Your search keyword '"Binding Analysis"' showing total 1,420 results

1. Principles of Fluorescence Correlation and Dual-Color Cross-Correlation Spectroscopy

Author

Ebenhan, Jan, Bacia, Kirsten, Pedras, Bruno, Series Editor, Šachl, Radek, editor, and Amaro, Mariana, editor

Published

2023

2. A strategy of screening and binding analysis of bioactive components from traditional Chinese medicine based on surface plasmon resonance biosensor

Author

Diya Lv, Jin Xu, Minyu Qi, Dongyao Wang, Weiheng Xu, Lei Qiu, Yinghua Li, and Yan Cao

Subjects

Surface plasmon resonance, Bioactive components, Screening, Binding analysis, Radix Paeoniae Alba, Therapeutics. Pharmacology, RM1-950

Abstract

Elucidating the active components of traditional Chinese medicine (TCM) is essential for understanding the mechanisms of TCM and promote its rational use as well as TCM-derived drug development. Recent studies have shown that surface plasmon resonance (SPR) technology is promising in this field. In the present study, we propose an SPR-based integrated strategy to screen and analyze the major active components of TCM. We used Radix Paeoniae Alba (RPA) as an example to identify the compounds that can account for its anti-inflammatory mechanism via tumor necrosis factor receptor type 1 (TNF-R1). First, RPA extraction was analyzed using an SPR-based screening system, and the potential active ingredients were collected, enriched, and identified as paeoniflorin and paeonol. Next, the affinity constants of paeoniflorin and paeonol were determined as 4.9 and 11.8 μM, respectively. Then, SPR-based competition assays and molecular docking were performed to show that the two compounds could compete with tumor necrosis factor-α (TNF-α) while binding to the subdomain 1 site of TNF-R1. Finally, in biological assays, the two compounds suppressed cytotoxicity and apoptosis induced by TNF-α in the L929 cell line. These findings prove that SPR technology is a useful tool for determining the active ingredients of TCM at the molecular level and can be used in various aspects of drug development. The SPR-based integrated strategy is reliable and feasible in TCM studies and will shed light on the elucidation of the pharmacological mechanism of TCM and facilitate its modernization.

Published

2022

3. A strategy of screening and binding analysis of bioactive components from traditional Chinese medicine based on surface plasmon resonance biosensor.

Author

Lv, Diya, Xu, Jin, Qi, Minyu, Wang, Dongyao, Xu, Weiheng, Qiu, Lei, Li, Yinghua, and Cao, Yan

Subjects

SURFACE plasmon resonance, CHINESE medicine, TUMOR necrosis factor receptors, BIOACTIVE compounds, BINDING site assay, BINDING sites

Abstract

Elucidating the active components of traditional Chinese medicine (TCM) is essential for understanding the mechanisms of TCM and promote its rational use as well as TCM-derived drug development. Recent studies have shown that surface plasmon resonance (SPR) technology is promising in this field. In the present study, we propose an SPR-based integrated strategy to screen and analyze the major active components of TCM. We used Radix Paeoniae Alba (RPA) as an example to identify the compounds that can account for its anti-inflammatory mechanism via tumor necrosis factor receptor type 1 (TNF-R1). First, RPA extraction was analyzed using an SPR-based screening system, and the potential active ingredients were collected, enriched, and identified as paeoniflorin and paeonol. Next, the affinity constants of paeoniflorin and paeonol were determined as 4.9 and 11.8 μM, respectively. Then, SPR-based competition assays and molecular docking were performed to show that the two compounds could compete with tumor necrosis factor-α (TNF-α) while binding to the subdomain 1 site of TNF-R1. Finally, in biological assays, the two compounds suppressed cytotoxicity and apoptosis induced by TNF-α in the L929 cell line. These findings prove that SPR technology is a useful tool for determining the active ingredients of TCM at the molecular level and can be used in various aspects of drug development. The SPR-based integrated strategy is reliable and feasible in TCM studies and will shed light on the elucidation of the pharmacological mechanism of TCM and facilitate its modernization. [Display omitted] • A surface plasmon resonance-based integrated strategy was established to analyze traditional Chinese medicine. • Surface plasmon resonance technology can be used for ligand screening, affinity detection, and binding site confirmation. • Paeoniflorin and paeonol were identified as TNF-R1-bound ingredients in RPA. [ABSTRACT FROM AUTHOR]

Published

2022

4. Molecular Details of Olfactomedin Domains Provide Pathway to Structure-Function Studies

Author

Anderson, Michael [Univ. of Iowa, Iowa City, IA (United States)]

Published

2015

5. Cell fate regulation governed by a repurposed bacterial histidine kinase

Author

Stock, Ann [Rutgers Univ., New Brunswick, NJ (United States)]

Published

2014

6. Purification of the AtGrp7 RRM Domain from Arabidopsis thaliana and Its Preliminary Structure and Binding Analysis

Author

CHI Xiu-juan, QIAO Xiao-ya, LIU Ying, LIU Hui-li, CHEN Lei, WANG Ji-hui, and AI Xuan-jun

