Pratik Pal scite author profile

PROteolysis-TArgeting Chimeras (PROTACs) have emerged as an innovative drug development platform. However, most PROTACs have been generated empirically because many determinants of PROTAC specificity and activity remain elusive. Through computational modelling of the entire NEDD8-VHL Cullin RING E3 ubiquitin ligase (CRLVHL)/PROTAC/BCL-xL/UbcH5B(E2)-Ub/RBX1 complex, we find that this complex can only ubiquitinate the lysines in a defined band region on BCL-xL. Using this approach to guide our development of a series of ABT263-derived and VHL-recruiting PROTACs, we generate a potent BCL-xL and BCL-2 (BCL-xL/2) dual degrader with significantly improved antitumor activity against BCL-xL/2-dependent leukemia cells. Our results provide experimental evidence that the accessibility of lysines on a target protein plays an important role in determining the selectivity and potency of a PROTAC in inducing protein degradation, which may serve as a conceptual framework to guide the future development of PROTACs.

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Discovery of a Novel BCL-X_L PROTAC Degrader with Enhanced BCL-2 Inhibition

Pal

Thummuri

et al. 2021

J. Med. Chem.

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BCL-X L and BCL-2 are important targets for cancer treatment. BCL-X L specific proteolysis-targeting chimeras (PRO-TACs) have been developed to circumvent the on-target platelet toxicity associated with BCL-X L inhibition. However, they have minimal effects on cancer cells that are dependent on BCL-2 or both BCL-X L and BCL-2. Here we report a new series of BCL-PROTACs. The lead PZ703b exhibits high potency in inducing BCL-X L degradation and in inhibiting but not degrading BCL-2, showing a hybrid dual-targeting mechanism of action that is unprecedented in a PROTAC molecule. As a result, PZ703b is highly potent in killing BCL-X L dependent, BCL-2 dependent, and BCL-X L /BCL-2 dual-dependent cells in an E3 ligase (VHL)dependent fashion. We further found that PZ703b forms stable {BCL-2:PROTAC:VCB} ternary complexes in live cells that likely contribute to the enhanced BCL-2 inhibition by PZ703b. With further optimization, analogues of PZ703b could potentially be developed as effective antitumor agents by co-targeting BCL-X L and BCL-2.

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Asymmetric total synthesis of paecilomycin E, 10′-epi-paecilomycin E and 6′-epi-cochliomycin C

2014

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The asymmetric total syntheses of naturally occurring resorcylic acid lactone paecilomycin E and two of its structural congeners have been reported in this article. The major highlight of the synthetic venture is the application of the late stage Mitsunobu macrolactonization method (as it is difficult to achieve the desired products through the standard carboxyl activation method) of a properly functionalized seco-acid. The macrolactonization precursor was synthesized by applying an "E"-selective Julia-Kocienski olefination of a highly functionalized aromatic aldehyde and a sulphone, which constitutes all the stereocenters (C4', C5', C6' and C10'; 3S,7R,8R,9S) in the target molecule.

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Synthetic studies towards naturally occurring γ-(Z)/(E)-alkylidenebutenolides through bimetallic cascade cyclization and an adventitious photoisomerization method

et al. 2022

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Pratik Pal

Development of a BCL-xL and BCL-2 dual degrader with improved anti-leukemic activity,

Discovery of a Novel BCL-X_L PROTAC Degrader with Enhanced BCL-2 Inhibition

Asymmetric total synthesis of paecilomycin E, 10′-epi-paecilomycin E and 6′-epi-cochliomycin C

Synthetic studies towards naturally occurring γ-(Z)/(E)-alkylidenebutenolides through bimetallic cascade cyclization and an adventitious photoisomerization method

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Pratik Pal

Development of a BCL-xL and BCL-2 dual degrader with improved anti-leukemic activity,

Discovery of a Novel BCL-XL PROTAC Degrader with Enhanced BCL-2 Inhibition

Asymmetric total synthesis of paecilomycin E, 10′-epi-paecilomycin E and 6′-epi-cochliomycin C

Synthetic studies towards naturally occurring γ-(Z)/(E)-alkylidenebutenolides through bimetallic cascade cyclization and an adventitious photoisomerization method

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Product

Resources

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Discovery of a Novel BCL-X_L PROTAC Degrader with Enhanced BCL-2 Inhibition