Cloning and heterologous expression of hyaluronidase and/or novel toxins obtained from the transcriptome of Tityus serrulatus\' venom gland

The venom hyaluronidases of animals are able to cleave hyaluronan present in the extracellular matrix, acting as a spreading factor for the toxins into the tissues of the victim. These enzymes have been neglected due to their instability and low concentration in the venom. Thus, heterologous expression of hyaluronidases permits the obtainment of sufficient amount for structural and functional studies. Moreover, the transcriptome allows the identification of new toxins or components with low proportion in the venom. In this way, this study aimed the construction of the transcriptome of Tityus serrulatus venom gland and cloning/heterologous expression of hyaluronidase. In the transcriptome, 558 ESTs were identified and 61.8% corresponded to toxins, such as neurotoxins with action on ion channels, metalloproteins, hypotensins, antimicrobial peptides, among others. In addition, new toxins were identified, comprising one neuropeptide and Ts16.1, described for the first time to the genus Tityus. Among the obtained transcripts, one identified clone corresponded to an incomplete C-terminal of a hyaluronidase. Consequently, a synthetic gene was synthesized containing the sequence of TsHyal-1 (obtained from databases) in the pPICZ?A vector for heterologous expression in P. pastoris. The rTsHyal-1 was expressed at laboratorial scale in unsupplemented medium (BMM) at pH 7.0 for 96 h, after induction time, with daily feeding of 0.75% methanol. The rTsHyal-1 was produced in soluble and active form (838.31 UTR/mg) and resulted in a protein yield of 0,266 mg/mL in final expressed material. Besides, the secretome of the medium showed that P. pastoris also secretes native proteins bound with ATP, proteins related to carbohydrate metabolism and oxidative stress response. The rTsHyal-1 was partially purified in a weak cation exchange and presented specific activity of 1097.45 UTR/mg. The rTsHyal-1 has molecular mass of 49.5 kDa and the treatment with PNGase F and analysis by mass spectrometry (MALDI-TOF) indicated a potential N-glycosylation of 4.5 kDa. Additionally, the sequencing of tryptic digests performed in the MALDI-TOF and Q-Exactive resulted in 46.8% of protein sequence coverage. The rTsHyal-1 presents substrate specificity for hyaluronan followed by chondroitin C, A and B and showed an optimum activity at pH 6.0 and 40°C. Furthermore, the MTT assay indicated that the recombinant enzyme does not display in vitro cytotoxicity. These results validate the biotechnological process of the heterologous expression of rTsHyal-1. This is the first recombinant hyaluronidase from scorpions expressed in P. pastoris system with enzymatic activity preserved. (AU)