Subjects

denaturing-refolding, quick-dilution, nuclear magnetic resonance (NMR), AtGrp7 RNA recognition motif (RRM)domain, binding analysis, Electricity and magnetism, QC501-766

Abstract

The glycine-rich RNA-binding protein, AtGrp7, is a component of a negative feedback loop in the circadian clock regulation of Arabidopsis thaliana. In our initial purification trial of the tobacco etch virus (TEV)-cleaved AtGrp7 RNA recognition motif (RRM) domain with the regular protocol, mixed ultraviolet signals of the target proteins and contaminants were observed. A two-step denaturing-refolding protocol was then tested, trying to solve the problem of impurities. The structure of the AtGrp71-90 RRM domain was fully recovered by quick-dilution refolding, evidenced by the fingerprint 1H-15N HSQC spectrum and CS-Rosetta model structures. Isothermal titration calorimetry (ITC) and NMR titration experiments further confirmed that the RRM domain of AtGrp71-90 had proper functions with regards to RNA/DNA binding.

Published

2019

7. Protein interaction and in vitro cytotoxicity studies of newly designed palladium (II) nitrate complexes: spectrochemical, theoretical and biological assessments.

Author

Shams, Z., Divsalar, A., Ghalandari, B., Sanginabadi, F., Saboury, A. A., and Mansouri-Torshizi, H.

Subjects

*PROTEIN-protein interactions, *PALLADIUM, *HELA cells, *FLUORESCENCE spectroscopy, *IN vitro studies, *MOLECULAR docking

Abstract

The biological assessments of new synthesized palladium (II) complexes [1, 10-phenanthroline hexyl dithiocarbamato palladium (II) nitrate (complex I), and 1, 10-phenanthroline butyl dithiocarbamato palladium (II) nitrate (complex II)] were investigated using in vitro cytotoxicity and molecular interaction studies. The in vitro cytotoxicity studies were done against human cervical HeLa cancer cell line and human breast MDA-MB-468 cancer cell line. The interaction evaluations were done using human hemoglobin (Hb) as the primary target of novel palladium (II) complexes using spectroscopy methods of fluorescence and circular dichroism at various temperatures of 25, 37, 42, and 47 °C as well as molecular docking. The results have indicated complex I and complex II are quite similar in functionality. They induced apoptotic cell death so that they showed a significant growth inhibitory effect against HeLa and MDA-MB-468 cells. The fluorescence spectroscopy and molecular docking indicated that there is only one binding site for new palladium (II) complexes on Hb. The interaction studies revealed complex I and complex II have the same structural effects and similar binding properties on Hb. Finally, the results showed the newly synthesized palladium (II) complexes have no structural degradation on Hb. Therefore, they can be introduced as promising candidates in cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2021

8. Antibacterial and Sporicidal Activity Evaluation of Theaflavin-3,3′-digallate

Author

Ayuni Yussof, Brian Cammalleri, Oluwanifemi Fayemiwo, Sabrina Lopez, and Tinchun Chu

Subjects

antibacterial, sporicidal, anti-germination, binding analysis, natural product, black tea polyphenol, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Theaflavin-3,3′-digallate (TFDG), a polyphenol derived from the leaves of Camellia sinensis, is known to have many health benefits. In this study, the antibacterial effect of TFDG against nine bacteria and the sporicidal activities on spore-forming Bacillus spp. have been investigated. Microplate assay, colony-forming unit, BacTiter-GloTM, and Live/Dead Assays showed that 250 µg/mL TFDG was able to inhibit bacterial growth up to 99.97%, while 625 µg/mL TFDG was able to inhibit up to 99.92% of the spores from germinating after a one-hour treatment. Binding analysis revealed the favorable binding affinity of two germination-associated proteins, GPR and Lgt (GerF), to TFDG, ranging from −7.6 to −10.3 kcal/mol. Semi-quantitative RT-PCR showed that TFDG treatment lowered the expression of gpr, ranging from 0.20 to 0.39 compared to the control in both Bacillus spp. The results suggest that TFDG not only inhibits the growth of vegetative cells but also prevents the germination of bacterial spores. This report indicates that TFDG is a promising broad-spectrum antibacterial and anti-spore agent against Gram-positive, Gram-negative, acid-fast bacteria, and endospores. The potential anti-germination mechanism has also been elucidated.

Published

2022

9. Homology modelling and in silico substrate-binding analysis of a Rhizobium sp. RC1 haloalkanoic acid permease

Author

Muhammed Adamu Musa, Roswanira Abdul Wahab, and Fahrul Huyop

Subjects

Rhizobium sp. RC1, haloacid permease, binding analysis, homology modelling, docking simulation, Biotechnology, TP248.13-248.65

