Minjoo Choi scite author profile

Apoptosis or programmed cell death is a regulatory process in cells in response to stimuli perturbing physiological conditions. The Bcl-2 family of proteins plays an important role in regulating homeostasis during apoptosis. In the process, the molecular interactions among the three members of this family, the pro-apoptotic, anti-apoptotic and BH3-only proteins at the mitochondrial outer membrane define the fate of a cell. Here, we report the crystal structures of the human anti-apoptotic protein Bcl-XL in complex with BH3-only BID(BH3) and BIM(BH3) peptides determined at 2.0 Å and 1.5 Å resolution, respectively. The BH3 peptides bind to the canonical hydrophobic pocket in Bcl-XL and adopt an alpha helical conformation in the bound form. Despite a similar structural fold, a comparison with other BH3 complexes revealed structural differences due to their sequence variations. In the Bcl-XL-BID(BH3) complex we observed a large pocket, in comparison with other BH3 complexes, lined by residues from helices α1, α2, α3, and α5 located adjacent to the canonical hydrophobic pocket. These results suggest that there are differences in the mode of interactions by the BH3 peptides that may translate into functional differences in apoptotic regulation.

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Structural transition in Bcl-xL and its potential association with mitochondrial calcium ion transport

Rajan

Choi

Nguyen

et al. 2015

Sci Rep

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Bcl-2 family proteins are key regulators for cellular homeostasis in response to apoptotic stimuli. Bcl-xL, an antiapoptotic Bcl-2 family member, undergoes conformational transitions, which leads to two conformational states: the cytoplasmic and membrane-bound. Here we present the crystal and small-angle X-ray scattering (SAXS) structures of Bcl-xL treated with the mild detergent n-Octyl β-D-Maltoside (OM). The detergent-treated Bcl-xL forms a dimer through three-dimensional domain swapping (3DDS) by swapping helices α6-α8 between two monomers. Unlike Bax, a proapoptotic member of the Bcl-2 family, Bcl-xL is not converted to 3DDS homodimer upon binding BH3 peptides and ABT-737, a BH3 mimetic drug. We also designed Bcl-xL mutants which cannot dimerize and show that these mutants reduced mitochondrial calcium uptake in MEF cells. This illustrates the structural plasticity in Bcl-xL providing hints toward the probable molecular mechanism for Bcl-xL to play a regulatory role in mitochondrial calcium ion transport.

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Structural plasticity of BCL-2 family proteins and its functional implication in apoptosis

Choi¹

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Minjoo Choi

Bh3 induced conformational changes in Bcl‐X_l revealed by crystal structure and comparative analysis

Structural transition in Bcl-xL and its potential association with mitochondrial calcium ion transport

Structural plasticity of BCL-2 family proteins and its functional implication in apoptosis

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Minjoo Choi

Bh3 induced conformational changes in Bcl‐Xl revealed by crystal structure and comparative analysis

Structural transition in Bcl-xL and its potential association with mitochondrial calcium ion transport

Structural plasticity of BCL-2 family proteins and its functional implication in apoptosis

Contact Info

Product

Resources

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Bh3 induced conformational changes in Bcl‐X_l revealed by crystal structure and comparative analysis