Your search keyword '"Tan, Jia-Heng"' showing total 85 results

1. G-Quadruplex conformational change driven by pH variation with potential application as a nanoswitch.

Author

Yan, Yi-Yong, Tan, Jia-Heng, Lu, Yu-Jing, Yan, Siu-Cheong, Wong, Kwok-Yin, Li, Ding, Gu, Lian-Quan, and Huang, Zhi-Shu

Subjects

*QUADRUPLEX nucleic acids, *HYDROGEN-ion concentration, *PROTEIN structure, *CIRCULAR dichroism, *ADENINE, *ACRYLAMIDE, *NANOSTRUCTURED materials

Abstract

Abstract: Background: G-Quadruplex is a highly polymorphic structure, and its behavior in acidic condition has not been well studied. Methods: Circular dichroism (CD) spectra were used to study the conformational change of G-quadruplex. The thermal stabilities of the G-quadruplex were measured with CD melting. Interconversion kinetics profiles were investigated by using CD kinetics. The fluorescence of the inserted 2-Aminopurine (Ap) was monitored during pH change and acrylamide quenching, indicating the status of the loop. Proton NMR was adopted to help illustrate the change of the conformation. Results: G-Quadruplex of specific loop was found to be able to transform upon pH variation. The transformation was resulted from the loop rearrangement. After screening of a library of diverse G-quadruplex, a sequence exhibiting the best transformation property was found. A pH-driven nanoswitch with three gears was obtained based on this transition cycle. Conclusions: Certain G-quadruplex was found to go through conformational change at low pH. Loop was the decisive factor controlling the interconversion upon pH variation. G-Quadruplex with TT central loop could be converted in a much milder condition than the one with TTA loop. It can be used to design pH-driven nanodevices such as a nanoswitch. General significance: These results provide more insights into G-quadruplex polymorphism, and also contribute to the design of DNA-based nanomachines and logic gates. [Copyright &y& Elsevier]

Published

2013

2. Disubstituted quinazoline derivatives as a new type of highly selective ligands for telomeric G-quadruplex DNA

Author

Li, Zeng, Tan, Jia-Heng, He, Jin-Hui, Long, Yi, Ou, Tian-Miao, Li, Ding, Gu, Lian-Quan, and Huang, Zhi-Shu

Subjects

*QUINAZOLINE, *DRUG derivatives, *LIGANDS (Biochemistry), *QUADRUPLEX nucleic acids, *NUCLEAR magnetic resonance, *SURFACE plasmon resonance, *FLUORESCENCE resonance energy transfer

Abstract

Abstract: A series of 2,4-disubstituted quinazoline derivatives found to be a new type of highly selective ligand to bind with telomeric G-quadruplex DNA, and their biological properties were reported for the first time.Their interactions with telomeric G-quadruplex DNA were evaluated by using fluorescence resonance energy transfer (FRET) melting assay, circular dichroism (CD) spectroscopy, surface plasmon resonance (SPR), nuclear magnetic resonance (NMR), and molecular modeling. Our results showed that these derivatives could well recognize G-quadruplex and have high selectivity toward G-quadruplex over duplex DNA. The structure–activity relationships (SARs) study revealed that the disubstitution of quinazoline and the length of the amide side chain were important for its interaction with the G-quadruplex. Furthermore, telomerase inhibition of the quinazoline derivatives and their cellular effects were studied. [Copyright &y& Elsevier]

Published

2012

3. Studies on the binding of 5-N-methylated quindoline derivative to human telomeric G-quadruplex

Author

Xu, Wei, Tan, Jia-Heng, Chen, Shuo-Bin, Hou, Jin-Qiang, Li, Ding, Huang, Zhi-Shu, and Gu, Lian-Quan

Subjects

*QUADRUPLEX nucleic acids, *LIGAND binding (Biochemistry), *CALORIMETRY, *TELOMERASE, *ENZYME inhibitors, *THERMODYNAMICS, *ENTHALPY, *MOLECULAR recognition

Abstract

Abstract: Quindoline derivatives as telomeric quadruplex ligands have shown good biological activity for telomerase inhibition. In the present study, we used spectroscopic and calorimetric methods to investigate the interactions between a quindoline derivative (5-methyl-11-(2-morpholinoethylamino)-10-H-indolo-[3,2-b]quinolin-5-ium iodide, compound 1) and human telomeric G-quadruplex. The thermodynamic studies using isothermal titration calorimetry (ITC) indicated that their binding process was temperature-dependent and enthalpy–entropy co-driven. The significant negative heat capacity was obtained experimentally from the temperature dependence of enthalpy changes, which was consistent with that from theoretical calculation, and all suggesting significant hydrophobic contribution to the molecular recognition process. Based on the results from UV–vis, ITC, steady-state and time-resolved fluorescence, their binding mode was determined as two ligand molecules stacking on the quartets on both ends of the quadruplex. These results shed light on rational design and development of quindoline derivatives as G-quadruplex binding ligands. [Copyright &y& Elsevier]

Published

2011

4. Pharmacophore-based discovery of triaryl-substituted imidazole as new telomeric G-quadruplex ligand

Author

Chen, Shuo-Bin, Tan, Jia-Heng, Ou, Tian-Miao, Huang, Shi-Liang, An, Lin-Kun, Luo, Hai-Bin, Li, Ding, Gu, Lian-Quan, and Huang, Zhi-Shu

Subjects

*PHARMACEUTICAL research, *IMIDAZOLES, *QUADRUPLEX nucleic acids, *LIGANDS (Biochemistry), *DRUG synergism, *BIOSYNTHESIS, *DNA, *MOLECULAR models, *THERAPEUTICS

Abstract

Abstract: Discovery of potent and selective ligands for telomeric G-quadruplex DNA is a challenging work. Through a combination approach of pharmacophore model construction, model validation, database virtual screening, chemical synthesis and interaction evaluation, we discovered and confirmed triaryl-substituted imidazole TSIZ01 to be a new telomeric G-quadruplex ligand with potent binding and stabilizing activity to G-quadruplex DNA, as well as a 8.7-fold selectivity towards telomeric G-quadruplex DNA over duplex DNA. [ABSTRACT FROM AUTHOR]

Published

2011

5. Bisaryldiketene derivatives: A new class of selective ligands for c-myc G-quadruplex DNA

Author

Peng, Dan, Tan, Jia-Heng, Chen, Shuo-Bin, Ou, Tian-Miao, Gu, Lian-Quan, and Huang, Zhi-Shu

Subjects

*LIGANDS (Biochemistry), *QUADRUPLEX nucleic acids, *DNA, *KETENES, *ORGANIC synthesis, *RING formation (Chemistry), *POLYMERASE chain reaction

Abstract

Abstract: A series of bisaryldiketene derivatives were designed and synthesized as a new class of specific G-quadruplex ligands. The ligand–quadruplex interactions were further evaluated by FRET, ITC, and PCR stop assay. In contrast to most of the G-quadruplex ligands reported so far, which comprise an extended aromatic ring, these compounds are neither polycyclic nor macrocyclic, but have a non-aromatic and relative flexible linker between two quinoline moieties enabling the conformation of compounds to be flexible. Our results showed that these bisaryldiketene derivatives could selectively recognize G-quadruplex DNA rather than binding to duplex DNA. Moreover, they showed promising discrimination between different G-quadruplex DNA. The primary binding affinity of ligand M2 for c-myc G-quadruplex DNA was over 200 times larger than that for telomere G-quadruplex DNA. [ABSTRACT FROM AUTHOR]

Published

2010

6. Design, synthesis and evaluation of isaindigotone derivatives as acetylcholinesterase and butyrylcholinesterase inhibitors

Author

Pan, Li, Tan, Jia-Heng, Hou, Jin-Qiang, Huang, Shi-Liang, Gu, Lian-Quan, and Huang, Zhi-Shu

Subjects

*CHOLINESTERASES, *ACETYLCHOLINESTERASE, *ESTERASES, *HYDROLASES

Abstract

Abstract: A series of isaindigotone derivatives 5a–d and 6a–d were designed, synthesized and evaluated as acetylcholinesterase and butyrylcholinesterase inhibitors. Results showed that the novel class of isaindigotone derivatives could inhibit both cholinesterases and the selectivity of AChE over BuChE inhibition was related to the aromatic, the species and length of the alkyl amino side chain of compounds. The structure–activity relationships were discussed and their multiple binding modes were further clarified in the molecular docking studies. [Copyright &y& Elsevier]

Published

2008

7. Spectroscopic studies of DNA binding modes of cation-substituted anthrapyrazoles derived from emodin

Author

Tan, Jia-Heng, Lu, Yu-jing, Huang, Zhi-Shu, Gu, Lian-Quan, and Wu, Jian-Yong

Subjects

*DNA, *THYMUS, *GENES, *DRUG-DNA interactions, *MOLECULAR structure

Abstract

Abstract: The DNA binding properties of three cation-substituted anthrapyrazole derivatives of emodin with calf thymus DNA were characterized by spectroscopic methods and the specific binding modes were elucidated. At low drug and high DNA concentrations, compound 1 with a mono-cationic amino side chain exhibited an intercalative binding mode, 2 with a much longer and more flexible di-cationic side chain exhibited an external binding mode, and 3 with a rigid di-cationic side chain exhibited both intercalative and external binding modes. The DNA binding mode of compounds was altered after structural modification. The molecular structure–DNA binding relationships found from this study may be useful for the design of anthrapyrazole derivatives with desired binding characteristics. [Copyright &y& Elsevier]

Published

2007

8. L‐aspartate ameliorates diet‐induced obesity by increasing adipocyte energy expenditure.

Author

Guo, Shi‐Yao, Hu, Yu‐Tao, Rao, Yong, Jiang, Zhi, Li, Chan, Lin, Yu‐Wei, Xu, Shu‐min, Zhao, Dan‐Dan, Wei, Li‐yuan, Huang, Shi‐Liang, Li, Qing‐Jiang, Tan, Jia‐Heng, Chen, Shuo‐Bin, and Huang, Zhi‐Shu

