Targeted elastin-like polypeptide fusion protein for near-infrared imaging of human and canine urothelial carcinoma

Aayush, Aayush; Darji, Saloni; Dhawan, Deepika; Enstrom, Alexander W.; Broman, Meaghan M.; Idrees, Muhammad T.; Kaimakliotis, Hristos Z.; Ratliff, Timothy L.; Knapp, Deborah W.; Thompson, David H.

doi:10.18632/oncotarget.28271

Cited by 2 publications

(1 citation statement)

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“…This method was shown to isolate pure ELP in a molecular weight- and charge-independent manner. The approach was also effective in purifying ELP fusion proteins with either CryS96 or epidermal growth factor domains that retained their chaperone function in vitro and epidermal growth factor receptor binding affinity in EGFR+ cells and tissues in vivo (mouse) and ex vivo (human and canine), respectively. − Purification of functional proteins, especially enzymes, via organic solvent extraction may seem highly counterintuitive since the presence of organic solvents can impact the solubility and functional properties of enzymes in a manner that leads to aggregation or loss of activity. , We sought to develop a better understanding of how ELP fusion proteins can retain their function during the organic solvent extraction–precipitation process.…”

Section: Introductionmentioning

confidence: 99%

Unravelling the Mechanism of Elastin-like Polypeptide-Enzyme Fusion Stabilization in Organic Solvents

Darji,

Aayush,

Estes

et al. 2023

Biomacromolecules

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Elastin-like polypeptides (ELP) are a class of materials that are widely used as purification tags and in potential therapeutic applications. We have used the hydrophobic nature of ELP to extract them into organic solvents and precipitate them to obtain highly pure materials. Although many different types of ELP have been rapidly purified in this manner, the underlying mechanism for this process and its ability to retain functional proteins within organic phase-rich media has been unclear. A cleavable ELP-Intein construct fused with the enzyme chorismate mutase (ELP−I-Cm2) was used to better understand the organic solvent extraction process for ELP and the factors impacting the retention of enzyme activity. Our extraction studies indicated that a cell lysis step was essential to stabilize the ELP−I-Cm2 in the organic phase, prevent intein cleavage, and extract the fusion protein with high efficiency and retained activity. Circular dichroism and infrared spectroscopic characterization of ELP−I-Cm2 in organic solvents and aqueous solutions of the extracted and precipitated material indicated that the ELP secondary structure was retained in both environments. Atomic force microscopy and negative stain transmission electron microscopy imaging of ELP−I-Cm2 in organic solvents revealed highly regular circular features that were ∼50 nm in diameter, in contrast to larger (>100 nm) irregular features found in aqueous solutions. Since reverse micelles have often been used in catalytic processes, we evaluated the enzymatic activity of the ELP−I-Cm2 reversed micelles in different organic solvent mixtures and found that Cm2-mediated reactions in organic media were of comparable rate and efficiency to those in aqueous media. Based on these findings, we report an exciting new opportunity for ELP-enzyme fusion applications by exploiting their ability to form catalytically active reverse micelles in organic media.

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