemolymph HemaP levels modulates the regularly occurring feeding-motivated behavior in B. mori by triggering feeding initiation.Phytophagous insects do not constantly feed; rather most of their time is spent in a quiescent non-feeding state even though they live on or around their diets. This means that despite continuous stimulation by host plant chemicals, the trigger for phytophagous insects to switch from quiescent state to the initiation of feeding behaviors is host plant independent. It is clear that phytophagous insects alternate between feeding and quiescent non-feeding states based on their dietary intake. These repetitive changes from feeding state to the quiescent state and back generate feeding cycles. Recently, we demonstrated that the silkworm, Bombyx mori, a monophagous, phytophagous lepidopteran, has a regular feeding cycle of about 2 h (1). Similar cyclic feeding rhythms are also observed in other phytophagous insects such as locusts (2, 3) and caterpillars (4 -6). This suggests that, cyclic feeding behavior might be a conserved phenomenon among phytophagous insects. It also implies that some endogenous system strictly regulates the initiation and termination of feeding in phytophagous insects (7,8).In the case of B. mori larvae, the probability of feeding initiation (hereafter referred to as feeding motivation) drastically increases about 1 h post feeding from the previous meal (1). In addition, B. mori larvae exhibit repetitive feeding behavioral cycles independent of circadian rhythms (1, 9), unlike other phytophagous lepidopteran species, which have feeding cycles that are influenced by other general factors, such as circadian rhythms and visual li...
