Mechanism-based inhibitors of cytokinin oxidase/dehydrogenase attack FAD cofactor

Cytokinin oxidases/dehydrogenases (CKOs) mediate catabolic regulation of cytokinin levels in plants. Several substrate analogs containing an unsaturated side chain were studied for their possible inhibitory effect on maize CKO (ZmCKO1) by use of various bioanalytical methods. Two allenic derivatives, N⁶-(buta-2,3-dienyl)adenine (HA-8) and N⁶-(penta-2,3-dienyl)adenine (HA-1), were identified as strong mechanism-based inhibitors of the enzyme. Despite exhaustive dialysis, the enzyme remained inhibited. Conversely, substrate analogs with a triple bond in the side chain were much weaker inactivators. The crystal structures of recombinant ZmCKO1 complexed with HA-1 or HA-8 were solved to 1.95 Å resolution. Together with Raman spectra of the inactivated enzyme, it was revealed that reactive imine intermediates generated by oxidation of the allenic inhibitors covalently bind to the flavin adenine dinucleotide (FAD) cofactor. The binding occurs at the C4a atom of the isoalloxazine ring of FAD, the planarity of which is consequently disrupted. All the compounds under study were also analyzed for binding to the Arabidopsis cytokinin receptors AHK3 and AHK4 in a bacterial receptor assay and for cytokinin activity in the Amaranthus bioassay. HA-1 and HA-8 were found to be good receptor ligands with a significant cytokinin activity. Nevertheless, due to their ability to inactivate CKO in the desired time intervals or developmental stages, they both represent attractive compounds for physiological studies, as the inhibition mechanism of HA-1 and HA-8 is mainly FAD dependent.     

A western blot assay to measure cyclin dependent kinase activity in cells or in vitro without the use of radioisotopes

We developed a quantitative method to measure the activity of cyclin-dependent kinases (Cdks) by western blotting, without radioisotopes. We prepared a recombinant protein substrate based upon the natural Cdk1 substrate, PP1Cα. By combining this substrate in a western blot method using fluorochrome based antibodies and phospho-imager analysis, we measured the K_m of ATP binding to Cdk1 to be 3.5 μM. We then measured Cdk1 activity in cell extracts from interphase or mitotic cells, and demonstrated that previously identified Cdk inhibitors could be detected by this assay. Our data show that we have a safe, reliable assay to identify Cdk1 inhibitors and measure Cdk1 activity.     

新型三明治样荧光偏振筛选模型在新型冠状病毒主蛋白酶小分子抑制剂筛选中的应用北大核心CSCD

新型冠状病毒主蛋白酶(main protease, Mpro)通过水解多聚蛋白质体(polyprotein)调控病毒基因组RNA复制,且人体不存在其同源蛋白酶,这使Mpro成为抗新型冠状病毒药物开发的理想靶标之一。本研究基于荧光偏振技术(fluorescence polarization,FP)和生物素-亲和素反应(biotin-avidin system, BAS)原理,成功地建立了三明治样荧光偏振筛选模型用于Mpro小分子抑制剂的快速筛选。通过对天然产物化合物库进行高通量筛选,发现了漆树酸(anacardic acid,AA)是Mpro的竞争型抑制剂,1,2,3,4,6-O-五没食子酰葡萄糖(1,2,3,4,6-O-pentagalloylglucose,PGG)是Mpro的混合型抑制剂,且已报道的部分抑制剂是非特异性Mpro小分子抑制剂。文中建立的三明治样荧光偏振筛选模型具有良好的简便性、灵敏性和稳定性,初步证实了漆树酸和PGG是一类新型苗头化合物,建立科学严谨的活性评价体系对于抗新型冠状病毒药物的筛选与发现是至关重要的。     

