31374-18-2Relevant articles and documents
Discovery of novel dengue virus entry inhibitors via a structure-based approach
Leal, Emilse S.,Aucar, M. Gabriela,Gebhard, Leopoldo G.,Iglesias, Nestor G.,Pascual, María J.,Casal, Juan J.,Gamarnik, Andrea V.,Cavasotto, Claudio N.,Bollini, Mariela
, p. 3851 - 3855 (2017)
Dengue is a mosquito-borne virus that has become a major public health concern worldwide in recent years. However, the current treatment for dengue disease is only supportive therapy, and no specific antivirals are available to control the infections. Therefore, the need for safe and effective antiviral drugs against this virus is of utmost importance. Entry of the dengue virus (DENV) into a host cell is mediated by its major envelope protein, E. The crystal structure of the E protein reveals a hydrophobic pocket occupied by the detergent n-octyl-β-D-glucoside (β-OG) lying at a hinge region between domains I and II, which is important for the low-pH-triggered conformational rearrangement required for fusion. Thus, the E protein is an attractive target for the development of antiviral agents. In this work, we performed prospective docking-based virtual screening to identify small molecules that likely bind to the β-OG binding site. Twenty-three structurally different compounds were identified and two of them had an EC50 value in the low micromolar range. In particular, compound 2 (EC50?=?3.1?μM) showed marked antiviral activity with a good therapeutic index. Molecular dynamics simulations were used in an attempt to characterize the interaction of 2 with protein E, thus paving the way for future ligand optimization endeavors. These studies highlight the possibility of using a new class of DENV inhibitors against dengue.
Visible-Light Photosynthesis of CHF2/CClF2/CBrF2-Substituted Ring-fused Quinazolinones in Dimethyl Carbonate
Gui, Qing-Wen,He, Wei-Min,Huang, Wen-Jie,Lu, Zi-Qin,Ouyang, Wen-Tao,Teng, Fan,Xun, Changping,Yang, Hao,Zhu, Meng-Xue
, (2021/12/01)
With eco-friendly and sustainable CO2-derived dimethyl carbonate as the sole solvent, the visible-light-induced cascade radical reactions have been established as a green and efficient tool for constructing various CHF2/CClF2/CBrF2-substituted ring-fused quinazolinones.
Synthesis of alkylamino quinazolines and anti-tumor activity thereof
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Paragraph 0060-0063, (2021/09/08)
The present invention provides a compound represented by formula (I), or a pharmaceutically acceptable salt, or ester, or prodrug thereof. The invention further provides a compound represented by the formula (I) or a pharmaceutically acceptable salt or ester, or a synthetic method of the prodrug and an application of the compound in preparation of a medicament for treating tumors.
In-silico Studies of the Antiproliferative Activity of New Anilinoquinazoline Derivatives Against NSCLC Cells.
Abdulwahab, Muhammad Kumayl,Ariffin, Azhar,Dzulkeflee, Rashidi,Heh, Choon Han,Leong, Kok Hoong,Tan, Ke Han
, (2020/12/28)
The current reversible epidermal growth factor (EGFR) tyrosine kinase inhibitors of non-small cell lung cancer (NSCLC) have been resisted by T790M mutation, while the irreversible inhibitors introduced to overcome the mutation have faced resistance from C979S mutation. In the effort to discover potentially improved reversible EGFR inhibitors, a series of new anilinoquinazoline derivatives with modification on the 2nd carbon on the aniline ring was synthesized. The derivatives were tested for their antiproliferative activity against NSCLC cell lines with wild-type (A549), exon 19 deletion mutated (H1650) and L858R+T790M (H1975) mutated EGFR kinases. Three derivatives (4-6) performed better than the standard drug, gefitinib, in all cell lines. Derivative 5 recorded the lowest IC50 values in all cell lines (A549: 24.60 ± 0.75 μM, H1650: 14.83 ± 0.54 μM, H1975: 21.72 ± 1.21 μM). A molecular docking study followed by molecular dynamics simulations was performed on derivative 5 and gefitinib using wild-type EGFR kinase (WT-EGFR) and L858R+T790M mutated kinase (LRTM-EGFR) to provide an understanding of their binding mechanisms. In WT-EGFR kinase, derivative 5 recorded better hydrogen bonding occupancy with MET793 (94.16%) and binding energy profile (-35.287 kcal/mol) as compared to gefitinib (91.80%, -26.071 kcal/mol). In LRTM-EGFR kinase, derivative 5 recorded better hydrogen bonding occupancy with MET793 (93.68%) as compared to gefitinib (91.48%). Derivative 5 also recorded additional hydrogen bonding interactions with ASP855, with a total of 60.61% occupancy as well as a better energy profile (-42.867 kcal/mol) as compared to gefitinib (-41.778 kcal/mol).
