Perturbing dimer interactions and allosteric communication modulates the immunosuppressive activity of human galectin-7

Perturbing dimer interactions and allosteric communication modulates the immunosuppressive activity of human galectin-7

The design of allosteric modulators to control protein function is a key objective in drug discovery programs. Altering functionally essential allosteric residue networks provides unique protein family subtype specificity, minimizes unwanted off-target effects, and helps avert resistance acquisition...

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Veröffentlicht in:The Journal of biological chemistry 2021-11, Vol.297 (5), p.101308-101308, Article 101308
Hauptverfasser: Pham, N. T. Hang, Létourneau, Myriam, Fortier, Marlène, Bégin, Gabriel, Al-Abdul-Wahid, M. Sameer, Pucci, Fabrizio, Folch, Benjamin, Rooman, Marianne, Chatenet, David, St-Pierre, Yves, Lagüe, Patrick, Calmettes, Charles, Doucet, Nicolas
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Sprache:eng
Schlagworte:
Allosteric Regulation
allostery
apoptosis
Apoptosis - genetics
Apoptosis - immunology
cancer
galectins
Galectins - chemistry
Galectins - genetics
Galectins - immunology
glycobiology
Humans
Immune Tolerance
Jurkat Cells
protein dynamics
Protein Multimerization - genetics
Protein Multimerization - immunology
T-Lymphocytes - immunology
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container_end_page 101308
container_issue 5
container_start_page 101308
container_title The Journal of biological chemistry
container_volume 297
creator Pham, N. T. Hang
Létourneau, Myriam
Fortier, Marlène
Bégin, Gabriel
Al-Abdul-Wahid, M. Sameer
Pucci, Fabrizio
Folch, Benjamin
Rooman, Marianne
Chatenet, David
St-Pierre, Yves
Lagüe, Patrick
Calmettes, Charles
Doucet, Nicolas
description The design of allosteric modulators to control protein function is a key objective in drug discovery programs. Altering functionally essential allosteric residue networks provides unique protein family subtype specificity, minimizes unwanted off-target effects, and helps avert resistance acquisition typically plaguing drugs that target orthosteric sites. In this work, we used protein engineering and dimer interface mutations to positively and negatively modulate the immunosuppressive activity of the proapoptotic human galectin-7 (GAL-7). Using the PoPMuSiC and BeAtMuSiC algorithms, mutational sites and residue identity were computationally probed and predicted to either alter or stabilize the GAL-7 dimer interface. By designing a covalent disulfide bridge between protomers to control homodimer strength and stability, we demonstrate the importance of dimer interface perturbations on the allosteric network bridging the two opposite glycan-binding sites on GAL-7, resulting in control of induced apoptosis in Jurkat T cells. Molecular investigation of G16X GAL-7 variants using X-ray crystallography, biophysical, and computational characterization illuminates residues involved in dimer stability and allosteric communication, along with discrete long-range dynamic behaviors involving loops 1, 3, and 5. We show that perturbing the protein–protein interface between GAL-7 protomers can modulate its biological function, even when the overall structure and ligand-binding affinity remains unaltered. This study highlights new avenues for the design of galectin-specific modulators influencing both glycan-dependent and glycan-independent interactions.
doi_str_mv 10.1016/j.jbc.2021.101308
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Hang ; Létourneau, Myriam ; Fortier, Marlène ; Bégin, Gabriel ; Al-Abdul-Wahid, M. 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subjects Allosteric Regulation
allostery
apoptosis
Apoptosis - genetics
Apoptosis - immunology
cancer
galectins
Galectins - chemistry
Galectins - genetics
Galectins - immunology
glycobiology
Humans
Immune Tolerance
Jurkat Cells
protein dynamics
Protein Multimerization - genetics
Protein Multimerization - immunology
T-Lymphocytes - immunology
title Perturbing dimer interactions and allosteric communication modulates the immunosuppressive activity of human galectin-7
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