High affinity and low PARP-trapping benzimidazole derivatives as a potential warhead for PARP1 degraders.

PARPi have been explored and applied in the treatment of various cancers with remarkable efficacy, especially BRCA1/2 mutated ovarian, breast, prostate, and pancreatic cancers. However, PARPi renders inevitable drug resistance and showed high toxicity because of PARP-Trapping with long-term clinic tracking. To overcome the drug resistance and the high toxicity of PARPi, many novel methods have been developed including PROTACs. Being an event-driven technology, PROTACs needs a high affinity, low toxicity warhead with no steric hindrance in binding process. Veliparib shows the lowest PARP-Trapping effect but could hardly to be the warhead of PROTACs because of the strong steric hindrance. Other PARP1 inhibitors showed less steric hindrance but owns high PARP-Trapping effect. Thus, the development of novel warhead with high PARP1 affinity, low PARP1-Trapping, and no steric hindrance would be valuable. In this work, we reserved benzimidazole as the motif to reserve the low PARP1-Trapping effect and substituted the pyrrole by aromatic ring to avoiding the steric hindrance in PARP1 binding cave. Thus, a series of benzimidazole derivates were designed and synthesized, and some biological activities in vitro were evaluated including the inhibition for PARP1 enzyme and the PARP-Trapping effect using MDA-MB-436 cell line. Results showed that the compound 19A10 has higher PARP1 affinity(IC50 = 4.62 nM)) and similar low PARP-Trapping effect compared with Veliparib(IC50 (MDA-MB-436) >100 µM). Docking study showed that the compound 19A10 could avoiding the steric hindrance which was much better than Veliparib. So, the compound 19A10 could potentially be a perfect warhead for PARP1 degraders. Besides, because of the depletion of the PARP1 and the decreasing of the binding capability, we suppose that the PROTACs using 19A10 as the warhead would be no-PARP-Trapping effect. Furthermore, QSAR study showed that to develop novel compounds with high PARP1 binding affinity and low PARP-Trapping, we can choose the skeleton with substituent R1H, R2 = piperiazine, and R3 with large tPSA. And, if we want to develop the compounds with high PARP1 binding affinity and high PARP-Trapping which can possibly improve the lethality against tumor cells, we can choose the skeleton with substituent R1F, R2 = 3-methy-piperiazine, and R3 with large tPSA.

The role of stromal cells in epithelial-mesenchymal plasticity and its therapeutic potential.

The epithelial-mesenchymal transition (EMT) is a critical tumor invasion and metastasis process. EMT enables tumor cells to migrate, detach from their original location, enter the circulation, circulate within it, and eventually exit from blood arteries to colonize in foreign sites, leading to the development of overt metastases, ultimately resulting in death. EMT is intimately tied to stromal cells around the tumor and is controlled by a range of cytokines secreted by stromal cells. This review summarizes recent research on stromal cell-mediated EMT in tumor invasion and metastasis. We also discuss the effects of various stromal cells on EMT induction and focus on the molecular mechanisms by which several significant stromal cells convert from foes to friends of cancer cells to fuel EMT processes via their secretions in the tumor microenvironment (TME). As a result, a better knowledge of the role of stromal cells in cancer cells' EMT may pave the path to cancer eradication.

The Progress of Small Molecule Targeting BCR-ABL in the Treatment of Chronic Myeloid Leukemia.

Chronic myelogenous leukemia (CML) is a malignant myeloproliferative disease. According to the American Cancer Society's 2021 cancer data report, new cases of CML account for about 15% of all leukemias. CML is generally divided into three stages: chronic phase, accelerated phase, and blast phase. Nearly 90% of patients are diagnosed as a chronic phase. Allogeneic stem cell transplantation and chemotherapeutic drugs, such as interferon IFN-α were used as the earliest treatments for CML. However, they could generate obvious side effects, and scientists had to seek new treatments for CML. A new era of targeted therapy for CML began with the introduction of imatinib, the first-generation BCR-ABL kinase inhibitor. However, the ensuing drug resistance and mutant strains led by T315I limited the further use of imatinib. With the continuous advancement of research, tyrosine kinase inhibitors (TKI) and BCR-ABL protein degraders with novel structures and therapeutic mechanisms have been discovered. From biological macromolecules to classical target protein inhibitors, a growing number of compounds are being developed to treat chronic myelogenous leukemia. In this review, we focus on summarizing the current situation of a series of candidate small-molecule drugs in CML therapy, including TKIs and BCR-ABL protein degrader. The examples provided herein describe the pharmacology activity of small-molecule drugs. These drugs will provide new enlightenment for future treatment directions.