Abstract

Rhizobium sp. RC1 grows on haloalkanoic acid (haloacid) pollutants and expresses a haloacid permease (DehrP), which mediates the uptake of haloacids into the cells. For the first time, we report the homology model and docking analysis of DehrP and propose its putative binding residues. Ligand structures were retrieved from the ChemSpider database. The three-dimensional (3D) structure of DehrP was modelled based on the structure of Staphylococcus epidermidis glucose:H+ symporter (GlcPse) by Phyre2, refined by 3Drefine and evaluated by ProSA z-score, ERRAT and RAMPAGE. The 3D structure of the DehrP protein has 12 transmembrane helices. The overall quality factor of the model is ∼91%, with 93.6% of the residues in the favoured region and the z-score (−2.86) falls within the range (≤10) for a good model. Subsequent docking of monobromoacetate, monochloroacetate, dibromoacetate, dichloroacetate, trichloroacetate and 2,2-dichloropropionate ligands via AutoDock Vina1.1.2 showed that residues Gln133, Asp36 and Arg130 are the putative H+-binding site, while the probable haloacid interacting residues are Glu33, Trp34, Phe37, Phe38, Gln165 and Glu370. The DehrP-haloacid complexes exhibited binding affinities between −2.9 and −4.0 kcal/mol. Both the putative H+ and haloacid-binding sites of DehrP possibly aided in co-transportation of substrates H+ and haloacids into the bacterial cells through the alternating access mechanism, which occurs by formation of halogen bonds and van der Waals interactions with the substrates. Hence, site-directed mutagenesis on the DehrP binding residues could improve the haloacid-binding affinity for efficient haloacid degradation.

Published

2018

10. Deciphering the binding mechanism of gingerol molecules with plasma proteins: implications for drug delivery and therapeutic potential.

Author

Gokara M, Yusuf Zamal M, Lavudiya VS, and Subramanyam R

Abstract

Ginger is a highly valued herb, renowned globally for its rich content of phenolic compounds. It has been traditionally used to treat various health conditions such as cardiovascular diseases, digestive issues, migraines, Alzheimer's disease, tumor reduction and chronic inflammation. Despite its potential medicinal applications, the therapeutic effectiveness of ginger is hindered by its limited availability and low plasma concentration levels. In this study, we explored the interaction of ginger's primary phenolic compounds, specifically 6-gingerol (6 G), 8-gingerol (8 G) and 10-gingerol (10 G), with plasma proteins which are human serum albumin (HSA) and α-1-acid glycoprotein (AGP). These two plasma proteins significantly influence drug distribution and disposition as they are key binding sites for most drugs. Fluorescence emission spectra indicated strong binding of 6, 8 and 10 G with HSA, with binding constants of 2.03 ± 0.01 × 10 4 M -1 , 4.20 ± 0.01 × 10 4 M -1 and 6.03 ± 0.01 × 10 6 M -1 , respectively. However, the binding of gingerols with AGP was found to be negligible. Molecular displacement by site-specific probes and molecular docking analyses revealed that gingerols bind at the IIA domain, with stability provided by hydrogen bonds, van der Waals forces, conventional hydrogen bonds, carbon-hydrogen bonds, alkyl and Pi-alkyl interactions. Further, the partial unfolding of the protein was observed upon binding the gingerol compound with HSA. In addition, molecular dynamic simulations demonstrated that gingerols remained stable in the subdomain IIA over 100 ns. This stability, coupled with Molecular Mechanics Generalized Born Surface Area indicating free energies of -43.765, -57.504 and -66.69 kcal/mol for 6, 8 and 10 G, respectively, reinforces the robust binding potential of these compounds. Circular dichroism studies suggested that the interaction of gingerols leads to the minimal transformation of HSA secondary structure, with the pattern being 10  G  > 8  G  > 6 G, a finding further substantiated by root mean square deviation and root mean square fluctuation fluctuations. These results propose that HSA has a stronger affinity to gingerols than AGP, which could have significant implications on the therapeutic circulating levels of gingerols.Communicated by Ramaswamy H. Sarma.

Published

2024

11. Gene expression profiling of whole blood: A comparative assessment of RNA-stabilizing collection methods.

Author

Donohue, Duncan E., Gautam, Aarti, Miller, Stacy-Ann, Srinivasan, Seshamalini, Abu-Amara, Duna, Campbell, Ross, Marmar, Charles R., Hammamieh, Rasha, and Jett, Marti

Subjects

*BLOOD collection, *COMPUTATIONAL biology, *BLOOD cells, *CYTOLOGY, *GENE expression, *BLOOD, *GENE expression profiling

Abstract

Peripheral Blood gene expression is widely used in the discovery of biomarkers and development of therapeutics. Recently, a spate of commercial blood collection and preservation systems have been introduced with proprietary variations that may differentially impact the transcriptomic profiles. Comparative analysis of these collection platforms will help optimize protocols to detect, identify, and reproducibly validate true biological variance among subjects. In the current study, we tested two recently introduced whole blood collection methods, RNAgard® and PAXgene® RNA, in addition to the traditional method of peripheral blood mononuclear cells (PBMCs) separated from whole blood and preserved in Trizol reagent. Study results revealed striking differences in the transcriptomic profiles from the three different methods that imply ex vivo changes in gene expression occurred during the blood collection, preservation, and mRNA extraction processes. When comparing the ability of the three preservation methods to accurately capture individuals' expression differences, RNAgard® outperformed PAXgene® RNA, and both showed better individual separation of transcriptomic profiles than PBMCs. Hence, our study recommends using a single blood collection platform, and strongly cautions against combining methods during the course of a defined study. [ABSTRACT FROM AUTHOR]

Published

2019

12. Differential scanning fluorimetric analysis of the amino-acid binding to taste receptor using a model receptor protein, the ligand-binding domain of fish T1r2a/T1r3.