Subjects

*WEIGHT loss, *WHITE adipose tissue, *OBESITY, *BODY mass index, *BODY weight

Abstract

Aims: Obesity always leads to profound perturbation of metabolome. Metabolome studies enrich the knowledge on associations between endogenous metabolites and obesity, potentially providing innovative strategies for the development of novel anti‐obesity pharmacotherapy. This study aims to identify an endogenous metabolite that regulates energy expenditure and to explore its application for obesity treatment. Materials and Methods: C57BL/6 mice were fed with a high‐fat and high‐cholesterol (HFC) diet, comprising 60% fat and 1.2% cholesterol, for 12 weeks to induce obesity. Significant metabolites were identified in the livers of both health and obese mice through comparative hepatic metabolomics analysis. Correlation between serum or adipose L‐aspartate level and body weight in obese mice, as well as human body mass index (BMI), was evaluated. In addition, saline or 200 mg/kg L‐aspartate was orally administrated to HFC diet mice and HFC diet‐induced obese mice for 6–7 weeks. Body weight, adipose tissue weight, glucose tolerance and liver damage were assessed to evaluate the effect on obesity prevention and treatment. Comprehensive lab animal monitoring system (CLAMS) and seahorse assay were employed to investigate the regulatory effect of L‐aspartate on energy metabolism in vivo and in vitro, respectively. 3T3‐L1 preadipocytes and murine white adipose tissue (WAT) were utilized to examine the impact of L‐aspartate on adipocyte adipogenesis and lipogenesis and cellular signalling pathway in vitro and in vivo. Results: L‐aspartate, an approved drug for liver injury and chronic fatigue, was identified as an endogenous inducer of energy expenditure. Serum or adipose L‐aspartate levels were found to be negatively correlated with the severity of obesity in both humans and mice. Administration of L‐aspartate to HFC diet mice led to a significant reduction in body weight, with decreases of 14.5% in HFC diet mice and 8.5% in HFC diet‐induced obese mice, respectively. In addition, the treatment improved related metabolic syndrome (Figure 2 and Figure S3). These therapeutics were associated with enhancements in whole‐body energy expenditure and suppression of adipocyte adipogenesis along with activation of Adenosine 5′‐monophosphate‐activated protein kinase (AMPK) signalling pathway. Conclusion: L‐aspartate may serve as a novel endogenous inducer of energy expenditure and suppressor of adipogenesis and lipogenesis along with activation of AMPK, thereby offering a promising therapeutic strategy for obesity prevention and treatment. [ABSTRACT FROM AUTHOR]

Published

2025

9. Mitochondrial RelA empowers mtDNA G-quadruplex formation for hypoxia adaptation in cancer cells.

Author

Tang, Gui-Xue, Li, Mao-Lin, Zhou, Cui, Huang, Zhi-Shu, Chen, Shuo-Bin, Chen, Xiu-Cai, and Tan, Jia-Heng

Subjects

*METABOLIC reprogramming, *MITOCHONDRIAL DNA, *GENETIC testing, *QUADRUPLEX nucleic acids, *ENERGY metabolism, *MITOCHONDRIA

Abstract

Mitochondrial DNA (mtDNA) G-quadruplexes (G4s) have important regulatory roles in energy metabolism, yet their specific functions and underlying regulatory mechanisms have not been delineated. Using a chemical-genetic screening strategy, we demonstrated that the JAK/STAT3 pathway is the primary regulatory mechanism governing mtDNA G4 dynamics in hypoxic cancer cells. Further proteomic analysis showed that activation of the JAK/STAT3 pathway facilitates the translocation of RelA, a member of the NF-κB family, to the mitochondria, where RelA binds to mtDNA G4s and promotes their folding, resulting in increased mtDNA instability, inhibited mtDNA transcription, and subsequent mitochondrial dysfunction. This binding event disrupts the equilibrium of energy metabolism, catalyzing a metabolic shift favoring glycolysis. Collectively, the results provide insights into a strategy employed by cancer cells to adapt to hypoxia through metabolic reprogramming. [Display omitted] • JAK/STAT3 pathway modulates mtDNA G4s in hypoxic cancer cells • mtDNA G4s are stabilized by RelA translocated to mitochondria upon JAK/STAT3 activation • RelA-induced mtDNA G4 formation allows the cancer cells to metabolically adapt to hypoxia Tang et al. employ molecular probes to elucidate how cancer cells manipulate mtDNA G-quadruplexes (G4s) to enhance glycolysis under hypoxia. This involves activating the JAK/STAT3 pathway and transporting RelA to mitochondria, which increases mtDNA G4 formation, exacerbates mitochondrial dysfunction, and promotes glycolysis as a response to hypoxic stress. [ABSTRACT FROM AUTHOR]

Published

2024

10. A rapid and highly sensitive immunosorbent assay to monitor helicases unwinding diverse nucleic acid structures.

Author

Wang, Jia-En, Zhou, Ying-Chen, Wu, Bi-Han, Chen, Xiu-Cai, Zhai, Junqiu, Tan, Jia-Heng, Huang, Zhi-Shu, and Chen, Shuo-Bin

Subjects

*NUCLEIC acids, *DNA denaturation, *HELICASES, *HOLLIDAY junctions, *DNA helicases, *DEOXYRIBOZYMES

Abstract

Helicases are crucial enzymes in DNA and RNA metabolism and function by unwinding particular nucleic acid structures. However, most convenient and high-throughput helicase assays are limited to the typical duplex DNA. Herein, we developed an immunosorbent assay to monitor the Werner syndrome (WRN) helicase unwinding a wide range of DNA structures, such as a replication fork, a bubble, Holliday junction, G-quadruplex and hairpin. This assay could sensitively detect the unwinding of DNA structures with detection limits around 0.1 nM, and accurately monitor the substrate-specificity of WRN with a comparatively less time-consuming and high throughput process. Remarkably, we have established that this new assay was compatible in evaluating helicase inhibitors and revealed that the inhibitory effect was substrate-dependent, suggesting that diverse substrate structures other than duplex structures should be considered in discovering new inhibitors. Our study provided a foundational example for using this new assay as a powerful tool to study helicase functions and discover potent inhibitors. [ABSTRACT FROM AUTHOR]

Published

2023

11. Fluorescent Quinolinium Derivative as Novel Mitochondria Probe and Function Modulator by Targeting Mitochondrial RNA.

Author

Wang, Bo-Zheng, Zhou, Ying-Chen, Lin, Yu-Wei, Chen, Xiu-Cai, Yu, Ze-Yi, Xu, Yao-Hao, Tan, Jia-Heng, Huang, Zhi-Shu, and Chen, Shuo-Bin

Subjects

*MITOCHONDRIAL RNA, *MITOCHONDRIA, *CELL cycle, *COLORECTAL cancer, *CANCER cells, *ENERGY metabolism, *PLANT mitochondria

Abstract

Mitochondria have a crucial role in regulating energy metabolism and their dysfunction has been linked to tumorigenesis. Cancer diagnosis and intervention have a great interest in the development of new agents that target biomolecules within mitochondria. However, monitoring and modulating mitochondria RNA (mtRNA), an essential component in mitochondria, in cells is challenging due to limited functional research and the absence of targeting agents. In this study, we designed and synthesized a fluorescent quinolinium derivative, QUCO-1, which actively lit up with mtRNA in both normal and cancer cells in vitro. Additionally, we evaluated the function of QUCO-1 as an mtRNA ligand and found that it effectively induced severe mitochondrial dysfunction and OXPHOS inhibition in RKO colorectal cancer cells. Treatment with QUCO-1 resulted in apoptosis, cell cycle blockage at the G2/M phase, and the effective inhibition of cell proliferation. Our findings suggest that QUCO-1 has great potential as a promising probe and therapeutic agent for mtRNA, with the potential for treating colorectal cancer. [ABSTRACT FROM AUTHOR]

Published

2023

12. Identification of sanguinarine as c-MYC transcription inhibitor through enhancing the G-quadruplex-NM23-H2 interactions.

Author

Zhong, Li-Ting, Yuan, Jing-Mei, Fu, Wen-Li, Zhang, Zi-Lin, Li, Xiaoya, Ou, Tian-Miao, Tan, Jia-Heng, Huang, Zhi-Shu, and Chen, Shuo-Bin

Subjects

*CANCER cell growth, *GENETIC transcription, *PROMOTERS (Genetics), *SMALL molecules, *SANGUINARINE

Abstract

[Display omitted] • Sanguinarine (SG) and its analogs have been identified as c-MYC G4 binders. • SG enhanced NM23-H2 binding to c-MYC G4 leading to c-MYC transcriptional repression. • SG inhibited cancer cell growth in an NM23-H2-dependent manner. • SG might act as an orthosteric stabilizer of the DNA-protein complex on their interface. c-MYC is a proto-oncogene ubiquitously overexpressed in various cancers. The formation of G-quadruplex (G4) structures within the c-MYC promoter region can regulate its transcription by interfering with protein binding. Consequently, small molecules targeting c-MYC G4 have emerged as promising anticancer agents. Herein, we report that sanguinarine (SG) and its analogs exhibit a high affinity for c-MYC G4 and potently modulate G4-protein interactions within a natural product library. Notably, SG uniquely enhances NM23-H2 binding to c-MYC G4, both in vitro and in cellular contexts, leading to c-MYC transcriptional repression and subsequent inhibition of cancer cell growth in an NM23-H2-dependent manner. Mechanistic studies and molecular modeling suggest that SG binds to the c-MYC G4/NM23-H2 interface, acting as an orthosteric stabilizer of the DNA-protein complex and preventing c-MYC transcription. Our findings identify SG as a potent c-MYC transcription inhibitor and provide a novel strategy for developing G4-targeting anticancer therapeutics through modulation of G4-protein interactions. [ABSTRACT FROM AUTHOR]

Published

2024

13. An RNA G‐Quadruplex Structure within the ADAR 5′UTR Interacts with DHX36 Helicase to Regulate Translation.

Author

Lyu, Kaixin, Chen, Shuo‐Bin, Chow, Eugene Yui‐Ching, Zhao, Haizhou, Yuan, Jia‐Hao, Cai, Meng, Shi, Jiahai, Chan, Ting‐Fung, Tan, Jia‐Heng, and Kwok, Chun Kit