A real-time PCR for SARS-coronavirus incorporating target gene pre-amplification

An enhanced polymerase chain reaction (PCR) assay to detect the coronavirus associated with severe acute respiratory syndrome (SARS-CoV) was developed in which a target gene pre-amplification step preceded TaqMan real-time fluorescent PCR. Clinical samples were collected from 120 patients diagnosed as suspected or probable SARS cases and analyzed by conventional PCR followed by agarose gel electrophoresis, conventional TaqMan real-time PCR, and our enhanced TaqMan real-time PCR assays. An amplicon of the size expected from SARS-CoV was obtained from 28/120 samples using the enhanced real-time PCR method. Conventional PCR and real-time PCR alone identified fewer SARS-CoV positive cases. Results were confirmed by viral culture in 3/28 cases. The limit of detection of the enhanced real-time PCR method was 10(2)-fold higher than the standard real-time PCR assay and 10(7)-fold higher than conventional PCR methods. The increased sensitivity of the assay may help control the spread of the disease during future SARS outbreaks.     

新冠病毒主蛋白酶特异性荧光底物ddRFP-M的制备与鉴定

传统的新冠病毒主蛋白酶(main protease, Mpro)多肽底物具有制备成本高、稳定性差和合成工艺复杂等缺点,积极开发廉价稳定的新型底物具有重要意义。本研究基于二聚化红色荧光蛋白(dimerization-dependent red fluorescent protein, ddRFP)原理,以AVLQS为连接肽,利用基因工程技术制备Mpro特异性荧光底物ddRFP-M,用于Mpro抑制剂的药理活性评价。将连接肽基因插入到密码子优化的RFP-A₁与RFP-B₁基因之间,构建ddRFP-M基因,再将其克隆到pET-28a载体中构建重组质粒。将重组质粒转化至大肠杆菌Rosetta(DE3)感受态细胞中,以卡那霉素抗性法筛选重组子。重组子经低温诱导后,在大肠杆菌中进行荧光底物ddRFP-M的可溶表达,并以HisTrap^TM层析柱进行分离纯化。以荧光动力学检测法和电泳法测定ddRFP-M的底物特异性,并利用荧光底物ddRFP-M评价恩赛特韦和黄芩素的药理活性。结果显示,荧光底物ddRFP-M在大肠杆菌中呈可溶表达并成功进行了分离纯化,其具有良好的底物特异性、灵敏性和可靠性。新冠病毒Mpro特异性荧光底物ddRFP-M的制备,为新冠病毒Mpro抑制剂的药理活性评价奠定了基础。     

PDCD6 additively cooperates with anti-cancer drugs through activation of NF-κB pathways

The expression of programmed cell death 6 (PDCD6) is known to be down-regulated in cancer cell lines and ovarian cancer tissues compared to normal cells and tissues. In the current study, we characterized the specific function of PDCD6 as a novel pro-apoptotic protein. To define the roles of PDCD6 and cisplatin in tumorigenesis, we either over-expressed PDCD6 or treated it with cisplatin in SKOV-3 ovarian cancer cells. Both PDCD6 and cisplatin respectively inhibited cancer cell proliferation in a dose-dependent manner. The combined treatment of PDCD6 and cisplatin was more effective at suppressing cell growth than with either drug treatment alone, but had no effect with the treatment of caspase-3 and caspase-9 inhibitors. Cleavages of caspase-3, -8, -9, and poly (ADP-ribose) polymerase (PARP) in PDCD6-overexpressing cells were significantly increased after cisplatin treatment. Cell cycle analysis highly correlated with down-regulation of cyclin D1 and CDK4, and the induction of p16 and p27 as a cyclin-dependent kinase inhibitor. Additionally, PDCD6 also suppressed the phosphorylation of signaling regulators downstream of PI3K, including PDK1 and Akt. PDCD6 promotes TNFα-dependent apoptosis through the activation of NF-κB signaling pathways, increasing Bax, p53, and p21 expression, while also down-regulating Bcl-2 and Bcl-xL expression. The p21 and p53 promoter luciferase activities were enhanced by PDCD6, while there was no affect in p53^−/− and p21^−/−. At the same time, p53 activity was confirmed by UV irradiation and siPDCD6. Taken together, these results provide evidence that PDCD6 can mediate the pro-apoptotic activity of cisplatin or TNFα through the down-regulation of NF-κB expression.     