Author

Yoshida, Takashi, Yasui, Norihisa, Kusakabe, Yuko, Ito, Chiaki, Akamatsu, Miki, and Yamashita, Atsuko

Subjects

*TASTE perception, *FLUORIMETRY, *TASTE receptors, *PROTEIN receptors, *PROTEIN models, *G protein coupled receptors, *PROTEIN hydrolysates

Abstract

Taste receptor type 1 (T1r) is responsible for the perception of essential nutrients, such as sugars and amino acids, and evoking sweet and umami (savory) taste sensations. T1r receptors recognize many of the taste substances at their extracellular ligand-binding domains (LBDs). In order to detect a wide array of taste substances in the environment, T1r receptors often possess broad ligand specificities. However, the entire ranges of chemical spaces and their binding characteristics to any T1rLBDs have not been extensively analyzed. In this study, we exploited the differential scanning fluorimetry (DSF) to medaka T1r2a/T1r3LBD, a current sole T1rLBD heterodimer amenable for recombinant preparation, and analyzed their thermal stabilization by adding various amino acids. The assay showed that the agonist amino acids induced thermal stabilization and shifted the melting temperatures (Tm) of the protein. An agreement between the DSF results and the previous biophysical assay was observed, suggesting that DSF can detect ligand binding at the orthosteric-binding site in T1r2a/T1r3LBD. The assay further demonstrated that most of the tested -amino acids, but no -amino acid, induced Tm shifts of T1r2a/T1r3LBD, indicating the broad -amino acid specificities of the proteins probably with several different manners of recognition. The Tm shifts by each amino acid also showed a fair correlation with the responses exhibited by the full-length receptor, verifying the broad amino-acid binding profiles at the orthosteric site in LBD observed by DSF. [ABSTRACT FROM AUTHOR]

Published

2019

13. Inclusion of enclosed hydration effects in the binding free energy estimation of dopamine D3 receptor complexes.

Author

Pal, Rajat Kumar, Gadhiya, Satishkumar, Ramsey, Steven, Cordone, Pierpaolo, Wickstrom, Lauren, Harding, Wayne W., Kurtzman, Tom, and Gallicchio, Emilio

Subjects

*DOPAMINE receptors, *BINDING energy, *SOLVATION, *G protein coupled receptors, *MOLECULAR recognition, *HYDRATION, *BINDING site assay, *BINDING sites

Abstract

Confined hydration and conformational flexibility are some of the challenges encountered for the rational design of selective antagonists of G-protein coupled receptors. We present a set of C3-substituted (-)-stepholidine derivatives as potent binders of the dopamine D3 receptor. The compounds are characterized biochemically, as well as by computer modeling using a novel molecular dynamics-based alchemical binding free energy approach which incorporates the effect of the displacement of enclosed water molecules from the binding site. The free energy of displacement of specific hydration sites is obtained using the Hydration Site Analysis method with explicit solvation. This work underscores the critical role of confined hydration and conformational reorganization in the molecular recognition mechanism of dopamine receptors and illustrates the potential of binding free energy models to represent these key phenomena. [ABSTRACT FROM AUTHOR]

Published

2019

14. Heat shock-induced chaperoning by Hsp70 is enabled in-cell.

Author

Guin, Drishti, Gelman, Hannah, Wang, Yuhan, and Gruebele, Martin

Subjects

*GLOBULAR proteins, *HEAT shock proteins, *MOLECULAR chaperones, *PHOSPHOGLYCERATE kinase, *FLUORESCENCE resonance energy transfer

Abstract

Recent work has shown that weak protein-protein interactions are susceptible to the cellular milieu. One case in point is the binding of heat shock proteins (Hsps) to substrate proteins in cells under stress. Upregulation of the Hsp70 chaperone machinery at elevated temperature was discovered in the 1960s, and more recent studies have shown that ATPase activity in one Hsp70 domain is essential for control of substrate binding by the other Hsp70 domain. Although there are several denaturant-based assays of Hsp70 activity, reports of ATP-dependent binding of Hsp70 to a globular protein substrate under heat shock are scarce. Here we show that binding of heat-inducible Hsp70 to phosphoglycerate kinase (PGK) is remarkably different in vitro compared to in-cell. We use fluorescent-labeled mHsp70 and ePGK, and begin by showing that mHsp70 passes the standard β-galactosidase assay, and that it does not self-aggregate until 50°C in presence of ATP. Yet during denaturant refolding or during in vitro heat shock, mHsp70 shows only ATP-independent non-specific sticking to ePGK, as evidenced by nearly identical results with an ATPase activity-deficient K71M mutant of Hsp70 as a control. Addition of Hsp40 (co-factor) or Ficoll (crowder) does not reduce non-specific sticking, but cell lysate does. Therefore, Hsp70 does not act as an ATP-dependent chaperone on its substrate PGK in vitro. In contrast, we observe only specific ATP-dependent binding of mHsp70 to ePGK in mammalian cells, when compared to the inactive Hsp70 K71M mutant. We hypothesize that enhanced in-cell activity is not due to an unknown co-factor, but simply to a favorable shift in binding equilibrium caused by the combination of crowding and osmolyte/macromolecular interactions present in the cell. One candidate mechanism for such a favorable shift in binding equilibrium is the proven ability of Hsp70 to bind near-native states of substrate proteins in vitro. We show evidence for early onset of binding in-cell. Our results suggest that Hsp70 binds PGK preemptively, prior to its full unfolding transition, thus stabilizing it against further unfolding. We propose a “preemptive holdase” mechanism for Hsp70-substrate binding. Given our result for PGK, more proteins than one might think based on in vitro assays may be chaperoned by Hsp70 in vivo. The cellular environment thus plays an important role in maintaining proper Hsp70 function. [ABSTRACT FROM AUTHOR]

