p53 protein abundance is a therapeutic window across TP53 mutant cancers and is targetable with proximity inducing small molecules

Sadagopan, Ananthan; Garaffo, Nicholas; Chang, Heng-Jui; Schreiber, Stuart L.; Meyerson, Matthew; Gibson, William J.

doi:10.1101/2024.07.27.605429

Cited by 3 publications

References 69 publications

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TP53: the unluckiest of genes?

Joerger,

Stiewe,

Soussi

2024

Cell Death Differ

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The transcription factor p53 plays a key role in the cellular defense against cancer development. It is inactivated in virtually every tumor, and in every second tumor this inactivation is due to a mutation in the TP53 gene. In this perspective, we show that this diverse mutational spectrum is unique among all other cancer-associated proteins and discuss what drives the selection of TP53 mutations in cancer. We highlight that several factors conspire to make the p53 protein particularly vulnerable to inactivation by the mutations that constantly plague our genome. It appears that the TP53 gene has emerged as a victim of its own evolutionary past that shaped its structure and function towards a pluripotent tumor suppressor, but came with an increased structural fragility of its DNA-binding domain. TP53 loss of function - with associated dominant-negative effects - is the main mechanism that will impair TP53 tumor suppressive function, regardless of whether a neomorphic phenotype is associated with some of these variants.

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TP53: the unluckiest of genes?

Joerger,

Stiewe,

Soussi

2024

Cell Death Differ

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LYMTACs: Chimeric Small Molecules Repurpose Lysosomal Membrane Proteins for Target Protein Relocalization and Degradation

Nalawansha,

Mazis,

Husemoen

et al. 2024

Preprint

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Proximity-inducing modalities that co-opt cellular pathways offer new opportunities to regulate oncogenic drivers. Inspired by the success of proximity-based chimeras in both intracellular and extracellular target space, here we describe the development ofLYsosomeMembraneTArgetingChimeras(LYMTACs) as a novel small molecule-based platform that functions intracellularly to modulate the membrane proteome. Conceptually, LYMTACs are heterobifunctional small molecules that co-opt short-lived lysosomal membrane proteins (LMPs) as effectors to deliver targets for lysosomal degradation. We demonstrate that a promiscuous kinase inhibitor-based LYMTAC selectively targets membrane proteins for lysosomal degradation via RNF152, a short-lived LMP. To extend these findings, we show that oncogenic, membrane-associated KRASG12Dprotein can be tethered to RNF152, inducing KRAS relocalization to the lysosomal membrane, inhibiting downstream phospho-ERK signaling, and leading to lysosomal degradation of KRASG12Din a LYMTAC-dependent manner. Notably, potent cell killing could be attributed to the multi-pharmacology displayed by LYMTACs, which differentiates the LYMTAC technology from existing modalities. Thus, LYMTACs represent a proximity-based therapeutic approach that promises to expand the target space for challenging membrane proteins through targeted protein relocalization and degradation.

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Activating p53^Y220Cwith a Mutant-Specific Small Molecule

Zhu,

Byun,

Pieńkowska

et al. 2024

Preprint

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TP53is the most commonly mutated gene in cancer, but it remains recalcitrant to clinically meaningful therapeutic reactivation. We present here the discovery and characterization of a small molecule chemical inducer of proximity that activates mutant p53. We named this compound TRanscriptional Activator of p53 (TRAP-1) due to its ability to engage mutant p53 and BRD4 in a ternary complex, which potently activates mutant p53 and triggers robust p53 target gene transcription. Treatment of p53Y220Cexpressing pancreatic cell lines withTRAP-1results in rapid upregulation of p21 and other p53 target genes and inhibits the growth of p53Y220C-expressing cell lines. Negative control compounds that are unable to form a ternary complex do not have these effects, demonstrating the necessity of chemically induced proximity for the observed pharmacology. This approach to activating mutant p53 highlights how chemically induced proximity can be used to restore the functions of tumor suppressor proteins that have been inactivated by mutation in cancer.

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p53 protein abundance is a therapeutic window across TP53 mutant cancers and is targetable with proximity inducing small molecules

Cited by 3 publications

References 69 publications

TP53: the unluckiest of genes?

TP53: the unluckiest of genes?

LYMTACs: Chimeric Small Molecules Repurpose Lysosomal Membrane Proteins for Target Protein Relocalization and Degradation

Activating p53^Y220Cwith a Mutant-Specific Small Molecule

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p53 protein abundance is a therapeutic window across TP53 mutant cancers and is targetable with proximity inducing small molecules

Cited by 3 publications

References 69 publications

TP53: the unluckiest of genes?

TP53: the unluckiest of genes?

LYMTACs: Chimeric Small Molecules Repurpose Lysosomal Membrane Proteins for Target Protein Relocalization and Degradation

Activating p53Y220Cwith a Mutant-Specific Small Molecule

Contact Info

Product

Resources

About

Activating p53^Y220Cwith a Mutant-Specific Small Molecule