The Lys-Specific Molecular Tweezer, CLR01, Modulates Aggregation of the Mutant p53 DNA Binding Domain and Inhibits Its Toxicity

Herzog, Gal; Shmueli, Merav D.; Levy, Liraz; Engel, Liat; Gazit, Ehud; Klärner, Frank‐Gerrit; Schräder, Thomas; Bitan, Gal; Segal, Daniel

doi:10.1021/bi501092p

Cited by 23 publications

(53 citation statements)

References 38 publications

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“…Whereas CLR01 induced rapid formation of p53 aggregates of intermediate sizes, it inhibited additional p53 aggregation and reduced the cytotoxicity of the amyloid aggregates (Herzog et al 2015). To some extent, this behavior is similar to that found for the PrP protein, in which some compounds, such as polyanions, stimulate or inhibit aggregation depending on the condition (Gomes et al 2008;Silva et al 2008;Vieira et al 2014).…”

Section: New Approaches For Cancer Therapy Involving P53 Aggregation supporting

confidence: 73%

“…In a recent study, a protein assembly modulator (CLR01) showed an intriguing effect on p53 DNA-binding domain aggregation (Herzog et al 2015). Whereas CLR01 induced rapid formation of p53 aggregates of intermediate sizes, it inhibited additional p53 aggregation and reduced the cytotoxicity of the amyloid aggregates (Herzog et al 2015).…”

Section: New Approaches For Cancer Therapy Involving P53 Aggregation mentioning

confidence: 99%

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Aggregation and Prion-Like Properties of Misfolded Tumor Suppressors: Is Cancer a Prion Disease?

Costa

Oliveira

Cino

et al. 2016

Cold Spring Harb Perspect Biol

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Prion diseases are disorders that share several characteristics that are typical of many neurodegenerative diseases. Recently, several studies have extended the prion concept to pathological aggregation in malignant tumors involving misfolded p53, a tumor-suppressor protein. The aggregation of p53 and its coaggregation with p53 family members, p63 and p73, have been shown. Certain p53 mutants exert a dominant-negative regulatory effect on wild-type (WT) p53. The basis for this dominant-negative effect is that amyloid-like mutant p53 converts WT p53 into an aggregated species, leading to a gain-of-function (GoF) phenotype and the loss of its tumor-suppressor function. Recently, it was shown that p53 aggregates can be internalized by cells and can coaggregate with endogenous p53, corroborating the prion-like properties of p53 aggregates. The prion-like behavior of oncogenic p53 mutants provides an explanation for its dominant-negative and GoF properties, including the high metastatic potential of cancer cells carrying p53 mutations. The inhibition of p53 aggregation appears to represent a promising target for therapeutic intervention in patients with malignant tumors.

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Section: New Approaches For Cancer Therapy Involving P53 Aggregation supporting

confidence: 73%

Section: New Approaches For Cancer Therapy Involving P53 Aggregation mentioning

confidence: 99%

Aggregation and Prion-Like Properties of Misfolded Tumor Suppressors: Is Cancer a Prion Disease?

Costa

Oliveira

Cino

et al. 2016

Cold Spring Harb Perspect Biol

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show abstract

“…In differentiated PC-12 cells, no toxicity was observed up to 200 μM and ~15% reduced viability (MTT assay) occurred at 400 μM. 36 No reduction in viability (XTT assay) was found up to 100 μM in human H1299 non-small cell lung carcinoma cells 82 and up to 500 μM in the HIV reporter cell line TZM-bl. 40 …”

Section: Molecular Tweezers Modulate Abnormal Protein Aggregationmentioning

confidence: 96%

Molecular tweezers for lysine and arginine – powerful inhibitors of pathologic protein aggregation

2016

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Molecular tweezers represent the first class of artificial receptor molecules that made the way from a supramolecular host to a drug candidate with promising results in animal tests. Due to their unique structure, only lysine and arginine are well complexed with exquisite selectivity by a threading mechanism, which unites electrostatic, hydrophobic and dispersive attraction. However, tweezer design must avoid self-dimerization, self-inclusion and external guest binding. Moderate affinities of the molecular tweezers towards sterically well accessible basic amino acids with fast on and off rates protect normal proteins from a potential interference with their biological function. However, the early stages of abnormal Aβ, α-synuclein, and TTR assembly are redirected upon tweezer binding towards the generation of amorphous non-toxic material that can be degraded by the intracellular and extracellular clearance mechanisms. Thus, specific host–guest chemistry between aggregation-prone proteins and lysine/arginine binders rescues cell viability and restores animal health in models of AD, PD, and TTR amyloidosis.

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“…Partially disordered Ab oligomers formed in the presence of polyphenols were non-toxic [31,136,137], whereas more structured Ab oligomers were toxic. Lysine-binding small molecules ('molecular tweezers') were shown to promote formation of non-toxic oligomers from a variety of amyloidogenic proteins and peptides [138][139][140][141][142] by modulating the oligomer structure. In case of Ab, they have been shown to compact the structures of dimers and tetramers and prevented formation of more toxic higher-order oligomers [143].…”

Section: Relationship Between Oligomer Structure and Cytotoxicitymentioning

confidence: 99%

Structural, morphological, and functional diversity of amyloid oligomers

2015

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a b s t r a c tProtein misfolding and aggregation are known to play a crucial role in a number of important human diseases (Alzheimer's, Parkinson's, prion, diabetes, cataracts, etc.) as well as in a multitude of physiological processes. Protein aggregation is a highly complex process resulting in a variety of aggregates with different structures and morphologies. Oligomeric protein aggregates (amyloid oligomers) are formed as both intermediates and final products of the aggregation process. They are believed to play an important role in many protein aggregation-related diseases, and many of them are highly cytotoxic. Due to their instability and structural heterogeneity, information about structure, mechanism of formation, and physiological effects of amyloid oligomers is sparse. This review attempts to summarize the existing information on the major properties of amyloid oligomers.

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The Lys-Specific Molecular Tweezer, CLR01, Modulates Aggregation of the Mutant p53 DNA Binding Domain and Inhibits Its Toxicity

Cited by 23 publications

References 38 publications

Aggregation and Prion-Like Properties of Misfolded Tumor Suppressors: Is Cancer a Prion Disease?

Aggregation and Prion-Like Properties of Misfolded Tumor Suppressors: Is Cancer a Prion Disease?

Molecular tweezers for lysine and arginine – powerful inhibitors of pathologic protein aggregation

Structural, morphological, and functional diversity of amyloid oligomers

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