Molecular docking of glucosamine-6-phosphate synthase in Rhizopus oryzae

Recent expansion of immunocompromised population has led to significant rise in zygomycosis caused by filamentous fungus Rhizopus oryzae. Due to emergence of fungal resistance and side-effects of antifungal drugs, there is increased demand for novel drug targets. The current study elucidates molecular interactions of peptide drugs with G-6-P synthase (catalyzing the rate-limiting step of fungal cell wall biosynthetic pathway) of R.oryzae by molecular docking studies. The PDB structures of enzyme in R.oryzae are not known which were predicted using I-TASSER server and validated with PROCHECK. Peptide inhibitors, FMDP and ADGP previously used against enzyme of E.coli (PDBid: 1XFF), were used for docking studies of enzyme in R.oryzae by SchrödingerMaestro v9.1. To investigate binding between enzyme and inhibitors, Glide and Induced Fit docking were performed. IFD results of 1XFF with FMDP yielded C1, R73, W74, T76, G99 and D123 as the binding sites. C379 and Q427 appear to be vital for binding of R.oryzae enzymes to inhibitors. The comparison results of IFD scores of enzyme in R.oryzae and E.coli (PDBid: 2BPL) yield appreciable score, hinting at the probable effectiveness of inhibitors FMDP and ADGP against R.oryzae, with ADGP showing an improved enzyme affinity. Moreover, the two copies of gene G-6-P synthase due to extensive fungal gene duplication, in R. oryzae eliminating the problem of drug ineffectiveness could act as a potential antifungal drug target in R. oryzae with the application of peptide ligands.     

Mitochondrial inhibitors activate influx of external Ca in sea urchin sperm

Sea urchin sperm have a single mitochondrion which, aside from its main ATP generating function, may regulate motility, intracellular Ca²⁺ concentration ([Ca²⁺]_i) and possibly the acrosome reaction (AR). We have found that acute application of agents that inhibit mitochondrial function via differing mechanisms (CCCP, a proton gradient uncoupler, antimycin, a respiratory chain inhibitor, oligomycin, a mitochondrial ATPase inhibitor and CGP37157, a Na⁺/Ca²⁺ exchange inhibitor) increases [Ca²⁺]_i with at least two differing profiles. These increases depend on the presence of extracellular Ca²⁺, which indicates they involve Ca²⁺ uptake and not only mitochondrial Ca²⁺ release. The plasma membrane permeation pathways activated by the mitochondrial inhibitors are permeable to Mn²⁺. Store-operated Ca²⁺ channel (SOC) blockers (Ni²⁺, SKF96365 and Gd²⁺) and internal-store ATPase inhibitors (thapsigargin and bisphenol) antagonize Ca²⁺ influx induced by the mitochondrial inhibitors. The results indicate that the functional status of the sea urchin sperm mitochondrion regulates Ca²⁺ entry through SOCs. As neither CCCP nor dicycloexyl carbodiimide (DCCD), another mitochondrial ATPase inhibitor, eliminate the oligomycin induced increase in [Ca²⁺]_i, apparently oligomycin also has an extra mitochondrial target.     

Biochemical characterization of a protein tyrosine phosphatase from Trypanosoma cruzi involved in metacyclogenesis and cell invasion

Protein tyrosine phosphatases (PTPs) form a large family of enzymes involved in the regulation of numerous cellular functions in eukaryotes. Several protein tyrosine phosphatases have been recently identified in trypanosomatides. Here we report the purification and biochemical characterization of TcPTP1, a protein tyrosine phosphatase from Trypanosoma cruzi, the causing agent of Chagas’ disease. The enzyme was cloned and expressed recombinantly in Escherichia coli and purified by Ni-affinity chromatography. Biochemical characterization of recombinant TcPTP1 with the PTP pseudo-substrate pNPP allowed the estimation of a Michaelis–Menten constant K_m of 4.5 mM and a k_cat of 2.8 s⁻¹. We were able to demonstrate inhibition of the enzyme by the PTP1b inhibitor BZ3, which on its turn was able to accelerate the differentiation of epimastigotes into metacyclic forms of T. cruzi induced by nutritional stress. Additionally, this compound was able to inhibit by 50% the infectivity of T. cruzi trypomastigotes in a separate cellular assay. In conclusion our results indicate that TcPTP1 is of importance for cellular differentiation and invasivity of this parasite and thus is a valid target for the rational drug design of potential antibiotics directed against T. cruzi.     

