Posts tagged Cancer
Discovery of a Brigatinib Degrader SIAIS164018 with Destroying Metastasis-Related Oncoproteins and a Reshuffling Kinome Profile
Discovery of a Brigatinib Degrader SIAIS164018 with Destroying Metastasis-Related Oncoproteins and a Reshuffling Kinome Profile

Proteolysis-targeting chimera (PROTAC) is an attractive technology in drug discovery. Canonically, targets act as a basic starting point in the most previous PROTAC design. Here, we designed degraders considering from the view of clinical benefits. With this novel design, Brigatinib was turned into a degrader SIAIS164018 and endowed with unique features. First, SIAIS164018 could degrade not only ALK fusion proteins in activating or G1202R-mutated form but also mutant EGFR with L858R + T790M, which are two most important targets in non-small-cell lung cancer. Second, SIAIS164018 strongly inhibited cell migration and invasion of Calu-1 and MDA-MB-231. Third and surprisingly, SIAIS164018 degrades several important oncoproteins involved in metastasis such as FAK, PYK2, and PTK6. Interestingly, SIAIS164018 reshuffled the kinome ranking profile when compared to Brigatinib. Finally, SIAIS164018 is orally bioavailable and well tolerated in vivo. SIAIS164018 is an enlightening degrader for us to excavate the charm of protein degradation. READ ARTICLE

Journal of Medicinal Chemistry DOI:10.1021/acs.jmedchem.1c00373

Authors: Chaowei Ren, Ning Sun, Haixia Liu, Ying Kong, Renhong Sun, Xing Qiu, Jinju Chen, Yan Li, Jianshui Zhang, Yuedong Zhou, Hui Zhong, Qianqian Yin

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Pre-Clinical, group4Kirk SmithBrigatinib Degrader, Degradation, Cancer, Peptides and proteins, Cell physiology, Inhibition
PROTACs: A novel strategy for cancer therapy
PROTACs: A novel strategy for cancer therapy

Chemotherapeutic strategy has been widely used for treating malignance by targeting irregular expressed or mutant proteins with small molecular inhibitors (SMIs) or monoclonal antibodies (mAbs). However, most intracellular proteins lack of active sites or antigens where SMIs or mAbs bind with, and are called as non-druggable targets for a long time. From the first year of this century, PROteolysis-TArgeting Chimeras (PROTACs) has emerged to be a promising approach for proteins, including those non-druggable ones, such as transcriptional factors and scaffold proteins. The first generation of peptide-based PROTACs adopts β-TrCP and VHL as E3 ligases, but the cellular permeability and chemical stability issues restrict their clinical application. The second generation of small molecule-based PROTACs adopts MDM2, VHL, IAPs and Cereblon as E3 ligases have been tensely studied. To date, the targets of PROTACs including those overexpressed oncogenic proteins such as ER, AR and BRDs, disease-r..... READ ARTICLE

Seminars in Cancer Biology DOI:10.1016/j.semcancer.2020.02.006

Authors: Jing Liu, Jia Ma, Yi Liua, Jun Xia, Yuyun Li, Z. Peter Wang, Wenyi Wei

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Conference PaperKirk SmithPROTACs, Cancer, Therapyopto-PROTAC, pcPROTAC, PHOTAC, Photo-PROTAC
Comprehensive genomic profile of Chinese lung cancer patients and mutation characteristics of individuals resistant to icotinib/gefitinib
Comprehensive genomic profile of Chinese lung cancer patients and mutation characteristics of individuals resistant to icotinib/gefitinib

