Physiological adaptation explains the insensitivity of Baris coerulescens to transgenic oilseed rape expressing oryzacystatin I

Larvae of Baris coerulescens Scop. (Coleoptera: Curculionidæ) exhibit a complex array of gut proteinase activities comprising cysteine and serine proteinases. The major cysteine proteinase activity, showing an optimum at pH 6.0, corresponds to at least 4 different proteinases. On the contrary, the minor serine proteinase activity, with an optimum at pH 9.0, seems to be due essentially to a single proteinase. The cysteine proteinase inhibitor oryzacystatin I (OC-I) inhibits completely the cysteine proteinase activity in vitro. However, larval growth and survival were not significantly different on control and transgenic oilseed rape plants expressing high levels of active OC-I. In larvae grown on transgenic plants, cysteine proteinase activity was dramatically decreased, whereas serine proteinase activity was increased by more than 2-fold, when compared to larvae raised on control plants. For both activities, no new proteinase was detected in insects fed plants expressing OC-I. These results suggest that partial compensation of the inhibition of cysteine proteinase activity by the increase in serine proteinase activity allowed the larvae to overcome the effects of OC-I consumption. This case illustrates problems that could arise when trying to achieve high levels of protection for plants against Coleopteran pests possessing a complex digestive proteinase pool.