Mireia Casanovas Montasell scite author profile

Mireia Casanovas Montasell

4Publications

29Citation Statements Received

88Citation Statements Given

How they've been cited

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206

Affiliations

Aarhus University, Institut Català de Ciències del Clima

Publications

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Chemical zymogens for the protein cysteinome

et al. 2022

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We present three classes of chemical zymogens established around the protein cysteinome. In each case, the cysteine thiol group was converted into a mixed disulfide: with a small molecule, a non-degradable polymer, or with a fast-depolymerizing fuse polymer (ZLA). The latter was a polydisulfide based on naturally occurring molecule, lipoic acid. Zymogen designs were applied to cysteine proteases and a kinase. In each case, enzymatic activity was successfully masked in full and reactivated by small molecule reducing agents. However, only ZLA could be reactivated by protein activators, demonstrating that the macromolecular fuse escapes the steric bulk created by the protein globule, collects activation signal in solution, and relays it to the active site of the enzyme. This afforded first-in-class chemical zymogens that are activated via protein-protein interactions. We also document zymogen exchange reactions whereby the polydisulfide is transferred between the interacting proteins via the “chain transfer” bioconjugation mechanism.

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Green self-immolative polymer: molecular antenna to collect and propagate the signal for zymogen activation

Montasell

Monge

Carmali

et al. 2021

Preprint

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Chemical zymogens of three different types were established herein around protein cysteinome, in each case converting the protein thiol into a disulfide linkage: zero length Z0, polyethylene glycol based ZPEG, and ZLA that features a fast-depolymerizing fuse polymer. The latter was a polydisulfide based on a naturally occurring water-soluble lipoic acid. Three zymogen designs were applied to cysteinyl proteases and a kinase and in each case, enzymatic activity was successfully masked in full and reactivated by small molecule reducing agents. However, only ZLA could be reactivated by protein activators, demonstrating that the macromolecular fuse escapes the steric bulk created by the protein globule, collects activation signal in solution, and relays it to the enzyme active site. This afforded first-in-class chemical zymogens that are activated via protein-protein interactions. For ZLA, we also document a "chain transfer" bioconjugation mechanism and a unique zymogen exchange reaction between two proteins.

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From emblematic to problematic: The case of Astrospartus mediterraneus (Risso, 1826) (Echinodermata: Ophiuroidea) in the artisanal fishing grounds of the Cap de Creus area (NW Mediterranean Sea)

Biel-Cabanelas

Santín

Montasell

et al. 2023

Continental Shelf Research

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Chemical Zymogens: Specificity and Steroidal Control of Reactivation

2023

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Activating and masking enzymatic activity on demand is of the highest importance in nature. It is achieved by chemical interconversion of enzymes and the corresponding zymogens through, for example, proteolytic processing or reversible phosphorylation, and affords on-demand activation of enzymes, controlled in space and/or time. In stark contrast, examples of chemical zymogens are very few, and in most cases these are based on disulfide chemistry, which is largely indiscriminate as to the nature of the activating thiol. In this work, we address an outstanding challenge of specificity of reactivation of chemical zymogens. We achieve this through engineering affinity between the chemical zymogen and the activator. Additional, higher-level control over zymogen reactivation is installed in a nature-mimicking approach using steroidal hormones. Taken together, the results of this study take a step towards establishing the specificity of reactivation of synthetic, chemical zymogens. We anticipate that the results of this study will contribute significantly to the development of chemical zymogens as tools for diverse use in chemical biology and biotechnology.[a] M.

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