Lung cancer is the leading causes of cancer-related death worldwide. Precise treatment based on next-generation sequencing technology has shown advantages in the diagnosis and treatment of lung cancer. This cohort study included 371 lung cancer patients. The lung cancer subtype was related to the smoking status and sex of the patients. The most common mutated genes were TP53 (62%), EGFR (55%), and KRAS (11%). The mutation frequencies of EGFR, TP53, PIK3CA, NFE2L2, KMT2D, FGFR1, CCND1, and CDKN2A were significantly different between lung adenocarcinoma and lung squamous cell carcinoma. We identified the age-associated mutations in ALK, ERBB2, KMT2D, RBM10, NRAS, NF1, PIK3CA, MET, PBRM1, LRP2, and CDKN2B; smoking-associated mutations in CDKN2A, FAT1, FGFR1, NFE2L2, CCNE1, CCND1, SMARCA4, KEAP1, KMT2C, and STK11; tumor stage-associated mutations in ARFRP1, AURKA, and CBFB; and sex-associated mutations in EGFR. Tumor mutational burden (TMB) is associated with tumor subtype, age, sex, and s..... READ ARTICLE

Scientific Reports DOI:10.1038/s41598-020-76791-y

Authors: Yanhong Shang, Xiaofang Li, Weiwei Liu, Xiaoliang Shi, Shaohua Yuan, Ran Huo, Guotao Fang, Xiao Han, Jingnan Zhang, Kunjie Wang, Zhengyue Dou, Yan Zhang, Aimin Zang and Lin Zhang

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Real-World OutcomesKirk SmithCancer, Biomarkers, Oncology
CircRNAs and Fusion-circRNAs in cancer: New players in an old game
CircRNAs and Fusion-circRNAs in cancer: New players in an old game

Circular RNAs (circRNAs) are generated from 'back-splicing' events. Their circular structure makes them stable in cells and body fluids. These entities are involved in several human diseases including cancer, as they affect the expression of genes promoting proliferation, invasion, apoptosis, and angiogenesis. Moreover, they are secreted in extracellular vesicles, such as exosomes, having a potential role as messengers in cell-to-cell communications. CircRNAs are also generated by the back-splicing of linear fusion transcripts derived from genomic rearrangements, giving rise to fusion circRNAs (f-circRNAs).
Here we discuss the most relevant results achieved by studying the role of circRNAs in cancer onset and progression, particularly focusing on f-circRNAs in hematological and solid tumors. Moreover, we report recent advances in the application of circRNAs as novel “liquid biopsy” biomarkers for early and non-invasive diagnosis of tumors, and as therapeutic targets in human cancer. Th..... READ ARTICLE

Cellular Signalling DOI:10.1111/1759-7714.13376

Authors: Grazia Visci, DoronTolomeo, Antonio Agostini, Debora Traversa, Gemma Macchia, Clelia Tiziana Storlazzi

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EditorialKirk SmithCircRNA, Fusion-circRNA, Cancer, Chimera, Biomarker
N-[18F]-Fluoroacetylcrizotinib: A potentially potent and selective PET tracer for molecular imaging of non-small cell lung cancer
N-[18F]-Fluoroacetylcrizotinib: A potentially potent and selective PET tracer for molecular imaging of non-small cell lung cancer

N-[18F]fluoroacetylcrizotinib, a fluorine-18 labeled derivative of the first FDA approved tyrosine kinase inhibitor (TKI) for the treatment of Anaplastic lymphoma kinase (ALK)-rearranged non-small cell lung cancer (NSCLC), crizotinib, was successfully synthesized for use in positron emission tomography (PET). Sequential in vitro biological evaluation of fluoracetylcrizotinib and in vivo biodistribution studies of [18F]fluoroacetylcrizotinib demonstrated that the biological activity of the parent compound remained unchanged, with potent ALK kinase inhibition and effective tumor growth inhibition. These results show that [18F]fluoroacetylcrizotinib has the potential to be a promising PET ligand for use in NSCLC imaging. The utility of PET in this context provides a non-invasive, quantifiable method to inform on the pharmacokinetics of an ALK-inhibitor such as crizotinib prior to a clinical trial, as well as during a trial in the event of acquired drug resistance. READ ARTICLE

Bioorganic & Medicinal Chemistry Letters DOI:10.1016/j.bmcl.2020.127257

Authors: Jason R. Buck, Samir Saleh, Trey Claus, Christine Lovly, Matthew R. Hight, Michael L. Nickels, M. Noor Tantawy, H.Charles Manning

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EditorialKirk SmithCrizotinib, NSCLC, PET, Cancer, Therapy