High-yield production of spider short-chain insecticidal neurotoxin Tx4(6–1) in Pichia pastoris and bioactivity assays in vivo

Abstract

Short-chain insecticidal neurotoxin Tx4(6–1) from the spider Phoneutria nigriventer can be prepared by reversed-phase high-performance liquid-chromatography (HPLC) fractionation of PhTx4, but this is difficult and represents an obstacle preventing analyses of its insecticidal activity against agricultural insect pests. Herein, we performed secretory expression of recombinant Tx4(6–1) using Pichia pastoris strain X33 as the host, and screened transformants using enzyme-linked immunosorbent assay (ELISA). In flasks, ∼5 mg/l rTx4(6–1) was expressed as a secreted protein following induction with methanol, and this was increased to 45 mg/l rTx4(6–1) in a fed-batch reactor. Approximately 4 mg of high-purity rTx4(6–1) was purified from a 400 ml fed-batch culture supernatant by Ni+-nitriloacetic acid affinity chromatography, followed by carboxymethyl (CM) sepharose ion-exchange chromatography. Purified rTx4(6–1) was determined by mass spectrometry (MS) analysis, revealing a molecular weight (MW) of 7660.5 Da, larger than the expected size due to O-linked glycosylation. Insect bioactivity tests of rTx4(6–1)-treated fifth-instar silkworm larvae (Bombyx mori Linnaeus) showed neurotoxin symptoms such as contraction paralysis, abdominal contraction, and mouth movement syndrome, with a half lethal dose at 12 h post-injection of ∼4.5–8.5 μg/g body weight. Dietary toxicity was not observed in silkworm larvae.