Design, synthesis, and evaluation of 1H-benzo[d]imidazole-4-carboxamide PARP-1 inhibitors using different saturated nitrogen-contained heterocycle as linker group.

Poly (ADP-ribose) polymerase-1 (PARP-1) inhibitors have been successfully applied in the clinical treatment of various cancer. Side effects and drug resistant cases were reported, and more effective PARP-1 inhibitors were required. However, studies on the AD site of PARP-1 inhibitors are currently incomplete. Therefore, to synthesize more potential candidate PARP-1 inhibitors and disclose some AD site SAR of the PARP-1 inhibitors, herein, a series of 2-phenyl-benzimidazole-4-carboxamide derivatives using different saturated nitrogen-contained heterocycles as linker group (6a-6t) have been designed, synthesized, and evaluated PARP-1 inhibitory activity and proliferation inhibitory against BRCA-1 mutant MDA-MB-436 cell line in vitro. The results showed 6b (IC50 = 8.65 nM) exhibited the most PARP-1 enzyme inhibitory activity comparable with Veliparib (IC50 = 15.54 nM) and Olaparib (IC50 = 2.77 nM); 6m exhibited the strongest MDA-MB-436 cell anti-proliferation activity (IC50 = 25.36 ± 6.06 µM) comparable with Olaparib (IC50 = 23.89 ± 3.81 µM). The compounds 6b, 6r, and 6m could be potential candidates for effective PARP-1 inhibitors and valuable for further optimization. The analysis of activity data also showed that the holistically anti-proliferation activity of the 1,4-diazepane group was about~twofold than that of the piperazine group. Meanwhile, the terminal 3-methyl-furanyl group exhibited the most robust PARP-1 inhibitory and anti-proliferation activity. It is hoped that the results could benefitable for further optimization of PARP-1 inhibitors. Furthermore, we note that some compounds (6d,6g,6n,6p,6s) showed poor PARP-1 inhibitory (>500 nM) but relatively good anti-proliferation activity, which indicates the proliferation inhibitory mechanism against MDA-MB-436 cell line was worth investigating in-depth.

Applications of "linkers" in fragment-based drug design.

Fragment-based drug discovery, as a complementary method to traditional screening, has a broad momentum of development in academia, as well as large pharmaceutical companies and biotechnology laboratories. It is used to select favorable combinations of fragments or extend new drug molecules to obtain highly active drug candidates. The strategies used to develop active molecules from fragments are usually three approaches: growth, ligation and incorporation, where the ligation approach provides a theoretical opportunity for rapid access to binding energy. Here, we highlight linkers with different types and classifications that have been published in the past ten years, and explain how these linkers are designed and introduced into lead compounds to obtain potential candidate compounds.

Withdrawal: Advances in Development of Drugs for Chronic Myelogenous Leukemia

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Recent Progress in the Research on Benzimidazole PARP-1 Inhibitors.

Poly (ADP-ribose) polymerase-1 (PARP-1) is a multifunctional protein that plays an important role in DNA repair and genome integrity. PARP-1 inhibitors can be used as effective drugs not only to treat BRCA-1/2 deficient cancers because of the synthetic lethality effect but also to treat non- BRCA1/2 deficient tumours because of the effect of PARP capture. Therefore, PARP inhibitors have become a focus of compelling research. Among these inhibitors, substituted benzimidazole derivatives were mainly concerned as lead compounds. However, the commercially available benzimidazole PARP-1 inhibitors have some shortcomings, such as serious toxicity in combination with chemotherapy drugs and in vivo cardiovascular side effects such as anemia. Therefore it is crucial for scientists to explore more structure-activity relationships of the benzimidazole PARP-1 inhibitors and access safer and more effective PARP inhibitors. As the binding regions of PARP-1 and the substrates are usually characterized by NI site and AD site, the modification of benzimidazoles mainly occurs on the benzimidazole skeleton (NI site) and the side chain of benzimidazole in the 2-C position (AD site). Herein, the recent progress in the research on benzamides PARP inhibitors was introduced. We noticed that even though many efforts were made to the modification of NI sites, there was still a lack of optimistic and impressive results. However, the structure-activity relationships of the modification of AD sites have not been thoroughly discovered yet. We hope that enlightened by the previous research, more research on AD sites should be carried out, and more effective benzimidazole PARP-1 inhibitors could be designed, synthesized, and applied to clinics.