Subjects

*RNA, *GENE expression, *RNA editing, *REPORTER genes, *QUADRUPLEX nucleic acids, *PROTEIN-protein interactions, *DNA helicases

Abstract

RNA G‐quadruplex (rG4) structures in the 5′ untranslated region (5′UTR) play crucial roles in fundamental cellular processes. ADAR is an important enzyme that binds to double‐strand RNA and accounts for the conversion of Adenosine to Inosine in RNA editing. However, so far there is no report on the formation and regulatory role of rG4 on ADAR expression. Here, we identify and characterize a thermostable rG4 structure within the 5′UTR of the ADAR1 mRNA and demonstrate its formation and inhibitory role on translation in reporter gene and native gene constructs. We reveal rG4‐specific helicase DHX36 interacts with this rG4 in vitro and in cells under knockdown and knockout conditions by GTFH (G‐quadruplex‐triggered fluorogenic hybridization) probes and modulates translation in an rG4‐dependent manner. Our results further substantiate the rG4 structure‐DHX36 protein interaction in cells and highlight rG4 to be a key player in controlling ADAR1 translation. [ABSTRACT FROM AUTHOR]

Published

2022

14. An RNA G‐Quadruplex Structure within the ADAR 5′UTR Interacts with DHX36 Helicase to Regulate Translation.

Author

Lyu, Kaixin, Chen, Shuo‐Bin, Chow, Eugene Yui‐Ching, Zhao, Haizhou, Yuan, Jia‐Hao, Cai, Meng, Shi, Jiahai, Chan, Ting‐Fung, Tan, Jia‐Heng, and Kwok, Chun Kit

Subjects

*RNA, *GENE expression, *RNA editing, *REPORTER genes, *QUADRUPLEX nucleic acids, *PROTEIN-protein interactions, *DNA helicases

Abstract

RNA G‐quadruplex (rG4) structures in the 5′ untranslated region (5′UTR) play crucial roles in fundamental cellular processes. ADAR is an important enzyme that binds to double‐strand RNA and accounts for the conversion of Adenosine to Inosine in RNA editing. However, so far there is no report on the formation and regulatory role of rG4 on ADAR expression. Here, we identify and characterize a thermostable rG4 structure within the 5′UTR of the ADAR1 mRNA and demonstrate its formation and inhibitory role on translation in reporter gene and native gene constructs. We reveal rG4‐specific helicase DHX36 interacts with this rG4 in vitro and in cells under knockdown and knockout conditions by GTFH (G‐quadruplex‐triggered fluorogenic hybridization) probes and modulates translation in an rG4‐dependent manner. Our results further substantiate the rG4 structure‐DHX36 protein interaction in cells and highlight rG4 to be a key player in controlling ADAR1 translation. [ABSTRACT FROM AUTHOR]

Published

2022

15. Colorimetric and fluorescence detection of G-quadruplex nucleic acids with a coumarin–benzothiazole probe.

Author

Yan, Jin-wu, Tian, Yi-guang, Tan, Jia-heng, and Huang, Zhi-shu

Subjects

*COLORIMETRIC analysis, *QUADRUPLEX nucleic acids, *COUMARINS, *BENZOTHIAZOLE, *FLUORESCENT probes

Abstract

A colorimetric and red-emitting fluorescent dual probe for G-quadruplexes was devised with a conjugated coumarin–benzothiazole scaffold. Its significant and distinct changes in both color and fluorescence enable the label-free and visual detection of G-quadruplex structures. In addition, this probe gives a distinct strong emission response to the nucleoli in fixed cells imaging, which might be attributed to the interaction between the probe and rDNA G-quadruplex based on the chromatin immunoprecipitation assay. All these results suggest its promising application prospects in the G-quadruplex research field. [ABSTRACT FROM AUTHOR]

Published

2015

16. Targeting G-quadruplex nucleic acids with heterocyclic alkaloids and their derivatives.

Author

Xiong, Yun-Xia, Huang, Zhi-Shu, and Tan, Jia-Heng

Subjects

*QUADRUPLEX nucleic acids, *HETEROCYCLIC compound derivatives, *ALKALOIDS, *MOLECULAR structure of RNA, *NUCLEOTIDE sequence, *MESSENGER RNA

Abstract

G-Quadruplex nucleic acids or G-quadruplexes (G4s) are four-stranded DNA or RNA secondary structures that are formed in guanine-rich sequences. They are widely distributed in functional regions of the human genome, such as telomeres, ribosomal DNA (rDNA), transcription start sites, promoter regions and untranslated regions of mRNA, suggesting that G-quadruplex structures may play a pivotal role in the control of a variety of cellular processes. G-Quadruplexes are viewed as valid therapeutic targets in human cancer diseases. Small molecules, from naturally occurring to synthetic, are exploited to specifically target G-quadruplexes and have proven to be a new class of anticancer agents. Notably, alkaloids are an important source of G-quadruplex ligands and have significant bioactivities in anticancer therapy. In this review, the authors provide a brief, up-to-date summary of heterocyclic alkaloids and their derivatives targeting G-quadruplexes. [ABSTRACT FROM AUTHOR]

Published

2015

17. Development of a Highly Selective and Sensitive Fluorescent Probe for Imaging RNA Dynamics in Live Cells.

Author

Fang, Lan, Shao, Wen, Zeng, Shu-Tang, Tang, Gui-Xue, Yan, Jia-Tong, Chen, Shuo-Bin, Huang, Zhi-Shu, Tan, Jia-Heng, and Chen, Xiu-Cai

Subjects

*FLUORESCENT probes, *RNA, *CELL imaging, *GRANULE cells, *DETECTION limit

Abstract

RNA imaging is of great importance for understanding its complex spatiotemporal dynamics and cellular functions. Considerable effort has been devoted to the development of small-molecule fluorescent probes for RNA imaging. However, most of the reported studies have mainly focused on improving the photostability, permeability, long emission wavelength, and compatibility with live-cell imaging of RNA probes. Less attention has been paid to the selectivity and detection limit of this class of probes. Highly selective and sensitive RNA probes are still rarely available. In this study, a new set of styryl probes were designed and synthesized, with the aim of upgrading the detection limit and maintaining the selectivity of a lead probe QUID−1 for RNA. Among these newly synthesized compounds, QUID−2 was the most promising candidate. The limit of detection (LOD) value of QUID−2 for the RNA was up to 1.8 ng/mL in solution. This property was significantly improved in comparison with that of QUID−1. Further spectroscopy and cell imaging studies demonstrated the advantages of QUID−2 over a commercially available RNA staining probe, SYTO RNASelect, for highly selective and sensitive RNA imaging. In addition, QUID−2 exhibited excellent photostability and low cytotoxicity. Using QUID−2, the global dynamics of RNA were revealed in live cells. More importantly, QUID−2 was found to be potentially applicable for detecting RNA granules in live cells. Collectively, our work provides an ideal probe for RNA imaging. We anticipate that this powerful tool may create new opportunities to investigate the underlying roles of RNA and RNA granules in live cells. [ABSTRACT FROM AUTHOR]

Published

2022

18. G-quadruplex-mediated regulation of telomere binding protein POT1 gene expression.

Author

He, Qingqing, Zeng, Ping, Tan, Jia-Heng, Ou, Tian-Miao, Gu, Lian-Quan, Huang, Zhi-Shu, and Li, Ding

Subjects

*QUADRUPLEX nucleic acids, *TELOMERES, *CARRIER proteins, *GENETIC regulation, *POLYMERASE chain reaction, *LUCIFERASES

Abstract

Abstract: Background: Telomere is protected by its G-quadruplex, T-loop structure, telomerase, and binding protein complex. Protein POT1 (protection of telomeres 1) is one subunit of telomere binding protein complex Shelterin. POT1 acts as a regulator of telomerase-dependent telomere length, and it can help telomere to form D-loop structure to stabilize telomere. POT1 protects telomere ends from ATR-dependent DNA damage response as well. Methods: Extensive methods were used, including CD, EMSA, ITC, PCR stop assay, luciferase reporter assay, quantitative real-time PCR, Western blot, chromatin immunoprecipitation (Ch-IP), cloning, expression and purification of proteins. Results: We found a new G-rich 30-base-pair long sequence (P-pot1 G18) located from −165 to −136 base pairs upstream of the translation starting site of protein POT1. This sequence in the promoter region of pot1 gene formed G-quadruplex resulting in down-regulation of pot1 gene transcription. This G-rich sequence is close to a binding site “TCCC” for transcription factor hnRNP K (heterogeneous nuclear ribonucleoprotein K), and its conversion to G-quadruplex prevented the access of hnRNP K to this binding site. The binding of hnRNP K could up-regulate pot1 gene transcription. TMPyP4 (meso-tetra(N-methyl-4-pyridyl)porphine) has been widely used as G-quadruplex binding ligand, which stabilized the G-quadruplex in vitro and in cellulo, resulting in down-regulation of pot1 gene transcription. Conclusions: This G-quadruplex might become a potentially new drug target for antitumor agents. General significance: Our results first demonstrated that G-quadruplex formation can affect the binding of transcription factor to its nearby binding site, and thus making additional influence to gene transcription. [Copyright &y& Elsevier]

Published

2014

19. β-Biguanidinium-cyclodextrin: a supramolecular mimic of mitochondrial ADP/ATP carrier protein.