Published

2019

15. A pull-down and slot blot-based screening system for inhibitor compounds of the podoplanin-CLEC-2 interaction.

Author

Watanabe, Nobuo, Kidokoro, Masako, Suzuki, Yusuke, Tanaka, Makiko, Inoue, Shigeaki, Tsukamoto, Hideo, Hirayama, Noriaki, Hsieh, Pei-Wen, Tseng, Ching-Ping, Nakagawa, Yoshihide, and Inokuchi, Sadaki

Subjects

*BLOOD platelet aggregation, *CHIMERIC proteins, *HELA cells, *TURNAROUND time, *GEL electrophoresis, *LECTINS

Abstract

Podoplanin, a transmembrane glycoprotein, is overexpressed in certain types of tumors and induces platelet aggregation by binding to C-type lectin-like receptor 2 (CLEC-2) on the platelet membrane. Activated platelets release granule components, which in turn, trigger epithelial-mesenchymal transition and confer invasive capacity to the tumor cells. Therefore, blocking the podoplanin-CLEC-2 interaction by a small-molecule compound is a potential therapeutic strategy to prevent cancer metastasis and invasion. To effectively identify such inhibitory compounds, we have developed a pull-down-based inhibitory compound screening system. An immunoglobulin Fc domain-CLEC-2 fusion protein was used as a bait to capture podoplanin derived from podoplanin-overexpressing HeLa cells in the presence and absence of the test compound. The protein complex was then pulled down using protein A beads. To shorten the turnaround time, increase throughput, and decrease the workload for the operators, centrifugal filter units were employed to separate free and bound podoplanin, instead of using customary aspiration-centrifugation washing cycles. Slot blotting was also utilized in lieu of gel electrophoresis and electrical transfer. Thus, the use of our pull down screening system could facilitate the effective selection of potential inhibitor compounds of the podoplanin-CLEC-2 interaction for cancer therapy. Importantly, our methodology is also applicable to targeting other protein-protein interactions. [ABSTRACT FROM AUTHOR]

Published

2019

16. Nilotinib, an approved leukemia drug, inhibits smoothened signaling in Hedgehog-dependent medulloblastoma.

Author

Chahal, Kirti Kandhwal, Li, Jie, Kufareva, Irina, Parle, Milind, Durden, Donald L., Wechsler-Reya, Robert J., Chen, Clark C., and Abagyan, Ruben

Subjects

*BASAL cell carcinoma, *LEUKEMIA, *TUMOR growth, *DRUGS, *NILOTINIB

Abstract

Dysregulation of the seven-transmembrane (7TM) receptor Smoothened (SMO) and other components of the Hedgehog (Hh) signaling pathway contributes to the development of cancers including basal cell carcinoma (BCC) and medulloblastoma (MB). However, SMO-specific antagonists produced mixed results in clinical trials, marked by limited efficacy and high rate of acquired resistance in tumors. Here we discovered that Nilotinib, an approved inhibitor of several kinases, possesses an anti-Hh activity, at clinically achievable concentrations, due to direct binding to SMO and inhibition of SMO signaling. Nilotinib was more efficacious than the SMO-specific antagonist Vismodegib in inhibiting growth of two Hh-dependent MB cell lines. It also reduced tumor growth in subcutaneous MB mouse xenograft model. These results indicate that in addition to its known activity against several tyrosine-kinase-mediated proliferative pathways, Nilotinib is a direct inhibitor of the Hh pathway. The newly discovered extension of Nilotinib’s target profile holds promise for the treatment of Hh-dependent cancers. [ABSTRACT FROM AUTHOR]

Published

2019

17. The wing of the ToxR winged helix-turn-helix domain is required for DNA binding and activation of toxT and ompU.

Author

Morgan, Sarah J., French, Emily L., Plecha, Sarah C., and Krukonis, Eric S.