Recent progress of research on anti-tumor agents using benzimidazole as the structure unit.

With the development of exploration for disease-related proteins or receptors, more and more novel structural lead compounds are required to designed and synthesized. The benzimidazole is an effective structural unit in which the benzene ring is fused at the 4 and 5 positions of the imidazole ring and wildly used in drug design. Here, we introduce some recent progress of research for anti-tumor agents which was target to various target proteins such as DNA topoisomerase, angiogenesis, serine/threonine protein kinase, and tyrosine protein kinase. These anti-tumor agents are all introduced benzimidazole as the structure unit. Further docking study showed that the benzimidazole group was not only act as a skeleton to expand the structure of molecule but also as an excellent ligand unit to form hydrogen bond or π-π conjugation and hydrophobic interaction with target proteins or receptors. We expect that introducing benzimidazole in the chemical structure could be a reasonable and priority strategy in novel anti-tumor agents' design.

Synthesis and evaluation of 2-(4-[4-acetylpiperazine-1-carbonyl] phenyl)-1H-benzo[d]imidazole-4-carboxamide derivatives as potential PARP-1 inhibitors and preliminary study on structure-activity relationship.

Although 1H-benzo[d]imidazole-4-carboxamide derivatives have been explored for a long time, the structure-activity relationship of the substituents in the hydrophobic pocket (AD binding sites) has not thoroughly discovered. Here in, a series of 2-(4-[4-acetylpiperazine-1-carbonyl]phenyl)-1H-benzo[d]imidazole-4-carboxamide derivatives have been designed, synthesized, and successful characterization as novel and effective poly ADP-ribose polymerases (PARP)-1 inhibitors to improve the structure-activity relationships about the substituents in the hydrophobic pocket. These derivatives were evaluated for their PARP-1 inhibitory activity and cellular inhibitory against BRCA-1 deficient cells (MDA-MB-436) and wild cells (MCF-7) using PARP kit assay and MTT method. The results indicated that compared with other heterocyclic compounds, furan ring-substituted derivatives 14n-14q showed better PARP-1 inhibitory activity. Among this derivatives, compound 14p displayed the strongest inhibitory effects on PARP-1 enzyme (IC50  = 0.023 µM), which was close to that of Olaparib. 14p (IC50  = 43.56 ± 0.69 µM) and 14q (IC50  = 36.69 ± 0.83 µM) displayed good antiproliferation activity on MDA-MB-436 cells and inactivity on MCF-7 cells, indicating that 14p and 14q have high selectivity and targeting. The molecular docking method was used to explore the binding mode of compound 14p and PARP-1, and implied that the formation of hydrogen bond was essential for PARP-1 inhibition activities. This study also showed that in the hydrophobic pocket (AD binding sites), the introduction of strong electronegative groups (furan ring, e.g.) or halogen atoms in the side chain of benzimidazole might improve its inhibitory activity and this strategy could be applied in further research.

Anti-chronic myeloid leukemia activity and quantitative structure-activity relationship of novel thiazole aminobenzamide derivatives.

The anti-chronic myeloid leukemia activity of thiazole aminobenzamide derivatives in vitro was tested by a methanethiosulfonate (MTS)-based viability assay method, and the result showed that some compounds exhibited good inhibitory activities against human chronic myeloid leukemia cell line K562, imatinib-resistant strain K562/R and T135I mutant cell line BaF3-ABL-BCR-T315I. Comparative molecular field analysis (CoMFA) and comparative molecular similarity index analysis (CoMSIA) methods were used to analyze the relationship between the structure of thiazole aminobenzamide derivatives and the inhibition of K562/R cell activity. In CoMFA, Q2 was 0.899 and R2 was 0.963; in CoMSIA, Q2 and R2 were 0.840 and 0.903, respectively. These data indicated that the selected test set showed suitable external predictive ability. Combined with the contour map results, we further analyzed the three-dimensional quantitative structure (3D-QSAR) model. The results demonstrated that in the backbone of the thiazole aminobenzamide derivative, the substitution of a small group at R1 position, or the introduction of a hydrophilic group at R2 position, or the introduction of a large-volume amino acid at R3 position may be beneficial to improve the anti-CML activity of the compound.