Author

Chen, Huo-Yan, Zhao, Meng, Tan, Jia-Heng, Huang, Zhi-Shu, Liu, Gao-Feng, Ji, Liang-Nian, and Mao, Zong-Wan

Subjects

*CYCLODEXTRINS, *SUPRAMOLECULAR chemistry, *MITOCHONDRIAL proteins, *ADENOSINE diphosphate, *ADENOSINE triphosphate, *CARRIER proteins

Abstract

We reported a novel mono-β-cyclodextrin derivative, mono-6-deoxy-6-biguanidino-β-cyclodextrin (β-biGCD), which was investigated as a mimic of ADP/ATP carrier (AAC). Its affinity toward AMP, ADP, and ATP was evaluated by means of isothermal titration calorimetry (ITC). The association constants (K a) of β-biGCD binding to AMP, ADP, and ATP were determined to be (1.07±0.04)×106, (5.86±0.02)×106, and (4.33±0.06)×106 L mol−1, respectively, which were 100-fold higher than mono-guanidino-β-cyclodextrin (ca. 104 L mol−1). UV spectroscopic titrations further confirmed the above results. The interaction between β-biGCD and nucleotides was probed by docking simulation. These results reveal that the biguanidinium moiety mimics the arginine residues of mitochondrial AAC protein. [ABSTRACT FROM AUTHOR]

Published

2014

20. Facile syntheses of disubstituted bis(vinylquinolinium)benzene derivatives as G-quadruplex DNA binders.

Author

Liu, Zhen-Quan, Zhuo, Shi-Tian, Tan, Jia-Heng, Ou, Tian-Miao, Li, Ding, Gu, Lian-Quan, and Huang, Zhi-Shu

Subjects

*SUBSTITUTION reactions, *BENZENE derivatives, *DNA-binding proteins, *QUADRUPLEX nucleic acids, *BENZENE synthesis, *CIRCULAR dichroism

Abstract

Abstract: A series of disubstituted bis(vinylquinolinium)benzene derivatives were designed, which were prepared through a facile three-component one-pot reaction in good yield. FRET results showed that 1,3-disubstituted benzene derivatives had much stronger stabilization effect on G-quadruplex DNA than that of 1,4-disubstituted benzene derivatives. The introduction of substituted amine side chain at quinolinium obviously increased the binding affinity of compounds to G-quadruplex DNA. It was also found that 1,3-disubstituted benzene derivatives and 1,4-disubstituted benzene derivatives had different effects on the conformation of G-quadruplex DNA by CD spectroscopy analysis. The differences for the interactions of these two classes of compounds with G-quadruplex were further studied and elaborated through molecular modeling experiments. [Copyright &y& Elsevier]

Published

2013

21. New insights from molecular dynamic simulation studies of the multiple binding modes of a ligand with G-quadruplex DNA.

Author

Hou, Jin-Qiang, Chen, Shuo-Bin, Tan, Jia-Heng, Luo, Hai-Bin, Li, Ding, Gu, Lian-Quan, and Huang, Zhi-Shu

Subjects

*MOLECULAR dynamics, *LIGANDS (Biochemistry), *QUADRUPLEX nucleic acids, *TELOMERASE, *NAPHTHALENE, *BINDING agents

Abstract

G-quadruplexes are higher-order DNA and RNA structures formed from guanine-rich sequences. These structures have recently emerged as a new class of potential molecular targets for anticancer drugs. An understanding of the three-dimensional interactions between small molecular ligands and their G-quadruplex targets in solution is crucial for rational drug design and the effective optimization of G-quadruplex ligands. Thus far, rational ligand design has been focused mainly on the G-quartet platform. It should be noted that small molecules can also bind to loop nucleotides, as observed in crystallography studies. Hence, it would be interesting to elucidate the mechanism underlying how ligands in distinct binding modes influence the flexibility of G-quadruplex. In the present study, based on a crystal structure analysis, the models of a tetra-substituted naphthalene diimide ligand bound to a telomeric G-quadruplex with different modes were built and simulated with a molecular dynamics simulation method. Based on a series of computational analyses, the structures, dynamics, and interactions of ligand-quadruplex complexes were studied. Our results suggest that the binding of the ligand to the loop is viable in aqueous solutions but dependent on the particular arrangement of the loop. The binding of the ligand to the loop enhances the flexibility of the G-quadruplex, while the binding of the ligand simultaneously to both the quartet and the loop diminishes its flexibility. These results add to our understanding of the effect of a ligand with different binding modes on G-quadruplex flexibility. Such an understanding will aid in the rational design of more selective and effective G-quadruplex binding ligands. [ABSTRACT FROM AUTHOR]

Published

2012

22. Synthesis and biological evaluation of novel N, N′-bis-methylenedioxybenzyl-alkylenediamines as bivalent anti-Alzheimer disease ligands.

Author

Luo, Wen, Li, Yan-Ping, Tan, Jia-Heng, Gu, Lian-Quan, and Huang, Zhi-Shu

Subjects

*ALZHEIMER'S disease, *LIGANDS (Biochemistry), *CHOLINESTERASE inhibitors, *CATALYSTS, *ANTIOXIDANTS, *ANTINEOPLASTIC agents, *DRUG design, *NEUROBLASTOMA

Abstract

A novel series of N, N′-bis-methylenedioxybenzyl-alkylenediamines 5a- 5g have been designed, synthesized and evaluated as bivalent anti-Alzheimer's disease ligands. The enzyme inhibition assay results indicated that compounds 5e- 5g inhibit both acetylcholinesterase (AChE) and butyrylcholinesterase (BuChE) in the micromolar range (IC50, 2.76-4.24 µM for AChE and 3.02-5.14 µM for BuChE), which was in the same potential as the reference compound rivastigmine (IC50, 5.50 µM for AChE and 1.60 µM for BuChE). It was found that compounds could bind simultaneously to the peripheral and catalytic sites of AChE. β-Amyloid (Aβ) aggregation inhibition assay results showed that compound 5e exhibited highest self-mediated Aβ fibril aggregation inhibition activity (40.3%) with a similar potential as curcumin (41.6%). It was also found that 5e- 5g did not affect neuroblastoma cell viability at the concentration of 50 μM. [ABSTRACT FROM AUTHOR]

Published

2011

23. Quinolino-benzo-[5, 6]-dihydroisoquindolium compounds derived from berberine: A new class of highly selective ligands for G-quadruplex DNA in c-myc oncogene

Author

Ma, Yan, Ou, Tian-Miao, Tan, Jia-Heng, Hou, Jin-Qiang, Huang, Shi-Liang, Gu, Lian-Quan, and Huang, Zhi-Shu

Subjects

*HYDROXYQUINOLINE, *BERBERINE, *MYC oncogenes, *LIGANDS (Biochemistry), *QUADRUPLEX nucleic acids, *PYRIDINE, *POLYMERASE chain reaction, *CELL lines

Abstract

Abstract: A series of quinolino-benzo-[5, 6]-dihydroisoquindolium compounds (3a, 3f, 3g, and 3j) derived from alkaloid berberine were designed and synthesized as novel G-quadruplex ligands. Subsequent biophysical and biochemical evaluation demonstrated that the addition of pyridine ring and amino group into berberine improved the binding ability and selectivity towards G-quadruplex DNA in comparison with the previously reported 9-N-substituted berberine derivatives. Furthermore, qRT-PCR assay showed compound 3j led the down-regulation of c-myc gene transcription in leukemia cell line HL60, while little effect on normal cell line ECV-304, which was consistent with the behavior of an effective G-quadruplex ligand targeting c-myc oncogene. [Copyright &y& Elsevier]

Published

2011

24. Synthesis and evaluation of 9-O-substituted berberine derivatives containing aza-aromatic terminal group as highly selective telomeric G-quadruplex stabilizing ligands

Author

Ma, Yan, Ou, Tian-Miao, Tan, Jia-Heng, Hou, Jin-Qiang, Huang, Shi-Liang, Gu, Lian-Quan, and Huang, Zhi-Shu

Subjects

*BERBERINE, *DRUG derivatives, *QUADRUPLEX nucleic acids, *ORGANIC synthesis, *TELOMERES, *LIGANDS (Biochemistry), *TELOMERASE, *ENZYME inhibitors

Abstract

Abstract: A series of new 9-O-substituted berberine derivatives (4a–j) as telomeric quadruplex ligands was synthesized and evaluated. The results from biophysical and biochemical assay indicated that introducing of positive charged aza-aromatic terminal group into the side chain of 9-position of berberine significantly improved the binding ability with G-quadruplex, and exhibited the inhibitory effect on the hybridization and on telomerase activity. These derivatives showed excellent selectivity for telomeric G-quadruplex DNA over duplex. [Copyright &y& Elsevier]

Published

2009

25. A novel HSF1 activator ameliorates non‐alcoholic steatohepatitis by stimulating mitochondrial adaptive oxidation.

Author

Rao, Yong, Li, Chan, Hu, Yu‐Tao, Xu, Yao‐Hao, Song, Bing‐Bing, Guo, Shi‐Yao, Jiang, Zhi, Zhao, Dan‐Dan, Chen, Shuo‐Bin, Tan, Jia‐Heng, Huang, Shi‐Liang, Li, Qing‐Jiang, Wang, Xiao‐Jun, Zhang, Ying‐Jun, Ye, Ji‐Ming, and Huang, Zhi‐Shu

Subjects

*NON-alcoholic fatty liver disease, *HEAT shock factors, *FATTY liver, *HIGH cholesterol diet, *MITOCHONDRIA

Abstract

Background and Purpose: Non‐alcoholic steatohepatitis (NASH) is the more severe form of metabolic associated fatty liver disease (MAFLD) and no pharmacological treatment as yet been approved. Identification of novel therapeutic targets and their agents is critical to overcome the current inadequacy of drug treatment for NASH. Experimental Approach The correlation between heat shock factor 1 (HSF1) levels and the development of NASH and the target genes of HSF1 in hepatocyte were investigated by chromatin‐immunoprecipitation sequencing. The effects and mechanisms of SYSU‐3d in alleviating NASH were examined in relevant cell models and mouse models (the Ob/Ob mice, high‐fat and high‐cholesterol diet and the methionine‐choline deficient diet‐fed mice). The actions of SYSU‐3d in vivo were evaluated. Key Results: HSF1 is progressively reduced with mitochondrial dysfunction in NASH pathogenesis and activation of this transcription factor by its newly identified activator SYSU‐3d effectively inhibited all manifestations of NASH in mice. When activated, the phosphorylated HSF1 (Ser326) translocated to nucleus and bound to the promoter of PPARγ coactivator‐1α (PGC‐1α) to induce mitochondrial biogenesis. Thus, increasing mitochondrial adaptive oxidation and inhibiting oxidative stress. The deletion of HSF1 and PGC‐1α or recovery of HSF1 in HSF1‐deficiency cells showed the HSF1/PGC‐1α pathway was mainly responsible for the anti‐NASH effects of SYSU‐3d independent of AMP‐activated protein kinase (AMPK). Conclusion and Implications: Activation of HSF1 is a practical therapeutic approach for NASH treatment via the HSF1/PGC‐1α/mitochondrial pathway and SYSU‐3d can be considered as a potential candidate for the treatment of NASH. [ABSTRACT FROM AUTHOR]

