PROTACs: great opportunities for academia and industry

Sun, Xiaohong; Gao, Hongying; Yang, Yiqing; He, Ming; Wu, Yue; Song, Yu-Gang; Yan, Tao; Rao, Yu

doi:10.1038/s41392-019-0101-6

Cited by 409 publications

(420 citation statements)

References 349 publications

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“…Once a new target has been identified small molecules can be systematically designed against the target by modifying their catalytic activity or protein-protein interactions. In addition, advances in the development of new modalities such as PROteolysis TArgeting Chimeras (ProTacs) will extend the number of druggable targets [80].…”

Section: Resultsmentioning

confidence: 99%

Improving Precise CRISPR Genome Editing by Small Molecules: Is there a Magic Potion?

Bischoff

Wimberger

Maresca

et al. 2020

Cells

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Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) genome editing has become a standard method in molecular biology, for the establishment of genetically modified cellular and animal models, for the identification and validation of drug targets in animals, and is heavily tested for use in gene therapy of humans. While the efficiency of CRISPR mediated gene targeting is much higher than of classical targeted mutagenesis, the efficiency of CRISPR genome editing to introduce defined changes into the genome is still low. Overcoming this problem will have a great impact on the use of CRISPR genome editing in academic and industrial research and the clinic. This review will present efforts to achieve this goal by small molecules, which modify the DNA repair mechanisms to facilitate the precise alteration of the genome.

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Section: Resultsmentioning

confidence: 99%

Improving Precise CRISPR Genome Editing by Small Molecules: Is there a Magic Potion?

Bischoff

Wimberger

Maresca

et al. 2020

Cells

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“…The designing of PROTACs has different limitations, including problems in isolation, reduced cell permeability, and off-target toxicity effects due to a low therapeutic index [ 22 , 23 , 24 ]. PROTACs act in a catalytic mode, which hampers their pharmacokinetic and pharmacodynamic evaluation.…”

Section: Introductionmentioning

confidence: 99%

Controlled Delivery of BET-PROTACs: In Vitro Evaluation of MZ1-Loaded Polymeric Antibody Conjugated Nanoparticles in Breast Cancer

et al. 2020

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Bromo and extraterminal domain (BET) inhibitors-PROteolysis TArgeting Chimera (BETi-PROTAC) is a new family of compounds that induce proteasomal degradation through the ubiquitination of the tagged to BET inhibitors Bromodomain proteins, BRD2 and BRD. The encapsulation and controlled release of BET-PROTACs through their vectorization with antibodies, like trastuzumab, could facilitate their pharmacokinetic and efficacy profile. Antibody conjugated nanoparticles (ACNPs) using PROTACs have not been designed and evaluated. In this pioneer approach, the commercial MZ1 PROTAC was encapsulated into the FDA-approved polymeric nanoparticles. The nanoparticles were conjugated with trastuzumab to guide the delivery of MZ1 to breast tumoral cells that overexpress HER2. These ACNPs were characterized by means of size, polydispersity index, and Z-potential. Morphology of the nanoparticles, along with stability and release studies, completed the characterization. MZ1-loaded ACNPs showed a significant cytotoxic effect maintaining its mechanism of action and improving its therapeutic properties.

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“…In contrast, advances in computational chemistry and novel technologies, including mass spectrometry and high-throughput screening, the development and success of specific E3 ligase and deubiquitinase inhibitors with more selective anti-cancer activity may be possible. These new technologies may enable the development of innovative therapeutic approaches that target protein-protein interactions, or co-opt the ubiquitin system, as is the case with protein-targeting chimeric molecules, which bind to protein and induce their proteasomal degradation (PROTACs) [ 166 ]. It is clear that the NFκB pathway is essential for the proliferation and survival of HNSCC, in vitro and in vivo.…”

Section: Resultsmentioning

confidence: 99%

Regulation of NFκB Signalling by Ubiquitination: A Potential Therapeutic Target in Head and Neck Squamous Cell Carcinoma?

Morgan

Chen

Waes

2020

Cancers

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Head and neck squamous cell carcinoma (HNSCC) is the sixth most common cancer worldwide, with over 600,000 cases per year. The primary causes for HNSCC include smoking and alcohol consumption, with an increasing number of cases attributed to infection with Human Papillomavirus (HPV). The treatment options for HNSCC currently include surgery, radiotherapy, and/or platinum-based chemotherapeutics. Cetuximab (targeting EGFR) and Pembrolizumab (targeting PD-1) have been approved for advanced stage, recurrent, and/or metastatic HNSCC. Despite these advances, whilst HPV+ HNSCC has a 3-year overall survival (OS) rate of around 80%, the 3-year OS for HPV− HNSCC is still around 55%. Aberrant signal activation of transcription factor NFκB plays an important role in the pathogenesis and therapeutic resistance of HNSCC. As an important mediator of inflammatory signalling and the immune response to pathogens, the NFκB pathway is tightly regulated to prevent chronic inflammation, a key driver of tumorigenesis. Here, we discuss how NFκB signalling is regulated by the ubiquitin pathway and how this pathway is deregulated in HNSCC. Finally, we discuss the current strategies available to target the ubiquitin pathway and how this may offer a potential therapeutic benefit in HNSCC.

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PROTACs: great opportunities for academia and industry

Cited by 409 publications

References 349 publications

Improving Precise CRISPR Genome Editing by Small Molecules: Is there a Magic Potion?

Improving Precise CRISPR Genome Editing by Small Molecules: Is there a Magic Potion?

Controlled Delivery of BET-PROTACs: In Vitro Evaluation of MZ1-Loaded Polymeric Antibody Conjugated Nanoparticles in Breast Cancer

Regulation of NFκB Signalling by Ubiquitination: A Potential Therapeutic Target in Head and Neck Squamous Cell Carcinoma?

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