Design, synthesis, and biological evaluation of 3',4',5'-trimethoxy evodiamine derivatives as potential antitumor agents.

A series of compounds bearing 3',4',5'-trimethoxy module into the core structure of evodiamine were designed and synthesized. The synthesized compounds were screened in vitro for their antitumor potential. MTT results showed that compounds 14a-14c and 14i-14j had significant effects, with compound 14h being the most prominent, with an IC50 value of 3.3 ± 1.5 µM, which was lower than evodiamine and 5-Fu. Subsequent experiments further confirmed that compound 14h could inhibit cell proliferation and migration, and induce G2/M phase arrest to inhibit the proliferation of HGC-27 cells, which is consistent with the results of the cytotoxicity experiment. Besides, 14h could inhibit microtubule assembly and might kill tumor cells by inhibiting VEGF and glycolysis. All experimental results indicate that compound 14h might be a potential drug candidate for the treatment of gastric cancer and was worthy of further study.

Recent advances in Bcr-Abl tyrosine kinase inhibitors for overriding T315I mutation.

BCR-ABL is a gene produced by the fusion of the bcr gene and the c-abl proto-oncogene and is considered to be the main cause of chronic myelogenous leukemia (CML) production. Therefore, the development of selective Bcr-Abl kinase inhibitors is an attractive strategy for the treatment of CML. However, in the treatment of CML with a Bcr-Abl kinase inhibitor, the T315I gatekeeper mutant disrupts the important contact interaction between the inhibitor and the enzyme, resistant to the first- and second-generation drugs currently approved, such as imatinib, bosutinib, nilotinib, and dasatinib. In order to overcome this special resistance, several different strategies have been explored, and many molecules have been studied to effectively inhibit Bcr-Abl T315I. Some of these molecules are still under development, and some are being studied preclinically, and still others are in clinical research. Herein, this review reports some of the major examples of third-generation Bcr-Abl inhibitors against the T315I mutation.

Anti-proliferative activity and structure-activity relationship of honokiol derivatives.

As a known natural product with anti-tumor activity, honokiol has been widely researched and structural modified. Lots of honokiol derivatives have been found to possess good anti-proliferative activity and showed great potential in cancer therapy, but the SAR (structure-activity relationship) was still confused. Here in, the SAR were comprehensively researched by summary of reported derivatives and synthesis of novel derivatives. Amongst novel derivatives, the promising compounds A6 and A10 exhibited potent and selective anti-proliferative activities against K562 cell line with the IC50 values of 5.04 and 7.08 µM respectively. The SAR was discussed around honokiol and 79 derivatives by the means of CoMFA and theoretical calculation, which provided useful suggestion for further structural optimization of honokiol derivatives.

Design, synthesis and biological evaluation of tryptamine salicylic acid derivatives as potential antitumor agents.

A series of tryptamine salicylic acid derivatives were synthesized and their antiproliferative activity against MGC-803, MCF-7, HepG2, A549 and HeLa cell lines was evaluated. The structure-activity relationship (SAR) study revealed that different substitutions of the C5 and C3'-C5' positions have certain effects on the anti-proliferation activity. The growth assay revealed that N-[2-(5-bromo-1H-indol-3-yl)-ethyl]-2-hydroxy-3-methyl-benzamide (E20) showed the most potent and broad-spectrum anticancer inhibition of all the cell lines evaluated, and was only more potent than 5-Fu for the gastric cancer cell line. Preliminary studies indicated that compound E20 could inhibit colony formation and migration of MGC-803 cells. The flow cytometry (FCM) results showed that compound E20 arrested the cell cycle in the G2/M phase and induced apoptosis of MGC-803 cells in a concentration-dependent manner. In addition, the western blot results showed that E20 can down-regulate the expression of hexokinase 2. Our studies suggest that the framework of N-[2-(5-bromo-1H-indol-3-yl)-ethyl]-2-hydroxy-3-methyl-benzamide may be consider as a new type of chemical for designing effective anti-cancer drugs targeting gastric cancer cells.

FS-7 inhibits MGC-803 cells growth in vitro and in vivo via down-regulating glycolysis.