Published

2022

26. Platinum(ii)-triarylpyridines complexes with electropositive pendants as efficient G-quadruplex bindersElectronic supplementary information (ESI) available: Synthesis of the ligands L1–L3and complexes 1–3, ESI-MS spectra, 1H NMR spectra, CD titration, FRET melting experiments, PCR stop assay and Molecular Modelling. See DOI: 10.1039/c0dt01161d

Author

Wang, Jin-Tao, Li, Yi, Tan, Jia-Heng, Ji, Liang-Nian, and Mao, Zong-Wan

Subjects

*COMPLEX compounds synthesis, *PLATINUM compounds, *TRANSITION metal complexes, *PYRIDINE, *QUADRUPLEX nucleic acids, *BINDING agents, *LIGANDS (Chemistry), *NUCLEAR magnetic resonance spectroscopy

Abstract

Herein we reported three new platinum(ii)-triarylpyridines complexes with peralkylated ammonium pendants that strongly stabilize G-quadruplex DNA. [ABSTRACT FROM AUTHOR]

Published

2010

27. Targeting ATP-binding site of WRN Helicase: Identification of novel inhibitors through pocket analysis and Molecular Dynamics-Enhanced virtual screening.

Author

Yuan, Hao, Liu, Run-Duo, Gao, Zhuo-Yu, Zhong, Li-Ting, Zhou, Ying-Chen, Tan, Jia-Heng, Huang, Zhi-Shu, Li, Zhe, and Chen, Shuo-Bin

Subjects

*DNA helicases, *MEDICAL screening, *DNA structure, *ADENOSINE triphosphatase, *BINDING sites, *WERNER'S syndrome

Abstract

[Display omitted] • Pocket analysis revealed the ATP-binding site for WRN inhibitor discovery. • Molecular dynamics-enhanced virtual screening identified two novel WRN inhibitors. • Hit compounds selectively inhibited WRN's helicase and ATPase in vitro. • Molecular modeling revealed inhibitor binding mechanisms in ATP-binding site. WRN helicase is a critical protein involved in maintaining genomic stability, utilizing ATP hydrolysis to dissolve DNA secondary structures. It has been identified as a promising synthetic lethal target for microsatellite instable (MSI) cancers. However, few WRN helicase inhibitors have been discovered, and their potential binding sites remain unexplored. In this study, we analyzed potential binding sites for WRN inhibitors and focused on the ATP-binding site for screening new inhibitors. Through molecular dynamics-enhanced virtual screening, we identified two compounds, h6 and h15 , which effectively inhibited WRN's helicase and ATPase activity in vitro. Importantly, these compounds selectively targeted WRN's ATPase activity, setting them apart from other non-homologous proteins with ATPase activity. In comparison to the homologous protein BLM, h6 exhibits some degree of selectivity towards WRN. We also investigated the binding mode of these compounds to WRN's ATP-binding sites. These findings offer a promising strategy for discovering new WRN inhibitors and present two novel scaffolds, which might be potential for the development of MSI cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

28. Constructing triazole-modified quinazoline derivatives as selective c-MYC G-quadruplex ligands and potent anticancer agents through click chemistry.

Author

Cai, Jiong-Heng, Yang, Dan-Yan, Zhang, Jun-Jie, Tan, Jia-Heng, Huang, Zhi-Shu, and Chen, Shuo-Bin

Subjects

*CLICK chemistry, *QUINAZOLINE, *QUADRUPLEX nucleic acids, *ANTINEOPLASTIC agents, *LIGANDS (Chemistry), *PROMOTERS (Genetics)

Abstract

[Display omitted] • A new triazole-modified quinazoline derivatives were developed as c-MYC G4 ligands through Click Chemistry. • Compound A6 exhibited high selectivity in stabilizing c-MYC G4 and in suppressing G4-related c-MYC transcription. • Our findings identify a potent anticancer agent and provide new insights for optimizing c-MYC G4-targeting ligands. c-MYC is a hallmark of various cancers, playing a critical role in promoting tumorigenesis. The formation of G-quadruplex (G4) in the c-MYC promoter region significantly suppresses its expression. Therefore, developing small-molecule ligands to stabilize c-MYC G4 formation and subsequentially suppress c-MYC expression is an attractive topic for c-MYC -driven cancer therapy. However, achieving selective ligands for c-MYC G4 poses challenges. In this study, we developed a series of triazole-modified quinazoline (TMQ) derivatives as potential c-MYC G4 ligands and c-MYC transcription inhibitors from 4-anilinoquinazoline lead 7a using click chemistry. Importantly, the c-MYC G4 stabilizing ability and antiproliferation activity were well correlated among these new derivatives, particularly in the c-MYC highly expressed colorectal cancer cell line HCT116. Among them, compound A6 exhibited good selectivity in stabilizing c-MYC G4 and in suppressing c-MYC transcription better than 7a. This compound induced G4 formation, selectively inhibited G4-related c-MYC transcription and suppressed the progression of HCT116 cells. These findings identify a new c-MYC transcription inhibitor and provide new insights for optimizing c-MYC G4-targeting ligands. [ABSTRACT FROM AUTHOR]

Published

2024

29. Development of a multitasking fluorescent probe for differentiating G-Quadruplex structures.

Author

Hu, Ming-Hao, Chen, Xiao, and Tan, Jia-Heng

Subjects

*PHOTOINDUCED electron transfer, *FLUORESCENT probes, *NUCLEIC acids, *QUADRUPLEX nucleic acids, *MOLECULAR conformation

Abstract

G-quadruplexes exhibit extensive structural polymorphism, which are highly related to their biological functions. To date, multitasking probes that can simultaneously discriminate among parallel, antiparallel G-quadruplexes and single-/double-stranded nucleic acids have never been reported. In this study, we designed a probe IZNP-2 based on the photoinduced electron transfer (PeT) mechanism. Conformation analysis firstly revealed that IZNP-2 was a smart probe, of which the fluorescence varied according to its molecular conformations. Then, fluorescence assays demonstrated that IZNP-2 could not only differentiate between parallel and antiparallel G-quadruplexes, but also discriminate antiparallel G-quadruplexes from single-/double-stranded nucleic acids. To understand this multitasking ability, we performed various experiments, including absorption titrations, lifetime experiments, Job plot assays and 2-Ap experiments, to investigate the binding modes, which suggested that IZNP-2 might exhibit "Stretched", "Semi-stretched" and "Stacked" conformations when targeting different nucleic acid topologies, alleviating the PeT to different extents and thus inducing differentiable fluorescence. Furthermore, we broadened the application of IZNP-2 in discriminating between multimeric and monomeric G-quadruplexes. To the best of our knowledge, such a study provides a first example of developing a multitasking fluorescent probe for differentiating different G-quadruplex structures by exploiting the PeT mechanism. • A smart fluorescent probe has been rationally developed based on the photoinduced electron transfer mechanism. • The smart probe can differentiate different kinds of G-quadruplex structures. • Our study provides an example of discovering a multitasking probe for differentiating G-quadruplex structures. [ABSTRACT FROM AUTHOR]

Published

2019

30. Tuning the selectivity of a commercial cyanine nucleic acid dye for preferential sensing of hybrid telomeric G-quadruplex DNA.

Author

Wang, Yu-Qing, Hu, Ming-Hao, Guo, Rui-Jun, Chen, Shuo-Bin, Huang, Zhi-Shu, and Tan, Jia-Heng

Subjects

*BINDING sites, *BENZOTHIAZOLE, *MONOMERS, *THIAZOLES, *DYES & dyeing

Abstract

Recent years have witnessed an ever-increasing interest in G-quadruplexes for diagnostic and therapeutic applications. This calls for the development of highly selective probes that can differentiate a particular structure among large quantities of G-quadruplexes. However, to this day, there are few probes that show satisfactory selectivity for a particular G-quadruplex structure. In this study, we engineered a new probe called TO-BTZ by introducing an additional benzothiazole moiety on a commercial cyanine dye thiazole orange (TO). Such a modification of TO significantly tuned its selectivity toward the hybrid telomeric G-quadruplex DNA by specifically targeting the unique binding site formed near the 5′-end G-quartet. Such specific interactions disassembled the TO-BTZ H-aggregate to its monomers and further hindered the molecular rotation of the TO-BTZ monomer, thus leading to fluorescence enhancement. Furthermore, we observed that TO-BTZ has the potential to sense telomeric G-quadruplexes in cells. Taken together, this work will shed light on the search for a new generation of probes that can distinguish between different G-quadruplex structures. [ABSTRACT FROM AUTHOR]

Published

2018

31. Tracking the Dynamic Folding and Unfolding of RNA G‐Quadruplexes in Live Cells.

Author

Chen, Xiu‐Cai, Chen, Shuo‐Bin, Dai, Jing, Yuan, Jia‐Hao, Ou, Tian‐Miao, Huang, Zhi‐Shu, and Tan, Jia‐Heng

Subjects

*FLUORESCENT probes, *QUADRUPLEX nucleic acids, *REACTION mechanisms (Chemistry), *ALDEHYDES, *FLUORESCENCE spectroscopy, *FORMAMIDE

Abstract

Abstract: Because of the absence of methods for tracking RNA G‐quadruplex dynamics, especially the folding and unfolding of this attractive structure in live cells, understanding of the biological roles of RNA G‐quadruplexes is so far limited. Herein, we report a new red‐emitting fluorescent probe, QUMA‐1, for the selective, continuous, and real‐time visualization of RNA G‐quadruplexes in live cells. The applications of QUMA‐1 in several previously intractable applications, including live‐cell imaging of the dynamic folding, unfolding, and movement of RNA G‐quadruplexes and the visualization of the unwinding of RNA G‐quadruplexes by RNA helicase have been demonstrated. Notably, our real‐time results revealed the complexity of the dynamics of RNA G‐quadruplexes in live cells. We anticipate that the further application of QUMA‐1 in combination with appropriate biological and imaging methods to explore the dynamics of RNA G‐quadruplexes will uncover more information about the biological roles of RNA G‐quadruplexes. [ABSTRACT FROM AUTHOR]