Discovery of quinazolinone and quinoxaline derivatives as potent and selective poly(ADP-ribose) polymerase-1/2 inhibitors

Two classes of quinazolinone derivatives and quinoxaline derivatives were identified as potent and selective poly(ADP-ribose) polymerase-1 and 2 (PARP-1) and (PARP-2) inhibitors, respectively. In PARP enzyme assays using recombinant PARP-1 and PARP-2, quinazolinone derivatives displayed relatively high selectivity for PARP-1 and quinoxaline derivatives showed superior selectivity for PARP-2. SBDD analysis via a combination of X-ray structural study and homology modeling suggested distinct interactions of inhibitors with PARP-1 and PARP-2. These findings provide a new structural framework for the design of selective inhibitors for PARP-1 and PARP-2.     

新型冠状病毒主蛋白酶抑制剂的筛选方法研究进展

新型冠状病毒肺炎(coronavirus disease 2019,COVID-19)席卷全球,具有较高的传染性和死亡率,但目前尚缺乏安全有效的COVID-19疫苗与治疗药物。新型冠状病毒主蛋白酶(main protease,Mpro)的进化高度保守,在调控新冠病毒RNA复制中具有重要的生物学功能,已成为新型广谱抗冠状病毒药物开发的理想靶标之一。简便、快速、灵敏、经济的药物高通量筛选模型的建立是高选择性Mpro抑制剂高效筛选与开发的重要基础和关键技术。本文对Mpro分子结构及其抑制剂的筛选方法研究进展进行了综述和展望,以期为靶向Mpro广谱抗冠状病毒药物的筛选与开发提供有益的借鉴和参考。     

PCR inhibitors – occurrence,properties and removal

The polymerase chain reaction (PCR) is increasingly used as the standard method for detection and characterization of microorganisms and genetic markers in a variety of sample types. However, the method is prone to inhibiting substances, which may be present in the analysed sample and which may affect the sensitivity of the assay or even lead to false‐negative results. The PCR inhibitors represent a diverse group of substances with different properties and mechanisms of action. Some of them are predominantly found in specific types of samples thus necessitating matrix‐specific protocols for preparation of nucleic acids before PCR. A variety of protocols have been developed to remove the PCR inhibitors. This review focuses on the general properties of PCR inhibitors and their occurrence in specific matrices. Strategies for their removal from the sample and for quality control by assessing their influence on the individual PCR test are presented and discussed.     

The establishment of human anti-TROP2 antibody IgG and its inhibition function on pancreatic cancer cell proliferation

On the basis of anti-TROP2 Fab antibody, this study seek to construct a eukaryotic expression system of human anti-TROP2 antibody IgG, and to analyse the inhibition function of human anti-TROP2 antibody IgG in the cell proliferation of pancreatic cancer. The heavy and light chain genes of anti-TROP2 antibody were amplified respectively to establish the recombinant expression vector of human anti-TROP2 antibody IgG, named pWS-anti-TROP2. The human anti-TROP2 antibody IgG was obtained through transfecting the plasmids into the CHO dhfr^- cell line, selecting the monoclonal cell strains with high amounts of antibody expression by MTX screening and applying Protein G affinity in purification. The identification and immunologic activity of human anti-TROP2 antibody IgG were researched by Western Blot,SDS-PAGE, ELISA, immunofluorescence assay and flow cytometry method (FCM). MTT assay was conducted to analyse the inhibition effect of human anti-TROP2 antibody IgG on BxPC3 cell proliferation. The human anti-TROP2 antibody IgG eukaryotic expression system was established successfully to express human anti-TROP2 antibody IgG, in which the molecular weight of heavy chain and light chain were consistent with expectation, and it could specifically combine with TROP2 protein, the antibody titer reached 1:6,400. The MTT assay results indicated that human anti-TROP2 antibody IgG had a significant effect on inhibiting the proliferation of BxPC3 cell, and the inhibition function can be gradually increased with improved antibody dose and prolonged time. In the study, the human anti-TROP2 antibody IgG eukaryotic expression system was constructed successfully, the antibody could specifically bind to TROP2 protein on the surface of pancreatic cancer cells, and it is shown to have a significant inhibitory action in pancreatic cancer cell proliferation.     

