Molecular tumor targeting of gelonin by fusion with F3 peptide

Ham, Songhee; Min, Kyung Up; Shin, Meong Cheol

doi:10.1038/aps.2017.20

Cited by 29 publications

(25 citation statements)

References 36 publications

(52 reference statements)

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“…The data points from four (rGel ref ) and six (rGel) separate experiments, respectively, were plotted in the same graph page and subjected to sigmoidal regression ( Figure 5 c). The associated IC 50 values of 104.1 pM (rGel ref ) and 65.4 pM (rGel) appears consistent with previous reports on unmodified recombinant gelonin documenting IC 50 values from 7.25 to 185 pM [ 6 , 9 , 11 , 26 , 36 , 37 ] and reveals that our rGel maintains equipotent protein synthesis inhibition activity.…”

Section: Resultssupporting

confidence: 91%

Production of Recombinant Gelonin Using an Automated Liquid Chromatography System

Berstad

Cheung

Weyergang

2020

Toxins

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Advances in recombinant DNA technology have opened up new possibilities of exploiting toxic proteins for therapeutic purposes. Bringing forth these protein toxins from the bench to the bedside strongly depends on the availability of production methods that are reproducible, scalable and comply with good manufacturing practice (GMP). The type I ribosome-inhibiting protein, gelonin, has great potential as an anticancer drug, but is sequestrated in endosomes and lysosomes. This can be overcome by combination with photochemical internalization (PCI), a method for endosomal drug release. The combination of gelonin-based drugs and PCI represents a tumor-targeted therapy with high precision and efficiency. The aim of this study was to produce recombinant gelonin (rGel) at high purity and quantity using an automated liquid chromatography system. The expression and purification process was documented as highly efficient (4.4 mg gelonin per litre induced culture) and reproducible with minimal loss of target protein (~50% overall yield compared to after initial immobilized metal affinity chromatography (IMAC)). The endotoxin level of 0.05–0.09 EU/mg was compatible with current standards for parenteral drug administration. The automated system provided a consistent output with minimal human intervention and close monitoring of each purification step enabled optimization of both yield and purity of the product. rGel was shown to have equivalent biological activity and cytotoxicity, both with and without PCI-mediated delivery, as rGelref produced without an automated system. This study presents a highly refined and automated manufacturing procedure for recombinant gelonin at a quantity and quality sufficient for preclinical evaluation. The methods established in this report are in compliance with high quality standards and compose a solid platform for preclinical development of gelonin-based drugs.

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Section: Resultssupporting

confidence: 91%

Production of Recombinant Gelonin Using an Automated Liquid Chromatography System

Berstad

Cheung

Weyergang

2020

Toxins

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“…Gelonin is a plant-derived N-glycosidase, which inactivates the 60S ribosomal subunit and is known to be unable to cross the cell membrane alone [34,39] . For this, eGFP was replaced with gelonin in the previous construct, yielding Gmono (indicating a monomeric cargo with gelonin) (Figure 4a).…”

Section: A Cytotoxic Protein Delivery Using the Prodrimermentioning

confidence: 99%

Dendrimer-like supramolecular assembly of proteins with a tunable size and valency through stepwise iterative growth

Bae

Kim

Gijeong

et al. 2021

Preprint

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The assembly of proteins in a programmable manner provides insight into the underlying mechanisms of protein self-assembly in nature as well as the creation of novel functional nanomaterials for practical applications. Despite many advances, however, a rational protein assembly with an easy scalability in terms of size and valency remains a challenging task. Here, we present a simple bottom-up approach to the supramolecular protein assembly with a tunable size and valency in a programmable manner. The dendrimer-like protein assembly, called a prodrimer, was constructed using a total of three monomeric proteins: a core and two building-block proteins. The prodrimer generations were grown by a stepwise and alternate addition of a building block using two pairs of orthogonal protein-peptide interactions, leading to a higher-generation prodrimer with a mega-dalton size and multi-valency. The valency of the prodrimers at the periphery was tunable with the generation, enabling a single-step functionalization. A second-generation prodrimer functionalized with a target-specific protein binder showed a three-order of magnitude increase in binding affinity compared to a monomeric counterpart due to the avidity. The prodrimers functionalized with a targeting moiety and a cytotoxic protein cargo exhibited a highly enhanced cellular cytotoxicity, exemplifying their utility as a protein delivery platform. The present approach can be effectively used in the creation of protein architectures with new functions for biotechnological and medical applications.

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“…In TRX-F3-Gel, the active, N-terminal segment of the plant toxin gelonin is targeted by F3, a ligand of nucleolin overexpressed in several tumor cell lineages. The thioredoxin (TRX)-H6 segment, used to enhance solubility and for purification upon recombinant production, is removed in vitro by the Tev protease [84]. In T22-BAK-H6, the human pro-apoptotic BAK is targeted by T22, a ligand of the cell-surface tumor marker CXCR4.…”

Section: Concluding Remarks and Future Perspectivesmentioning

confidence: 99%

Protein-Based Therapeutic Killing for Cancer Therapies

Serna

Sánchez‐García

Unzueta

et al. 2018

Trends in Biotechnology

108

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The treatment of some high-incidence human diseases is based on therapeutic cell killing. In cancer this is mainly achieved by chemical drugs that are systemically administered to reach effective toxic doses. As an innovative alternative, cytotoxic proteins identified in nature can be adapted as precise therapeutic agents. For example, individual toxins and venom components, proapoptotic factors, and antimicrobial peptides from bacteria, animals, plants, and humans have been engineered as highly potent drugs. In addition to the intrinsic cytotoxic activities of these constructs, their biological fabrication by DNA recombination allows the recruitment, in single pharmacological entities, of diverse functions of clinical interest such as specific cell-surface receptor binding, self-activation, and self-assembling as nanoparticulate materials, with wide applicability in cell-targeted oncotherapy and theragnosis.

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Molecular tumor targeting of gelonin by fusion with F3 peptide

Cited by 29 publications

References 36 publications

Production of Recombinant Gelonin Using an Automated Liquid Chromatography System

Production of Recombinant Gelonin Using an Automated Liquid Chromatography System

Dendrimer-like supramolecular assembly of proteins with a tunable size and valency through stepwise iterative growth

Protein-Based Therapeutic Killing for Cancer Therapies

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