In this study, we investigated the anticancer effects of FS-7, a flavonoid salicylate derivative, in human gastric carcinoma MGC-803 cell line and studied its preliminary anticancer effects. FS-7 displayed greater in vitro cytotoxicity against MGC-803 cell line compared with 5-Fu and had a certain extent of selectivity to cancer cells. The flow cytometry analysis revealed that FS-7 induced apoptosis MGC-803 cells and mainly caused cells arrest in the G2/M phase in a concentration-dependent manner. Additionally, FS-7 inhibited the colony formation and cell migration in a concentration-dependent manner. Notably, FS-7 noticeably down-regulated glycolysis-related protein HIF-1α, HK-II and PFKP expression in a concentration-dependent manner, possibly causing glycolysis inhibition. Importantly, compared with 5-Fu, FS-7 showed better anticancer activity in the MGC-803 xenograft murine tumor models. Collectively, the present study provided a promising anticancer drug candidate for gastric cancer therapy.

Design, synthesis and broad-spectrum Bcr-Abl inhibitory activity of novel thiazolamide-benzamide derivatives.

Bcr-Abl plays an important role in the pathogenesis and development of chronic myeloid leukemia (CML). But Bcr-Abl is prone to mutation, so it increases the difficulty of clinical treatment. Therefore, it is crucial to design a new class of broad-spectrum Bcr-Abl inhibitors. Herein, forty novel thiazolamide-benzamide derivatives were synthesized and evaluated their broad-spectrum Bcr-Abl inhibitory activities. The newly synthesized compounds were characterized by using spectrum data (1H NMR, APCI-MS and IR) and elemental analysis. The protein kinase results indicated that eight compounds (3a, 3e, 3m, 3n, 3p, 4c, 4f, 4g) showed high activities to wild-type and T315I mutation. The most potent compound 3m exhibited an Abl IC50 value as low as 1.273 µM and showed inhibition to the T315I mutant with IC50 value 39.89 µM. 3m could prove to be a new promising lead compound for the further development of broad-spectrum Bcr-Abl inhibitors to overcome clinical acquired resistance.

Semi-synthesis, structural modification and biological evaluation of 5-arylbenzofuran neolignans.

5-Arylbenzofuran neolignans, a newfound class of natural products, were reported to possess several kinds of pharmacological activities. To solve the lack of natural sources and promote the research of 5-arylbenzofuran neolignans in all fields, an available semi-synthesis methodology of 5-arylbenzofuran neolignans was developed, and a detailed structural modification was conducted. In the meantime, a one-pot process of Waker-type cyclization and Wacker-type oxidation was developed. To explore the potential of 5-arylbenzofuran neolignans as bioactive substances, 5-arylbenzofuran neolignans and their derivatives were evaluated for their cytotoxicity. As a result, a preliminary structure-activity relationship was obtained. Most derivatives revealed low cytotoxic effects suggesting that they were relatively safer than the natural 5-arylbenzofuran neolignan. Several derivatives showed high cytotoxicities which were found to be closely associated with apoptosis-inducing. The selectivity assay for cytotoxicity showed tumor cells were more sensitive to the promising compounds than normal cells.

Design and synthesis of 4-alkyl-2-amino(acetamino)-6-aryl-1,3-thiazine derivatives as influenza neuraminidase inhibitors.

With a convenient and economical method, two series of 1,3-thiazine derivatives 1 and 2 were synthesized, and their neuraminidase (NA) inhibitory activities were evaluated. The pharmacological results showed that most of the compounds have potent NA inhibitory activity. Especially, 1g exhibited the best activity against influenza virus A (H1N1) NA (IC50=29.06 µg/mL), and its crystal structure was determined by single-crystal X-ray diffraction. The preliminary biological assay indicated that 1,3-thiazine could be used as a core structure to design novel influenza NA inhibitors.

[LUO Zhao-Ju: a famous expert of acupuncture and moxibustion].

To introduce the contribution of LUO Zhao-ju an famous acupuncturist and educationist in Guangxi. After studying on his works and papers, LUO Zhao ju's contributions are promoting clinical acupuncture practices, promoting acupuncture education, acupuncture manipulation, improving acupuncture techniques, and reasonable practices according to the original theory of acupuncture and moxibustion.

[Brief research on the life of LUO Zhao-ju, a modern acupuncturist, and his works].

LUO Zhao-ju's life stories are confirmed and described clearly by widely collecting and systematically analyzing the source materials referring to LUO Zhao-ju. This paper also summarizes his extant sixteen medical books and textbooks and his nineteen papers. LUO Zhao-ju has dedicated his life to combined approach of the theory and clinic of acupuncture and moxibustion, laying equal stress on education and writing, and he has made great contributions to acupuncture and moxibustion in our country.