Design, synthesis, biological evaluation and structure-activity relationship study of quinazolin-4(3H)-one derivatives as novel USP7 inhibitors
Li, Peng,Liu, Ying,Yang, Hua,Liu, Hong-Min
, (2021/03/09)
Recent research has indicated that the abnormal expression of the deubiquitinase USP7 induces tumorigenesis via multiple cell pathways, and in particular, the p53-MDM2-USP7 pathway is well understood. USP7 is emerging as a promising target for cancer therapy. However, there are limited reports on USP7 inhibitors. Here we report design, synthesis and biological evaluation of novel quinazolin-4(3H)-one derivatives as potent USP7 inhibitors. Our results indicated that the compounds C9 and C19 exhibited the greatest potency against the USP7 catalytic domain, with IC50 values of 4.86 μM and 1.537 μM, respectively. Ub-AMC assays further confirmed IC50 values of 5.048 μM for C9 and 0.595 μM for C19. MTT assays indicated that gastric cancer MGC-803 cells were more sensitive to these compounds than BGC-823 cells. Flow cytometry analysis revealed that C9 restricted cancer cell growth at the G0/G1 and S phases and inhibited the proliferation and clone formation of MGC-803 cells. Further biochemical experiments indicated that C9 decreased the MDM2 protein level and increased the levels of the tumour suppressors p53 and p21 in a dose-dependent manner. Docking studies predicted that solvent exposure of the side chains of C9 and C19 would uniquely form hydrogen bonds with Met407 of USP7. Additionally, C9 exhibited a remarkable anticancer effect in a zebrafish gastric cancer MGC-803 cell model. Our results demonstrated that quinazolin-4(3H)-one derivatives were suitable as leads for the development of novel USP7 inhibitors and especially for anti-gastric cancer drugs.
Self-catalyzed phototandem perfluoroalkylation/cyclization of unactivated alkenes: Synthesis of perfluoroalkyl-substituted quinazolinones
Sun, Bin,Huang, Panyi,Yan, Zhiyang,Shi, Xiayue,Tang, Xiaoli,Yang, Jin,Jin, Can
supporting information, p. 1026 - 1031 (2021/02/06)
A novel visible-light-induced radical tandem trifluoromethylation/cyclization of unactivated alkenes with sodium perfluoroalkanesulfinates (Rf = CF3, C3F7, C4F9, C6F13, C8F17) under air atmosphere has been developed. A range of quinazolinones containing unactivated alkene moiety and sodium perfluoroalkanesulfinates were compatible with this transformation, leading to a variety of perfluoroalkyl-substituted quinazoline alkaloids. Remarkably, the experiment can be carried out without any metal catalyst, strong oxidant, or external photosensitizer.
Photoinduced homolytic decarboxylative acylation/cyclization of unactivated alkenes with α-keto acid under external oxidant and photocatalyst free conditions: access to quinazolinone derivatives
Sun, Bin,Shi, Rongcheng,Zhang, Kesheng,Tang, Xiaoli,Shi, Xiayue,Xu, Jiayun,Yang, Jin,Jin, Can
supporting information, p. 6050 - 6053 (2021/06/21)
A novel and green strategy for the synthesis of acylated quinazolinone derivativesviaphoto-induced decarboxylative cascade radical acylation/cyclization of quinazolinone bearing unactivated alkenes has been developed. The protocol provides a novel route to access acyl radicals from α-keto acids through a self-catalyzed energy transfer process. Most importantly, the reaction proceeded smoothly without any external photocatalyst, additive or oxidant, and could be easily scaled-up in flow conditions with sunlight irradiation.
Photo-Triggered Self-Induced Homolytic Dechlorinative Sulfonylation/Cyclization of Unactivated Alkenes: Synthesis of Quinazolinones Containing a Sulfonyl Group
Ding, Hao,Huang, Pan-Yi,Jin, Can,Shen, Run-Pu,Sun, Bin,Tian, Hai-Xia,Wu, Chun-Lei
supporting information, (2021/12/22)
A self-photocatalyzed sulfonylation/cyclization of quinazolinones containing unactivated alkenes with various sulfonyl chlorides was developed. The protocol provides access to sulfonyl radicals via energy transfer from the quinazolinone skeleton to the sulfonyl chloride. Notably, the transformations proceeded without any external photocatalysts, additives, or oxidants, providing an alternative method for fabricating sulfonylated compounds.
Photo-triggered self-catalyzed fluoroalkylation/cyclization of unactivated alkenes: Synthesis of quinazolinones containing the CF2R group
Yang, Jin,Sun, Bin,Ding, Hao,Huang, Pan-Yi,Tang, Xiao-Li,Shi, Rong-Cheng,Yan, Zhi-Yang,Yu, Chuan-Ming,Jin, Can
supporting information, p. 575 - 581 (2021/01/28)
A novel photo-triggered self-catalyzed fluoroalkylation/cyclization of quinazolinones containing unactivated alkenes with various fluoroalkyl bromides has been developed. This transformation exhibits excellent substrate generality with respect to both the coupling partners. Of note is that this is the first example describing the Csp3-Br bond homolysis of alkyl bromides via a substrate (quinazolinones) induced energy transfer process. Additionally, the mild conditions, tolerance to a wide range of functional groups and operational simplicity make this protocol practical for the synthesis of fluorine-containing ring-fused quinazolinones. This journal is
Visible-Light-Induced Radical Difluoromethylation/Cyclization of Unactivated Alkenes: Access to CF2H-Substituted Quinazolinones
Chen, Xiaoyu,Liu, Bo,Pei, Congcong,Li, Jingya,Zou, Dapeng,Wu, Yangjie,Wu, Yusheng
supporting information, p. 7787 - 7791 (2021/10/20)
A mild and efficient visible-light-induced radical difluoromethylation/cyclization of unactivated alkenes toward the synthesis of substituted quinazolinones with easily accessible difluoromethyltriphenylphosphonium bromide has been developed. The transformation has the advantages of wide functional group compatibility, a broad substrate scope, and operational simplicity. The benign protocol offers a facile access to pharmaceutically valuable difluoromethylated polycyclic quinazolinones.
