Anke G. Roth scite author profile

Heat shock protein 70 (Hsp70) is an evolutionarily highly conserved molecular chaperone that promotes the survival of stressed cells by inhibiting lysosomal membrane permeabilization, a hallmark of stress-induced cell death. Clues to its molecular mechanism of action may lay in the recently reported stress- and cancer-associated translocation of a small portion of Hsp70 to the lysosomal compartment. Here we show that Hsp70 stabilizes lysosomes by binding to an endolysosomal anionic phospholipid bis(monoacylglycero)phosphate (BMP), an essential co-factor for lysosomal sphingomyelin metabolism. In acidic environments Hsp70 binds with high affinity and specificity to BMP, thereby facilitating the BMP binding and activity of acid sphingomyelinase (ASM). The inhibition of the Hsp70-BMP interaction by BMP antibodies or a point mutation in Hsp70 (Trp90Phe), as well as the pharmacological and genetic inhibition of ASM, effectively revert the Hsp70-mediated stabilization of lysosomes. Notably, the reduced ASM activity in cells from patients with Niemann-Pick disease (NPD) A and B-severe lysosomal storage disorders caused by mutations in the sphingomyelin phosphodiesterase 1 gene (SMPD1) encoding for ASM-is also associated with a marked decrease in lysosomal stability, and this phenotype can be effectively corrected by treatment with recombinant Hsp70. Taken together, these data open exciting possibilities for the development of new treatments for lysosomal storage disorders and cancer with compounds that enter the lysosomal lumen by the endocytic delivery pathway.

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Small‐Molecule Inhibitors of the Interaction between the E3 Ligase VHL and HIF1α

Buckley

et al. 2012

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Small‐Molecule‐Mediated Degradation of the Androgen Receptor through Hydrophobic Tagging

et al. 2015

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Androgen Receptor (AR)-dependent transcription is a major driver of prostate tumor cell proliferation. Consequently, it is the target of several antitumor chemotherapeutic agents, including the AR antagonist MDV3100/enzalutamide. Recent studies have shown that a single AR mutation (F876L) converts MDV3100 action from an antagonist to an agonist. Here we describe the generation of a novel class of Selective Androgen Receptor Degraders (SARDs) to address this resistance mechanism. Molecules containing hydrophobic degrons linked to small molecule Androgen Receptor (AR) ligands induce AR degradation, reduce expression of AR target genes and inhibit proliferation in androgen-dependent prostate cancer cell lines. These results suggest that selective AR degradation may be an effective therapeutic prostate tumor strategy in the context of AR mutations that confer resistance to third generation AR antagonists.

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Identification of Hydrophobic Tags for the Degradation of Stabilized Proteins

et al. 2012

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Potent and Selective Inhibition of Acid Sphingomyelinase by Bisphosphonates

Roth¹,

Drescher²,

Yang³

et al. 2009

Angew Chem Int Ed

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Anke G. Roth

Hsp70 stabilizes lysosomes and reverts Niemann–Pick disease-associated lysosomal pathology

Small‐Molecule Inhibitors of the Interaction between the E3 Ligase VHL and HIF1α

Small‐Molecule‐Mediated Degradation of the Androgen Receptor through Hydrophobic Tagging

Identification of Hydrophobic Tags for the Degradation of Stabilized Proteins

Potent and Selective Inhibition of Acid Sphingomyelinase by Bisphosphonates

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