Detection of Mycobacterium avium ssp. paratuberculosis in cheese, milk powder and milk using IS900 and f57-based qPCR assays

Aims: To develop a quantitative PCR assay for sensitive and specific detection of Mycobacterium avium ssp. paratuberculosis (Map) in a range of dairy products. Methods and Results: TaqMan^® assays were designed to target the IS900 and f57 genetic elements of Map. Both real‐time PCR assays were integrated with the Adiapure^® Map DNA extraction kit and assessed separately for the detection/quantification of Map in spiked milk, Cheddar cheese and milk powder. Assays were validated against Cheddar cheese samples containing known concentrations of Map. The IS900 qPCR assay was significantly more sensitive than the assay based on the f57 primer/probe. At a threshold cycle value of 38, limits of detection (LOD) for the IS900 qPCR assay were 0·6 CFU ml^?1, 2·8 CFU g^?1 and 30 CFU g^?1 for artificially contaminated pasteurized milk, whole milk powder and Cheddar cheese, respectively. The respective LOD’s for the f57 assay were 6·2 CFU ml^?1, 26·7 CFU g^?1 and 316 CFU g^?1. Conclusion: The integrated Adiapure^® extraction – IS900 real time assay described is a sensitive, quantitative method for the detection of Map in dairy products. This is the first study to consider qPCR as a quantitative estimation of Map‐DNA in cheese and whole milk powder. Significance and Impact of the Study: The assay developed allows sensitive detection and quantification of Map DNA in a range of dairy products which is valuable for the screening and surveillance of this potential zoonotic organism.     

Binding interaction of SARS coronavirus 3CL(pro) protease with vacuolar-H+ ATPase G1 subunit

The pathogenesis of severe acute respiratory syndrome coronavirus (SARS-CoV) is an important issue for treatment and prevention of SARS. Recently, SARS-CoV 3CL(pro) protease has been implied to be possible relevance to SARS-CoV pathogenesis. In this study, we intended to identify potential 3CL(pro)-interacting cellular protein(s) using the phage-displayed human lung cDNA library. The vacuolar-H+ ATPase (V-ATPase) G1 subunit that contained a 3CL(pro) cleavage site-like motif was identified as a 3CL(pro)-interacting protein, as confirmed using the co-immunoprecipitation assay and the relative affinity assay. In addition, our result also demonstrated the cleavage of the V-ATPase G1 fusion protein and the immunoprecipitation of cellular V-ATPase G1 by the 3CL(pro). Moreover, loading cells with SNARF-1 pH-sensitive dye showed that the intracellular pH in 3CL(pro)-expressing cells was significantly lower as compared to mock cells.     

A Pitfall of the 3-(4,5-dimethylthiazol-2-yl)-5(3-carboxymethonyphenol)-2-(4-sulfophenyl)-2H-tetrazolium (MTS) Assay due to Evaporation in wells on the Edge of a 96 well Plate

The 3-(4,5-dimethylthiazol-2-yl)-5(3-carboxymethonyphenol)-2-(4-sulfophenyl)-2H-tetrazolium (MTS) calorimetric assay is replacing the traditional 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay as a fast, one-step assay of cell viability. We have observed that evaporation of the outer wells of a 96 well plate increases the absorbancy by 52% compared to the inner wells. Filling the outer 2 rows of wells with media and replacement of the media prior to addition of the MTS reagent will, however, correct this inaccuracy.     

