Cosolute modulation of protein oligomerization reactions in the homeostatic timescale

Mateos, Borja; Bernardo‐Seisdedos, Ganeko; Dietrich, Valentin; Zalba, Nicanor; Ortega, Gabriel; Peccati, Francesca; Jiménez‐Osés, Gonzalo; Konrat, Robert; Tollinger, Martin; Millet, Óscar

doi:10.1016/j.bpj.2021.03.020

Cited by 3 publications

(1 citation statement)

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“…First, the environment in which a protein folds and remains stable is of major relevance for its stability [24,93]. Recent studies show that the initial oligomerization state in which a protein is exposed to a chemical environment or denaturing agents is determinant for the final homeostasis of the protein [90]. Second, the thermodynamic stability of a protein drastically modulates the proteostatic readout.…”

Section: Protein Stability and Homeostasismentioning

confidence: 99%

The use of pharmacological chaperones in rare diseases caused by reduced protein stability

et al. 2022

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Rare diseases are most often caused by inherited genetic disorders that, after translation, will result in a protein with altered function. Decreased protein stability is the most frequent mechanism associated with a congenital pathogenic missense mutation and it implies the destabilization of the folded conformation in favour of unfolded or misfolded states. In the cellular context and when experimental data is available, a mutant protein with altered thermodynamic stability often also results in impaired homeostasis, with the deleterious accumulation of protein aggregates, metabolites and/or metabolic by‐products. In the last decades, a significant effort has enabled the characterization of rare diseases associated to protein stability defects and triggered the development of innovative therapeutic intervention lines, say, the use of pharmacological chaperones to correct the intracellular impaired homeostasis. Here, we review the current knowledge on rare diseases caused by reduced protein stability, paying special attention to the thermodynamic aspects of the protein destabilization, also focusing on some examples where pharmacological chaperones are being tested.

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Section: Protein Stability and Homeostasismentioning

confidence: 99%

The use of pharmacological chaperones in rare diseases caused by reduced protein stability

et al. 2022

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Assessing the Effect of Deep Eutectic Solvents on α‐Chymotrypsin Thermal Stability and Activity

Gajardo‐Parra,

Cea‐Klapp,

Chandra

et al. 2024

ChemSusChem

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Optimizing the liquid reaction phase holds significant potential for enhancing the efficiency of biocatalytic pro‐ cesses since it determines reaction equilibrium and kinetics. This study investigates the influence of the addition of deep eutectic solvents on the stability and activity of α‐chymotrypsin, a proteolytic enzyme with industrial rele‐ vance. Deep eutectic solvents, composed of choline chloride or betaine mixed with glycerol or sorbitol, were added in the reaction phase at various concentrations. Experimental techniques, including kinetic and fluorometry, were employed to assess the α‐chymotrypsin activity, thermal stability, and unfolding reversibility. Atomistic molecular dynamics simulations were also conducted to assess the interactions and provide molecular‐level insights between α‐chymotrypsin and the solvent. The results showed that among all studied mixtures, adding choline chloride + sorbitol improved thermal stability up to 18 °C and reaction kinetic efficiency up to two‐fold upon adding choline chloride + glycerol. Notably, the choline chloride + sorbitol system exhibited the most substantial stabilization effect, attributed to the surface preferential accumulation of sorbitol, as corroborated by the computational anal‐ yses. This work highlights the potential of tailoring liquid reaction phase of α‐chymotrypsin catalyzed reaction using neoteric solvents to enhance α‐chymotrypsin performance and stability in industrial applications.

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On the potentially spurious contributions of cosolutes in protein 15N relaxation dispersion measurements

Mateos

Millet²

2022

Journal of Magnetic Resonance Open

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Cosolute modulation of protein oligomerization reactions in the homeostatic timescale

Cited by 3 publications

References 72 publications

The use of pharmacological chaperones in rare diseases caused by reduced protein stability

The use of pharmacological chaperones in rare diseases caused by reduced protein stability

Assessing the Effect of Deep Eutectic Solvents on α‐Chymotrypsin Thermal Stability and Activity

On the potentially spurious contributions of cosolutes in protein 15N relaxation dispersion measurements

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