Published

2018

32. Tracking the Dynamic Folding and Unfolding of RNA G‐Quadruplexes in Live Cells.

Author

Chen, Xiu‐cai, Chen, Shuo‐bin, Dai, Jing, Yuan, Jia‐hao, Ou, Tian‐miao, Huang, Zhi‐shu, and Tan, Jia‐heng

Subjects

*PROTEIN folding, *RNA analysis, *LIVER cells, *QUADRUPLEX nucleic acids, *DIMETHYL sulfate, *PHYSIOLOGY

Abstract

Abstract: Because of the absence of methods for tracking RNA G‐quadruplex dynamics, especially the folding and unfolding of this attractive structure in live cells, understanding of the biological roles of RNA G‐quadruplexes is so far limited. Herein, we report a new red‐emitting fluorescent probe, QUMA‐1, for the selective, continuous, and real‐time visualization of RNA G‐quadruplexes in live cells. The applications of QUMA‐1 in several previously intractable applications, including live‐cell imaging of the dynamic folding, unfolding, and movement of RNA G‐quadruplexes and the visualization of the unwinding of RNA G‐quadruplexes by RNA helicase have been demonstrated. Notably, our real‐time results revealed the complexity of the dynamics of RNA G‐quadruplexes in live cells. We anticipate that the further application of QUMA‐1 in combination with appropriate biological and imaging methods to explore the dynamics of RNA G‐quadruplexes will uncover more information about the biological roles of RNA G‐quadruplexes. [ABSTRACT FROM AUTHOR]

Published

2018

33. Development of a fluorescent chemical probe with the ability to visualize nascent phase-separated stress granules.

Author

Shao, Wen, Wang, Jian, Zeng, Shu-Tang, Li, Zhang-Chi, Chen, Shuo-Bin, Huang, Zhi-Shu, Chen, Xiu-Cai, and Tan, Jia-Heng

Subjects

*FLUORESCENT probes, *STRUCTURE-activity relationships, *EUKARYOTIC cells, *PHASE separation, *CELL separation, *MOLECULAR probes

Abstract

Stress granules (SGs) are a fascinating type of membrane-less organelle that form through liquid-liquid phase separation in eukaryotic cells. Our previous investigations have been instrumental in the development of the first small-molecule fluorescent probe, named TASG , which can selectively identify SGs. However, the practical utility of TASG for monitoring SG dynamics in live cells has been hindered by the difficulty in visualizing small nascent SGs. To overcome this obstacle, the present study systematically modified the structure of TASG , with the aim of discovering fluorescent chemical probes that exhibit superior performance. Among the evaluated candidates, TASG-8 exhibited the most promising ability to image SGs. Importantly, TASG-8 possessed a critical advantage over TASG , in that it could effectively label small nascent SGs. The structure-activity relationship of the candidates was analyzed. Additionally, the underlying mechanism responsible for this enhancement was extensively explored. Collectively, our research presents a rational strategy for the development of innovative fluorescent probes that selectively target SGs, and introduces a powerful new tool, TASG-8 , which has the potential to facilitate more comprehensive and efficient investigations into the functions of SGs in cells. • The structure-activity relationship of benzothiazoles that target SGs is clarified. • TASG-8 is the first fluorescent probe capable of visualizing small nascent SGs. • Our study presents a novel concept for developing probes that are specific to SGs. [ABSTRACT FROM AUTHOR]

Published

2023

34. Syntheses and evaluation of new acridone derivatives for selective binding of oncogene c-myc promoter i-motifs in gene transcriptional regulation.

Author

Shu, Bing, Cao, Jiaojiao, Kuang, Guotao, Qiu, Jun, Zhang, Meiling, Zhang, Yan, Wang, Mingxue, Li, Xiaoya, Kang, Shuangshuang, Ou, Tian-Miao, Tan, Jia-Heng, Huang, Zhi-Shu, and Li, Ding

Subjects

*STABILIZING agents, *QUADRUPLEX nucleic acids, *LIGANDS (Chemistry)

Abstract

We synthesized a series of acridone derivatives for specific binding ligands of i-motifs. Subsequent evaluations showed that B19 could selectively bind to and stabilize the c-myc promoter i-motif without significant binding to the G-quadruplex and duplex DNA. This caused down-regulation of c-myc transcription and expression, resulting in tumor cell apoptosis. [ABSTRACT FROM AUTHOR]

Published

2018

35. Identification of small molecules capable of regulating conformational changes of telomeric G-quadruplex.

Author

Chen, Shuo-Bin, Liu, Guo-Cai, Gu, Lian-Quan, Huang, Zhi-Shu, and Tan, Jia-Heng

Subjects

*POLYMORPHIC transformations, *TELOMERES, *POTASSIUM chloride, *STRUCTURE-activity relationships, *SPECTROPHOTOMETERS, *PHYSIOLOGY

Abstract

Design of small molecules targeted at human telomeric G-quadruplex DNA is an extremely active research area. Interestingly, the telomeric G-quadruplex is a highly polymorphic structure. Changes in its conformation upon small molecule binding may be a powerful method to achieve a desired biological effect. However, the rational development of small molecules capable of regulating conformational change of telomeric G-quadruplex structures is still challenging. In this study, we developed a reliable ligand-based pharmacophore model based on isaindigotone derivatives with conformational change activity toward telomeric G-quadruplex DNA. Furthermore, virtual screening of database was conducted using this pharmacophore model and benzopyranopyrimidine derivatives in the database were identified as a strong inducer of the telomeric G-quadruplex DNA conformation, transforming it from hybrid-type structure to parallel structure. [ABSTRACT FROM AUTHOR]

Published

2018

36. Natural Alkaloids and Heterocycles as G-Quadruplex Ligands and Potential Anticancer Agents.

Author

Che, Tong, Wang, Yu-Qing, Huang, Zhou-Li, Tan, Jia-Heng, Huang, Zhi-Shu, and Chen, Shuo-Bin

Subjects

*QUADRUPLEX nucleic acids, *HUMAN genome, *ANTINEOPLASTIC agents, *ALKALOIDS, *CANCER treatment

Abstract

G-quadruplexes are four-stranded nucleic acid secondary structures that are formed in guanine-rich sequences. G-quadruplexes are widely distributed in functional regions of the human genome and transcriptome, such as human telomeres, oncogene promoter regions, replication initiation sites, and untranslated regions. Many G-quadruplex-forming sequences are found to be associated with cancer, and thus, these non-canonical nucleic acid structures are considered to be attractive molecular targets for cancer therapeutics with novel mechanisms of action. In this mini review, we summarize recent advances made by our lab in the study of G-quadruplex-targeted natural alkaloids and their derivatives toward the development of potential anticancer agents. [ABSTRACT FROM AUTHOR]

Published

2018

37. Interaction of Quindoline derivative with telomeric repeat–containing RNA induces telomeric DNA-damage response in cancer cells through inhibition of telomeric repeat factor 2.

Author

Zhang, Yan, Zeng, Deying, Cao, Jiaojiao, Wang, Mingxue, Shu, Bing, Kuang, Guotao, Ou, Tian-Miao, Tan, Jia-Heng, Gu, Lian-Quan, Huang, Zhi-Shu, and Li, Ding

Subjects

*TELOMERES, *NON-coding RNA, *DNA damage, *CANCER cells, *ALLOSTERIC regulation

Abstract

Background Telomeric repeat–containing RNA (TERRA) is a large non-coding RNA in mammalian cells, which forms an integral component of telomeric heterochromatin. TERRA can bind to an allosteric site of telomeric repeat factor 2 (TRF2), a key component of Shelterin that protect chromosome termini. Both TERRA and TRF2 have been recognized as promising new therapeutic targets for cancer treatment. Methods Our methods include FRET assay, SPR, CD, microscale thermophoresis (MST), enzyme-linked immunosorbent assay (ELISA), chromatin immunoprecipitation (ChIP), colony formation assays, Western blot, immunofluorescence, cell cycle arrest and apoptosis detection, and xCELLigence real-time cell analysis (RTCA). Results In our routine screening of small molecule libraries, we found that a Quindoline derivative, CK1-14 could bind to and stabilize TERRA G-quadruplex structure, which could bind more tightly with an allosteric site of a telomeric binding protein TRF2, resulting in dissociation of TRF2 from telomeric DNA. Further in cellular studies indicated that the above effect of CK1-14 on TERRA G-quadruplex could activate DNA-damage response and cause cell cycle arrest, resulting in inhibition of U2OS cell proliferation and causing cell apoptosis. Conclusions Our mechanistic studies indicated that interaction of CK1-14 with TERRA induces telomeric DNA-damage response in U2OS cancer cells through inhibition of TRF2. CK1-14 could be further developed as a promising lead compound targeting telomere for cancer treatment. General significance Our present study provides the first evidence that allosteric modulation of TRF2 by TERRA G-quadruplex with a binding ligand could become a promising new strategy for cancer treatment especially for ALT tumor cells. [ABSTRACT FROM AUTHOR]

Published

2017

38. Curcusone C induces telomeric DNA-damage response in cancer cells through inhibition of telomeric repeat factor 2.

Author

Wang, Mingxue, Cao, Jiaojiao, Zhu, Jian-Yong, Qiu, Jun, Zhang, Yan, Shu, Bing, Ou, Tian-Miao, Tan, Jia-Heng, Gu, Lian-Quan, Huang, Zhi-Shu, Yin, Sheng, and Li, Ding

Subjects

*TELOMERES, *DNA damage, *CANCER treatment, *DNA-protein interactions, *BINDING sites

Abstract

Telomeric repeat factor 2 (known as TRF2 or TERF2) is a key component of telomere protection protein complex named as Shelterin. TRF2 helps the folding of telomere to form T-loop structure and the suppression of ATM-dependent DNA damage response activation. TRF2 has been recognized as a potentially new therapeutic target for cancer treatment. In our routine screening of small molecule libraries, we found that Curcusone C had significant effect in disrupting the binding between TRF2 and telomeric DNA, with potent antitumor activity against cancer cells. Our result showed that Curcusone C could bind with TRF2 without binding interaction with TRF1 (telomeric repeat factor 1) although these two proteins share high sequence homology, indicating that their binding conformations and biological functions in telomere could be different. Our mechanistic studies showed that Curcusone C bound with TRF2 possibly through its DNA binding site causing blockage of its interaction with telomeric DNA. Further in cellular studies indicated that the interaction of TRF2 with Curcusone C could activate DNA-damage response, inhibit tumor cell proliferation, and cause cell cycle arrest, resulting in tumor cell apoptosis. Our studies showed that Curcusone C could become a promising lead compound for further development for cancer treatment. Here, TRF2 was firstly identified as a target of Curcusone C. It is likely that the anti-cancer activity of some other terpenes and terpenoids are related with their possible effect for telomere protection proteins. [ABSTRACT FROM AUTHOR]

Published

2017

39. Synthesis and evaluation of 7-substituted-5,6-dihydrobenzo[c]acridine derivatives as new c-KIT promoter G-quadruplex binding ligands.

