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Investigation of Supercharging As a Strategy to Enhance the Solubility and Plasminogen Cleavage Activity of Reteplase Publisher

Summary: Study confirms supercharged Reteplase variant retains stability & boosts clot-busting activity, but solubility needs further improvement. #Thrombolytic #Biotech

Ghaheh HS1 ; Ganjalikhany MR2 ; Yaghmaei P1 ; Pourfarzam M3 ; Sadeghi HMM4
Authors

Source: Iranian Journal of Biotechnology Published:2020


Abstract

Background: Reteplase, the recombinant form of tissue plasminogen activator, is a thrombolytic drug with outstanding characteristics, while demonstrating limited solubility and reduced plasminogen activation. Previously, we in silico designed a variant of Reteplase with positively supercharged surface, which showed promising stability, solubility and activity. This study was devoted to evaluation of the utility of supercharging technique for enhancing these characteristics in Reteplase. Objective: To test the hypothesis that reinforced surface charge of a rationally-designed Reteplase variant will not compromise its stability, will increase its solubility, and will enhance its plasminogen cleavage activity. Materials and Methods: Supercharged Reteplase coding sequence was cloned in pDest527 vector and expressed in E. coli BL21 (DE3). The expressed protein was extracted by cell disruption. Inclusion bodies were solubilized using guanidine hydrochloride, followed by dialysis for protein refolding. After confirmation with SDS-PAGE and western blotting, extracted proteins were assayed for solubility and tested for bioactivity. Results: SDS-PAGE and western blot analysis confirmed the successful expression of Reteplase. Western blot experiments showed most of Reteplase expressed in the insoluble form. Plasminogen cleavage assay showed significantly higher activity of the supercharged variant than the wild type protein (P < 0.001). The stability of the supercharged variant was also comparable to the wild type. Conclusion: Our findings, i.e. the contribution of the surface supercharging technique to retained stability, enhanced plasminogen cleavage activity, while inefficiently changed solubility of Reteplase, contain implications for future designs of soluble variants of this fibrinolytic protein drug. © 2020 The Author(s); Published by National Institute of Genetic Engineering and Biotechnology.
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