Subjects

*DNA, *VIBRIO cholerae, *PROMOTERS (Genetics), *TRANSCRIPTION factors, *SOLID state physics

Abstract

ToxR and TcpP, two winged helix-turn-helix (w-HTH) family transcription factors, co-activate expression of the toxT promoter in Vibrio cholerae. ToxT then directly regulates a number of genes required for virulence. In addition to co-activation of toxT, ToxR can directly activate the ompU promoter and repress the ompT promoter. Based on a previous study suggesting that certain wing residues of ToxR are preferentially involved in toxT co-activation compared to direct ompU activation, we employed alanine-scanning mutagenesis to determine which residues in the wing of ToxR are required for activation of each promoter. All of the ToxR wing residues tested that were critical for transcriptional activation of toxT and/or ompU were also critical for DNA binding. While some ToxR wing mutants had reduced interaction with TcpP, that reduced interaction did not correlate with a specific defect in toxT activation. Rather, such mutants also affected ompU activation and DNA binding. Based on these findings we conclude that the primary role of the wing of ToxR is to bind DNA, along with the DNA recognition helix of ToxR, and this function is required both for direct activation of ompU and co-activation of toxT. [ABSTRACT FROM AUTHOR]

Published

2019

18. FKBP51 and FKBP12.6—Novel and tight interactors of Glomulin.

Author

Hähle, Andreas, Geiger, Thomas M., Merz, Stephanie, Meyners, Christian, Tianqi, Mao, Kolos, Jürgen, and Hausch, Felix

Subjects

*UBIQUITIN ligases, *FLUORESCENCE resonance energy transfer, *SULFUR amino acids

Abstract

The protein factor Glomulin (Glmn) is a regulator of the SCF (Skp1-CUL1-F-box protein) E3 ubiquitin-protein ligase complex. Mutations of Glmn lead to glomuvenous malformations. Glmn has been reported to be associated with FK506-binding proteins (FKBP). Here we present in vitro binding analyses of the FKBP—Glmn interaction. Interestingly, the previously described interaction of Glmn and FKBP12 was found to be comparatively weak. Instead, the closely related FKBP12.6 and FKBP51 emerged as novel binding partners. We show different binding affinities of full length and truncated FKBP51 and FKBP52 mutants. Using FKBP51 as a model system, we show that two amino acids lining the FK506-binding site are essential for binding Glmn and that the FKBP51-Glmn interaction is blocked by FKBP ligands. This data suggest FKBP inhibition as a pharmacological approach to regulate Glmn and Glmn-controlled processes. [ABSTRACT FROM AUTHOR]

Published

2019

19. GRAM: A GeneRAlized Model to predict the molecular effect of a non-coding variant in a cell-type specific manner.

Author

Lou, Shaoke, Cotter, Kellie A., Li, Tianxiao, Liang, Jin, Mohsen, Hussein, Liu, Jason, Zhang, Jing, Cohen, Sandra, Xu, Jinrui, Yu, Haiyuan, Rubin, Mark A., and Gerstein, Mark

Subjects

*GENE expression, *COMPUTATIONAL biology, *MOLECULAR models, *PHYSICAL sciences, *REPORTER genes, *VIDEO coding, *NETWORK hubs, *GENE regulatory networks

Abstract

There has been much effort to prioritize genomic variants with respect to their impact on “function”. However, function is often not precisely defined: sometimes it is the disease association of a variant; on other occasions, it reflects a molecular effect on transcription or epigenetics. Here, we coupled multiple genomic predictors to build GRAM, a GeneRAlized Model, to predict a well-defined experimental target: the expression-modulating effect of a non-coding variant on its associated gene, in a transferable, cell-specific manner. Firstly, we performed feature engineering: using LASSO, a regularized linear model, we found transcription factor (TF) binding most predictive, especially for TFs that are hubs in the regulatory network; in contrast, evolutionary conservation, a popular feature in many other variant-impact predictors, has almost no contribution. Moreover, TF binding inferred from in vitro SELEX is as effective as that from in vivo ChIP-Seq. Second, we implemented GRAM integrating only SELEX features and expression profiles; thus, the program combines a universal regulatory score with an easily obtainable modifier reflecting the particular cell type. We benchmarked GRAM on large-scale MPRA datasets, achieving AUROC scores of 0.72 in GM12878 and 0.66 in a multi-cell line dataset. We then evaluated the performance of GRAM on targeted regions using luciferase assays in the MCF7 and K562 cell lines. We noted that changing the insertion position of the construct relative to the reporter gene gave very different results, highlighting the importance of carefully defining the exact prediction target of the model. Finally, we illustrated the utility of GRAM in fine-mapping causal variants and developed a practical software pipeline to carry this out. In particular, we demonstrated in specific examples how the pipeline could pinpoint variants that directly modulate gene expression within a larger linkage-disequilibrium block associated with a phenotype of interest (e.g., for an eQTL). [ABSTRACT FROM AUTHOR]

Published

2019

20. Scalable, semi-automated fluorescence reduction neutralization assay for qualitative assessment of Ebola virus-neutralizing antibodies in human clinical samples.