Labeled chemical biology tools for investigating sphingolipid metabolism,trafficking and interaction with lipids and proteins

The unraveling of sphingolipid metabolism and function in the last 40 years relied on the extensive study of inherited human disease and specifically-tailored mouse models. However, only few of the achievements made so far would have been possible without chemical biology tools, such as fluorescent and/or radio-labeled and other artificial substrates, (mechanism-based) enzyme inhibitors, cross-linking probes or artificial membrane models. In this review we provide an overview over chemical biology tools that have been used to gain more insight into the molecular basis of sphingolipid-related biology. Many of these tools are still of high relevance for the investigation of current sphingolipid-related questions, others may stimulate the tailoring of novel probes suitable to address recent and future issues in the field. This article is part of a Special Issue entitled Tools to study lipid functions.     

Phytocompounds as potential inhibitors of SARS-CoV-2 Mpro and PLpro through computational studies

The inhibition of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) main protease (Mpro) and papain-like protease (PLpro) prevents viral multiplications; these viral enzymes have been recognized as one of the most favorable targets for drug discovery against SARS-CoV-2. In the present study, we screened 225 phytocompounds present in 28 different Indian spices to identify compounds as potential inhibitors of SARS-CoV-2 Mpro and PLpro. Molecular docking, molecular dynamics simulation, molecular mechanics Poisson–Boltzmann surface area (MM-PBSA) binding free energy calculations, and absorption, distribution, metabolism, excretion and toxicity (ADMET) studies were done. Based on binding affinity, dynamics behavior, and binding free energies, the present study identifies pentaoxahexacyclo-dotriacontanonaen-trihydroxybenzoate derivative (PDT), rutin, and dihyroxy-oxan-phenyl-chromen-4-one derivative (DOC), luteolin-7-glucoside-4′-neohesperidoside as promising inhibitors of SARS-CoV-2 Mpro and PLpro, respectively.     

Development of a competitive polymerase chain reaction assay for the ruminal bacterium Butyrivibrio fibrisolvens OB156 and its use for tracking an OB156-derived recombinant

A competitive polymerase chain reaction assay targeting the 16S rDNA was developed for quantitating the rumen bacterium Butyrivibrio fibrisolvens OB156. A competitor DNA, serving as an internal control in the competitive polymerase chain reaction reaction, was constructed by polymerase chain reaction using a looped oligo longer than the normal primer. Coamplification of the target DNA with known amounts of the competitor DNA allowed quantitation of the target DNA in both pure culture and mixed culture systems, where minimum quantifiable level of OB156 was 1.7x10(2) and 5.6x10(4) cells, respectively. When an erythromycin-resistant recombinant derived from OB156 was inoculated into a rumen fluid culture, its numbers decreased with time. The rate of decrease measured by the competitive polymerase chain reaction assay was much slower than the rate determined by culture enumeration using erythromycin selection. The competitive polymerase chain reaction assay also showed 48 h persistence of the recombinant at 10(4) ml(-1) even after disappearance of culturable recombinant, suggesting maintenance of the target DNA from uncultivable cells. In an in vivo tracking trial, the recombinant became undetectable within 72 h with either assay, indicating rapid hydrolysis and/or outflow of the cells from the rumen.     

Chloroquine interferes with dengue‐2 virus replication in U937 cells

The objective of this study was to investigate the use of chloroquine (CLQ) as an antiviral agent against dengue. Chloroquine, an amine acidotropic drug known to affect intracellular exocytic pathways by increasing endosomal pH, was used in the in vitro treatment of U937 cells infected with dengue virus type 2 (DENV‐2). Viral replication was assessed by quantification of virus produced through detection of copy numbers of DENV‐2 RNA, plaque assay and indirect immunofluorescence. qRT‐PCR and plaque assays were used to quantify the DENV‐2 load in infected U937 cells after CLQ treatment. It was found that a dose of 50 μg/mL of CLQ was not toxic to the cells and resulted in significantly less virus production in infected U937 cells than occurred in untreated cells. In the present work, CLQ was effective against DENV‐2 replication in U937 cells, and also caused a statistically significant reduction in expression of proinflammatory cytokines. The present study indicates that CLQ may be used to reduce viral yield in U937 cells.