Expression of the Biologically Active Insulin Analog SCI-57 in Nicotiana Benthamiana.

Adriana Muñoz-Talavera,Abraham Escobedo-Moratilla,Katharina Lim,Luis A Salazar-Olivo,Ana Rosa Rincón-Sánchez,Alberto Cristian López-Calleja,María Cristina Islas-Carbajal,Jörg Reinders,Miguel Ángel Gómez-Lim

doi:10.3389/fphar.2019.01335

Abstract

Diabetes mellitus is a growing problem worldwide; however, only 23% of low-income countries have access to insulin, and ironically it costs higher in such countries than high-income ones. Therefore, new strategies for insulin and insulin analogs production are urgently required to improve low-cost access to therapeutic products, so as to contain the diabetes epidemic. SCI-57 is an insulin analog with a greater affinity for the insulin receptor and lower thermal degradation than native insulin. It also shows native mitogenicity and insulin-like biological activity. In this work, SCI-57 was transiently expressed in the Nicotiana benthamiana (Nb) plant, and we also evaluated some of its relevant biological effects. An expression plasmid was engineered to translate an N-terminal ubiquitin and C-terminal endoplasmic reticulum-targeting signal KDEL, in order to increase protein expression and stability. Likewise, the effect of co-expression of influenza M2 ion channel (M2) on the expression of insulin analog SCI-57 (SCI-57/M2) was evaluated. Although using M2 increases yield, it tends to alter the SCI-57 amino acid sequence, possibly promoting the formation of oligomers. Purification of SCI-57 was achieved by FPLC cation exchange and ultrafiltration of N. benthamiana leaf extract (NLE). SCI-57 exerts its anti-diabetic properties by stimulating glucose uptake in adipocytes, without affecting the lipid accumulation process. Expression of the insulin analog in agroinfiltrated plants was confirmed by SDS-PAGE, RP-HPLC, and MS. Proteome changes related to the expression of heterologous proteins on N. benthamiana were not observed; up-regulated proteins were related to the agroinfiltration process. Our results demonstrate the potential for producing a biologically active insulin analog, SCI-57, by transient expression in Nb.

Highlights

Diabetes is a public health problem, as it has been estimated that the number of patients with diabetes in 2040 will be 642 million, representing 10% of world population (Ogurtsova et al, 2017).In order to manage the autoimmune destruction of insulinproducing pancreatic beta cells in type 1 diabetes (DM1), it is necessary to administer insulin via lifelong daily injection
It was essential to ascertain that pro-vector assembly was carried out correctly, and that the transient expression of recombinant proteins in N. benthamiana was not affected by external factors
The results presented here show that N. benthamiana plants are capable of producing a biologically active insulin analog; SCI-57

Summary

Introduction

Diabetes is a public health problem, as it has been estimated that the number of patients with diabetes in 2040 will be 642 million, representing 10% of world population (Ogurtsova et al, 2017).In order to manage the autoimmune destruction of insulinproducing pancreatic beta cells in type 1 diabetes (DM1), it is necessary to administer insulin via lifelong daily injection. New strategies for insulin and insulin analog production are urgently required, in order to increase the availability of therapeutic products for containing the diabetes epidemic. The average insulin cost increased three-fold from 2002 to 2013, with availability and rising costs having an impact on diabetes patients and health systems worldwide (Hua et al, 2016). For these reasons, the study of new platforms for the expression of insulin and insulin analogs costs is of utmost importance

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