Author

Guo, Qian-Liang, Su, Hua-Fei, Wang, Ning, Liao, Sheng-Rong, Lu, Yu-Ting, Ou, Tian-Miao, Tan, Jia-Heng, Li, Ding, and Huang, Zhi-Shu

Subjects

*QUADRUPLEX nucleic acids, *WESTERN immunoblotting, *CELL proliferation, *ACRIDINE, *ACRIDINES

Abstract

It has been shown that treatment of cancer cells with c-KIT G-quadruplex binding ligands can reduce their c-KIT expression levels thus inhibiting cell proliferation and inducing cell apoptosis. Herein, a series of new 7-substituted-5,6-dihydrobenzo[ c ]acridine derivatives were designed and synthesized. Subsequent biophysical evaluation demonstrated that the derivatives could effectively bind to and stabilize c-KIT G-quadruplex with good selectivity against duplex DNA. It was found that 12- N -methylated derivatives with a positive charge introduced at 12-position of 5,6-dihydrobenzo[ c ]acridine ring had similar binding affinity but lower stabilizing ability to c-KIT G-quadruplex DNA, compared with those of nonmethylated derivatives. Further molecular modeling studies showed possible binding modes of G-quadruplex with the ligands. RT-PCR assay and Western blot showed that compound 2b suppressed transcription and translation of c-KIT gene in K562 cells, which was consistent with the property of an effective G-quadruplex binding ligand targeting c-KIT oncogene promoter. Further biological evaluation showed that compound 2b could induce apoptosis through activation of the caspase-3 cascade pathway. [ABSTRACT FROM AUTHOR]

Published

2017

40. Design, synthesis and evaluation of 2-arylethenyl-N-methylquinolinium derivatives as effective multifunctional agents for Alzheimer's disease treatment.

Author

Xia, Chun-Li, Wang, Ning, Guo, Qian-Liang, Liu, Zhen-Quan, Wu, Jia-Qiang, Huang, Shi-Liang, Ou, Tian-Miao, Tan, Jia-Heng, Wang, Hong-Gen, Li, Ding, and Huang, Zhi-Shu

Subjects

*SMARTPHONES, *ALZHEIMER'S disease, *AMYLOID, *GLYCOPROTEINS, *AROMATIC compound synthesis

Abstract

A series of 2-arylethenyl- N -methylquinolinium derivatives were designed and synthesized based on our previous research of 2-arylethenylquinoline analogues as multifunctional agents for the treatment of Alzheimer's disease (AD) (Eur. J. Med. Chem. 2015, 89, 349–361). The results of in vitro biological activity evaluation, including β-amyloid (Aβ) aggregation inhibition, cholinesterase inhibition, and antioxidant activity, showed that introduction of N -methyl in quinoline ring significantly improved the anti-AD potential of compounds. The optimal compound, compound a12 , dramatically attenuated the cell death of glutamate-induced HT22 cells by preventing the generation of ROS and increasing the level of GSH. Most importantly, intragastric administration of a12 •HAc was well tolerated at doses up to 2000 mg/kg and could traverse blood-brain barrier. [ABSTRACT FROM AUTHOR]

Published

2017

41. Development of an engineered carbazole/thiazole orange conjugating probe for G-quadruplexes.

Author

Hu, Ming-Hao, Guo, Rui-Jun, Chen, Shuo-Bin, Huang, Zhi-Shu, and Tan, Jia-Heng

Subjects

*CARBAZOLE derivatives, *THIAZOLES, *QUADRUPLEX nucleic acids, *FLUORESCENCE, *DYES & dyeing

Abstract

The development of selective and sensitive probes for sensing G-quadruplexes either in vitro or in cellulo has been the focus of investigation for a long time. Of those investigated, 3,6-bis(1-methyl-4-vinylpyridinium) carbazole diiodide (BMVC) is a promising fluorescent probe utilized in many studies investigating G-quadruplex structures. However, its shortcomings, including similar fluorescence responses for G-quadruplex and duplex DNA and green but not red fluorescent emission, might restrict the further application of BMVC. In this study, in order to improve the selectivity and optical properties of BMVC, we engineered a new probe ( TO-CZ ) by incorporating thiazole orange (TO) into the structure of BMVC. We next found that TO-CZ can act as a colorimetric and red-emitting fluorescent dual probe selective for G-quadruplexes without affecting the G-quadruplex topology. Further experiments showed that a 2:1 binding model involving the external binding of TO-CZ to both ends of the G-quadruplex is the most possible binding mode. Furthermore, we applied TO-CZ in sensing G-quadruplexes both in vitro and in cellulo , and found that TO-CZ can selectively and sensitively visualize G-quadruplexes. Notably, TO-CZ might be used to map DNA and RNA G-quadruplexes in cellulo , showing its great potential in investigating intracellular G-quadruplex structures. [ABSTRACT FROM AUTHOR]

Published

2017

42. Conformation Selective Antibody Enables Genome Profiling and Leads to Discovery of Parallel G-Quadruplex in Human Telomeres.

Author

Liu, Hui-Yun, Zhao, Qi, Zhang, Tian-Peng, Wu, Yue, Xiong, Yun-Xia, Wang, Shi-Ke, Ge, Yuan-Long, He, Jin-Hui, Lv, Peng, Ou, Tian-Miao, Tan, Jia-Heng, Li, Ding, Gu, Lian-Quan, Ren, Jian, Zhao, Yong, and Huang, Zhi-Shu

Subjects

*IMMUNOGLOBULINS, *QUADRUPLEX nucleic acids, *TELOMERES, *IMMUNOPRECIPITATION, *GENETIC polymorphisms

Abstract

Summary G-quadruplexes are specialized secondary structures in nucleic acids that possess significant conformational polymorphisms. The precise G-quadruplex conformations in vivo and their relevance to biological functions remain controversial and unclear, especially for telomeric G-quadruplexes. Here, we report a novel single-chain variable fragment (scFv) antibody, D1, with high binding selectivity for parallel G-quadruplexes in vitro and in vivo. Genome-wide chromatin immunoprecipitation using D1 and deep-sequencing revealed the consensus sequence for parallel G-quadruplex formation, which is characterized by G-rich sequence with a short loop size (<3 nt). By using D1, telomeric parallel G-quadruplex was identified and its formation was regulated by small molecular ligands targeting and telomere replication. Together, parallel G-quadruplex specific antibody D1 was found to be a valuable tool for determination of G-quadruplex and its conformation, which will prompt further studies on the structure of G-quadruplex and its biological implication in vivo. [ABSTRACT FROM AUTHOR]

Published

2016

43. Design, synthesis and biological evaluation of 4-anilinoquinazoline derivatives as new c-myc G-quadruplex ligands.

Author

Jiang, Yin, Chen, Ai-Chun, Kuang, Guo-Tao, Wang, Shi-Ke, Ou, Tian-Miao, Tan, Jia-Heng, Li, Ding, and Huang, Zhi-Shu

Subjects

*QUINAZOLINE, *AROMATIC compound synthesis, *CHEMICAL derivatives, *QUADRUPLEX nucleic acids, *LIGANDS (Biochemistry), *SUBSTITUENTS (Chemistry)

Abstract

A series of 4-anilinoquinazoline derivatives were designed and synthesized as novel c-myc promoter G-quadruplex binding ligands. Subsequent biophysical and biochemical evaluation demonstrated that the introduction of aniline group at 4-position of quinazoline ring and two side chains with terminal amino group improved their binding affinity and stabilizing ability to G-quadruplex DNA. RT-PCR assay and Western blot showed that compound 7a could down-regulate transcription and expression of c-myc gene in Hela cells, which was consistent with the behavior of an effective G-quadruplex ligand targeting c-myc oncogene. More importantly, RTCA and colony formation assays indicated that 7a obviously inhibited Hela cells proliferation, without influence on normal primary cultured mouse mesangial cells. Flow cytometric assays suggested that 7a induced Hela cells to arrest in G0/G1 phase both in a time-dependent and dose-dependent manner. [ABSTRACT FROM AUTHOR]

Published

2016

44. Accurate high-throughput identification of parallel G-quadruplex topology by a new tetraaryl-substituted imidazole.

Author

Hu, Ming-Hao, Chen, Shuo-Bin, Wang, Yu-Qing, Zeng, You-Mei, Ou, Tian-Miao, Li, Ding, Gu, Lian-Quan, Huang, Zhi-Shu, and Tan, Jia-Heng

Subjects

*QUADRUPLEX nucleic acids, *NUCLEIC acid analysis, *IMIDAZOLES, *HIGH throughput screening (Drug development), *FLUORESCENCE spectroscopy