Author

Postnikova, Elena N., Pettitt, James, Van Ryn, Collin J., Holbrook, Michael R., Bollinger, Laura, Yú, Shuǐqìng, Caì, Yíngyún, Liang, Janie, Sneller, Michael C., Jahrling, Peter B., Hensley, Lisa E., Kuhn, Jens H., Fallah, Mosoka P., Bennett, Richard S., and Reilly, Cavan

Subjects

*EBOLA virus disease, *VIRAL antibodies, *VIRAL antigens, *IMMUNOGLOBULINS, *ENZYME-linked immunosorbent assay

Abstract

Antibody titers against a viral pathogen are typically measured using an antigen binding assay, such as an enzyme-linked immunosorbent assay (ELISA), which only measures the ability of antibodies to identify a viral antigen of interest. Neutralization assays measure the presence of virus-neutralizing antibodies in a sample. Traditional neutralization assays, such as the plaque reduction neutralization test (PRNT), are often difficult to use on a large scale due to being both labor and resource intensive. Here we describe an Ebola virus fluorescence reduction neutralization assay (FRNA), which tests for neutralizing antibodies, that requires only a small volume of sample in a 96-well format and is easy to automate. The readout of the FRNA is the percentage of Ebola virus-infected cells measured with an optical reader or overall chemiluminescence that can be generated by multiple reading platforms. Using blinded human clinical samples (EVD survivors or contacts) obtained in Liberia during the 2013–2016 Ebola virus disease outbreak, we demonstrate there was a high degree of agreement between the FRNA-measured antibody titers and the Filovirus Animal Non-clinical Group (FANG) ELISA titers with the FRNA providing information on the neutralizing capabilities of the antibodies. [ABSTRACT FROM AUTHOR]

Published

2019

21. Hidden bias in the DUD-E dataset leads to misleading performance of deep learning in structure-based virtual screening.

Author

Chen, Lieyang, Cruz, Anthony, Ramsey, Steven, Dickson, Callum J., Duca, Jose S., Hornak, Viktor, Koes, David R., and Kurtzman, Tom

Abstract

Recently much effort has been invested in using convolutional neural network (CNN) models trained on 3D structural images of protein-ligand complexes to distinguish binding from non-binding ligands for virtual screening. However, the dearth of reliable protein-ligand x-ray structures and binding affinity data has required the use of constructed datasets for the training and evaluation of CNN molecular recognition models. Here, we outline various sources of bias in one such widely-used dataset, the Directory of Useful Decoys: Enhanced (DUD-E). We have constructed and performed tests to investigate whether CNN models developed using DUD-E are properly learning the underlying physics of molecular recognition, as intended, or are instead learning biases inherent in the dataset itself. We find that superior enrichment efficiency in CNN models can be attributed to the analogue and decoy bias hidden in the DUD-E dataset rather than successful generalization of the pattern of protein-ligand interactions. Comparing additional deep learning models trained on PDBbind datasets, we found that their enrichment performances using DUD-E are not superior to the performance of the docking program AutoDock Vina. Together, these results suggest that biases that could be present in constructed datasets should be thoroughly evaluated before applying them to machine learning based methodology development. [ABSTRACT FROM AUTHOR]

Published

2019

22. Agonist-induced membrane nanodomain clustering drives GLP-1 receptor responses in pancreatic beta cells.

Author

Buenaventura, Teresa, Bitsi, Stavroula, Laughlin, William E., Burgoyne, Thomas, Lyu, Zekun, Oqua, Affiong I., Norman, Hannah, McGlone, Emma R., Klymchenko, Andrey S., JrCorrêa, Ivan R., Walker, Abigail, Inoue, Asuka, Hanyaloglu, Aylin, Grimes, Jak, Koszegi, Zsombor, Calebiro, Davide, Rutter, Guy A., Bloom, Stephen R., Jones, Ben, and Tomas, Alejandra

Subjects

*GLUCAGON-like peptide-1 agonists, *PANCREATIC beta cells, *GLUCAGON-like peptide-1 receptor, *G protein coupled receptors, *SMALL molecules, *ALLOSTERIC regulation, *CYTOLOGY

Abstract

The glucagon-like peptide-1 receptor (GLP-1R), a key pharmacological target in type 2 diabetes (T2D) and obesity, undergoes rapid endocytosis after stimulation by endogenous and therapeutic agonists. We have previously highlighted the relevance of this process in fine-tuning GLP-1R responses in pancreatic beta cells to control insulin secretion. In the present study, we demonstrate an important role for the translocation of active GLP-1Rs into liquid-ordered plasma membrane nanodomains, which act as hotspots for optimal coordination of intracellular signaling and clathrin-mediated endocytosis. This process is dynamically regulated by agonist binding through palmitoylation of the GLP-1R at its carboxyl-terminal tail. Biased GLP-1R agonists and small molecule allosteric modulation both influence GLP-1R palmitoylation, clustering, nanodomain signaling, and internalization. Downstream effects on insulin secretion from pancreatic beta cells indicate that these processes are relevant to GLP-1R physiological actions and might be therapeutically targetable. [ABSTRACT FROM AUTHOR]

Published

2019

23. The genomic landscape of estrogen receptor α binding sites in mouse mammary gland.

Author

Palaniappan, Murugesan, Nguyen, Loc, Grimm, Sandra L., Xi, Yuanxin, Xia, Zheng, Li, Wei, and Coarfa, Cristian