Abstract

G-quadruplex nucleic acids are four-stranded DNA or RNA secondary structures that are formed in guanine-rich sequences. These structures exhibit extensive structural polymorphism and play a pivotal role in the control of a variety of cellular processes. To date, diverse approaches for high-throughput identification of G-quadruplex structures have been successfully developed, but high-throughput methods for further characterization of their topologies are still lacking. In this study, we report a new tetra-arylimidazole probe psIZCM-1 , which was found to display significant and distinctive changes in both the absorption and the fluorescence spectra in the presence of parallel G-quadruplexes but show insignificant changes upon interactions with anti-parallel G-quadruplexes or other non-quadruplex oligonucleotides. In view of this dual-output feature, we used psIZCM-1 to identify the parallel G-quadruplexes from a large set of 314 oligonucleotides (including 300 G‐quadruplex‐forming oligonucleotides and 14 non-quadruplex oligonucleotides) via a microplate reader and accordingly established a high-throughput method for the characterization of parallel G-quadruplex topologies. The accuracy of this method was greater than 95%, which was much higher than that of the commercial probe NMM. To make the approach more practical, we further combined psIZCM-1 with another G-quadruplex probe IZCM-7 to realize the high-throughput classification of parallel, anti-parallel G-quadruplexes and non-quadruplex structures. [ABSTRACT FROM AUTHOR]

Published

2016

45. A colorimetric and fluorescent dual probe for palladium in aqueous medium and live cell imaging.

Author

Yan, Jin-wu, Wang, Xiao-lin, Tan, Qi-feng, Yao, Pei-fen, Tan, Jia-heng, and Zhang, Lei

Subjects

*CELL imaging, *FLUOROPHORES, *PALLADIUM, *INTRAMOLECULAR charge transfer, *METAL ions

Abstract

A colorimetric and fluorescent dual probe for palladium species was rationally developed by combining the resorufin fluorophore with allyl chloroformate. The probe enables the visual detection of palladium based on its vivid color change from pale yellow to pink and its fluorescence off–on response to palladium in PBS solution. The detection limit was calculated to be as low as 2.1 nM. The live cell imaging results showed that this probe could be used as an effective fluorescent probe for detecting intracellular palladium species. All these results featured its promising application prospects in the palladium analytical field. [ABSTRACT FROM AUTHOR]

Published

2016

46. A simple structural modification to thiazole orange to improve the selective detection of G-quadruplexes.

Author

Guo, Rui-Jun, Yan, Jin-Wu, Chen, Shuo-Bin, Gu, Lian-Quan, Huang, Zhi-Shu, and Tan, Jia-Heng

Subjects

*CRYSTAL structure, *THIAZOLES, *QUADRUPLEX nucleic acids, *DETECTION limit, *FLUORESCENCE

Abstract

Thiazole orange is a commonly used cyanine dye for binding to nucleic acids. Recently, it has been used for the detection of G-quadruplexes. However, thiazole orange is non-selective for G-quadruplex and other nucleic acids, thus hampering its further application. Herein, we designed and synthesized new fluorescent probes by incorporating hydrocarbon rings into the chromophore of thiazole orange. This simple modification dramatically improved selective binding to certain G-quadruplexes. The most promising probe, the cyclopentane fused analogue, exhibited significant fluorescence enhancement when treated with G-quadruplexes but retained weak fluorescence in the presence of double-stranded and single-stranded DNA. The cyclopentane fused probe also displayed considerable selectivity for parallel G-quadruplexes. These modifications reduced the quantum yield of thiazole orange. Further study of the mechanism revealed that the introduction of a hydrocarbon ring altered the planarity of the chromophore as well as the binding affinities for G-quadruplexes, and therefore, influenced the ability to detect G-quadruplexes. [ABSTRACT FROM AUTHOR]

Published

2016

47. Design, synthesis and evaluation of N3-substituted quinazolinone derivatives as potential Bloom's Syndrome protein (BLM) helicase inhibitor for sensitization treatment of colorectal cancer.

Author

Tu, Jia-Li, Wu, Bi-Han, Wu, Heng-Bo, Wang, Jia-En, Zhang, Zi-Lin, Gao, Kun-Yu, Zhang, Lu-Xuan, Chen, Qin-Rui, Zhou, Ying-Chen, Tan, Jia-Heng, Huang, Zhi-Shu, and Chen, Shuo-Bin

Subjects

*QUINAZOLINONES, *COLORECTAL cancer, *DNA helicases, *CANCER treatment, *STRUCTURE-activity relationships, *DNA damage

Abstract

The homologous recombination repair (HRR) pathway is critical for repairing double-strand breaks (DSB). Inhibition of the HRR pathway is usually considered a promising strategy for anticancer therapy. The Bloom's Syndrome Protein (BLM), a DNA helicase, is essential for promoting the HRR pathway. Previously, we discovered quinazolinone derivative 9h as a potential BLM inhibitor, which suppressed the proliferation of colorectal cancer (CRC) cell HCT116. Herein, a new series of quinazolinone derivatives with N3-substitution was designed and synthesized to improve the anticancer activity and explore the structure-activity relationship (SAR). After evaluating their BLM inhibitory activity, the SAR was discussed, leading to identifying compound 21 as a promising BLM inhibitor. 21 exhibited the potent BLM-dependent cytotoxicity against the CRC cells but weak against normal cells. Further evaluation revealed that 21 could disrupt the HRR level while inhibiting BLM located on the DSB site and trigger DNA damage in the CRC cells. This compound effectively suppressed the proliferation and invasion of CRC cells, along with cell cycle arrest and apoptosis. Consequently, 21 might be a promising candidate for treating CRC, and the BLM might be a new potential therapeutic target for CRC. [Display omitted] • New quinazolinone derivatives with N3-substitution was designed as BLM inhibitors. • The SAR was explored and promising compound 21 was figured out. • 21 disrupted the HRR level and trigger DNA damage in the CRC cells. • 21 suppressed CRC proliferation and invasion, along with cell cycle arrest and apoptosis. • 21 might be a promising candidate and BLM might be a new potential therapeutic target for CRC. [ABSTRACT FROM AUTHOR]

Published

2023

48. ChemInform Abstract: Targeting G-Quadruplex Nucleic Acids with Heterocyclic Alkaloids and Their Derivatives.

Author

Xiong, Yun‐Xia, Huang, Zhi‐Shu, and Tan, Jia‐Heng

Subjects

*QUADRUPLEX nucleic acids, *HETEROCYCLIC chemistry, *ALKALOIDS, *CHEMICAL derivatives, *BIOCHEMISTRY

Abstract

Review: 140 refs. [ABSTRACT FROM AUTHOR]

Published

2015

49. Discovery of natural alkaloid bouchardatine as a novel inhibitor of adipogenesis/lipogenesis in 3T3-L1 adipocytes.

Author

Rao, Yong, Liu, Hong, Gao, Lin, Yu, Hong, Tan, Jia-Heng, Ou, Tian-Miao, Huang, Shi-Liang, Gu, Lian-Quan, Ye, Ji-Ming, and Huang, Zhi-Shu

Subjects

*ADIPOGENESIS, *LIPID synthesis, *FAT cells, *ENZYME inhibitors, *ALKALOID synthesis, *CELL-mediated cytotoxicity

Abstract

Bouchardatine ( 1 ), a naturally occurring β-indoloquinazoline alkaloid, was synthesized. For the first time, the lipid-lowering effect and mechanism of 1 was investigated in 3T3-L1 adipocytes. Our study showed that 1 could significantly reduce lipid accumulation without cytotoxicity and mainly inhibited early differentiation of adipocyte through proliferation inhibition and cell cycle arrested in dose-dependent manner. Furthermore, the inhibition of early differentiation was reflected by down-regulation of key regulators of adipogenesis/lipogenesis, including CCAAT enhancer binding proteins (C/EBPβ, C/EBPδ, C/EBPα), peroxisome proliferator-activated receptors γ (PPARγ) and sterol-regulatory element binding protein-1c (SREBP-1c), in both of mRNA and protein levels. Subsequently decreasing the protein levels of acetyl CoA carboxylase (ACC), fatty acid synthase (FAS), and stearyl coenzyme A desaturated enzyme 1 (SCD-1), the rate-limited metabolic enzymes of fatty acid synthesis, were also observed. Further studies revealed that 1 persistently activated adenosine 5′-monophosphate (AMP)-activated protein kinase (AMPK) during differentiation, suggesting that the AMPK may be an upstream mechanism for the effect of 1 on adipogenesis and lipogenesis. Our data suggest that 1 can be a candidate for the development of new therapeutic drugs against obesity and related metabolic disorders. [ABSTRACT FROM AUTHOR]

Published

2015

50. Development of a highly sensitive fluorescent light-up probe for G-quadruplexes.

Author

Hu, Ming-Hao, Chen, Shuo-Bin, Guo, Rui-Jun, Ou, Tian-Miao, Huang, Zhi-Shu, and Tan, Jia-Heng

Subjects

*QUADRUPLEX nucleic acids, *SPECTRUM analysis, *SUPRAMOLECULAR chemistry, *FLUOROPHORES, *FLUORESCENCE spectroscopy

Abstract

G-quadruplexes are higher-order nucleic acid structures that have attracted extensive attention because of their biological significance and potential applications in supramolecular chemistry. An ever-increasing interest in G-quadruplexes has promoted the development of selective and sensitive fluorescent probes as research tools for these structures. However, most current studies primarily focus on the improved selectivity of probes for G-quadruplexes. Their detection limits or ways to improve their detection limits are rarely described. In this study, a new set of di-substituted triarylimidazole fluorescent probes were designed and synthesized, with the aim of upgrading the detection limit of a lead triarylimidazole IZCM-1 for G-quadruplexes. Among these compounds, IZCM-7 was the most promising candidate. The limit of detection (LOD) value of IZCM-7 for the G-quadruplex was up to 3 nM in solution and up to 5 ng in a gel matrix. These values were significantly improved in comparison with those of IZCM-1. Further biophysical studies revealed that the fluorescence quantum yield and binding affinity of IZCM-7 for G-quadruplexes were markedly increased, and these two factors might be responsible for the significantly improved detection limit of IZCM-7. In addition, the sensitive and selective fluorescence performance of IZCM-7 for G-quadruplexes remained the same even in the presence of large amounts of non-G-quadruplex competitors, suggesting its promising application prospect. [ABSTRACT FROM AUTHOR]

Published

2015