Subjects

*MAMMARY glands, *BINDING sites, *ESTROGEN receptors, *MICE, *EPITHELIAL cells, *GENE enhancers, *PROLACTIN, *ESTRADIOL

Abstract

Estrogen receptor α (ERα) is the major driving transcription factor in the mammary gland development as well as breast cancer initiation and progression. However, the genomic landscape of ERα binding sites in the normal mouse mammary gland has not been completely elucidated. Here, we mapped genome-wide ERα binding events by chromatin immunoprecipitation followed by high-throughput sequencing (ChIP-seq) in the mouse mammary gland in response to estradiol. We identified 6237 high confidence ERα binding sites in two biological replicates and showed that many of these were located at distal enhancer regions. Furthermore, we discovered 3686 unique genes in the mouse genome that recruit ER in response to estradiol. Interrogation of ER-DNA binding sites in ER-positive luminal epithelial cells showed that the ERE, PAX2, SF1, and AP1 motifs were highly enriched at distal enhancer regions. In addition, comprehensive transcriptome analysis by RNA-seq revealed that 493 genes are differentially regulated by acute treatment with estradiol in the mouse mammary gland in vivo. Through integration of RNA-seq and ERα ChIP-seq data, we uncovered a novel ERα targetome in mouse mammary epithelial cells. Taken together, our study has identified the genomic landscape of ERα binding events in mouse mammary epithelial cells. Furthermore, our study also highlights the cis-regulatory elements and cofactors that are involved in estrogen signaling and may contribute to ductal elongation in the normal mouse mammary gland. [ABSTRACT FROM AUTHOR]

Published

2019

24. PAX5 is part of a functional transcription factor network targeted in lymphoid leukemia.

Author

Okuyama, Kazuki, Strid, Tobias, Kuruvilla, Jacob, Somasundaram, Rajesh, Cristobal, Susana, Smith, Emma, Prasad, Mahadesh, Fioretos, Thoas, Lilljebjörn, Henrik, Soneji, Shamit, Lang, Stefan, Ungerbäck, Jonas, and Sigvardsson, Mikael

Subjects

*LYMPHOCYTIC leukemia, *TRANSCRIPTION factors, *CHIMERIC proteins, *DNA-binding proteins, *GENE expression, *KARYOTYPES

Abstract

One of the most frequently mutated proteins in human B-lineage leukemia is the transcription factor PAX5. These mutations often result in partial rather than complete loss of function of the transcription factor. While the functional dose of PAX5 has a clear connection to human malignancy, there is limited evidence for that heterozygote loss of PAX5 have a dramatic effect on the development and function of B-cell progenitors. One possible explanation comes from the finding that PAX5 mutated B-ALL often display complex karyotypes and additional mutations. Thus, PAX5 might be one component of a larger transcription factor network targeted in B-ALL. To investigate the functional network associated with PAX5 we used BioID technology to isolate proteins associated with this transcription factor in the living cell. This identified 239 proteins out of which several could be found mutated in human B-ALL. Most prominently we identified the commonly mutated IKZF1 and RUNX1, involved in the formation of ETV6-AML1 fusion protein, among the interaction partners. ChIP- as well as PLAC-seq analysis supported the idea that these factors share a multitude of target genes in human B-ALL cells. Gene expression analysis of mouse models and primary human leukemia suggested that reduced function of PAX5 increased the ability of an oncogenic form of IKZF1 or ETV6-AML to modulate gene expression. Our data reveals that PAX5 belong to a regulatory network frequently targeted by multiple mutations in B-ALL shedding light on the molecular interplay in leukemia cells. [ABSTRACT FROM AUTHOR]

Published

2019

25. Modulated Zika virus NS1 conjugate offers advantages for accurate detection of Zika virus specific antibody in double antigen binding and Ig capture enzyme immunoassays.

Author

Tedder, Richard S., Dicks, Steve, Ijaz, Samreen, Santiago de Souza, Nathalia Caroline, Vincente de Paula, Anderson, Levy, Flavia, Medialdea-Carrera, Raquel, Levi, José Eduardo, Pannuti, Claudio S., Carvalho de Sequeira, Patrícia, Brown, David W. G., and Ushiro Lumb, Ines

Subjects

*ZIKA virus, *ENZYME-linked immunosorbent assay, *DENGUE viruses, *VIRUS diseases, *VIRAL antibodies, *ANTIGENS

Abstract

The accurate diagnosis and seroprevalence investigations of Zika virus (ZKV) infections remain complex due to cross reactivity with other flaviviruses. Two assay formats, both using labelled Zika virus NS1 antigen as a revealing agent (a double antigen binding assay, DABA, and an immunoglobulin Ig capture assay, G capture) were initially developed and compared with the indirect EuroimmunZ assay for the detection of anti-Zika antibody. Of 147 pre-Zika period serum samples, 39 (27%) were reactive in the EuroimmunZ or the DABA assays, 28 sera concordantly so. Such false reactivity was influenced by the serotype of Dengue virus (DV) to which individuals had been exposed to. Thus, of sera from patients undergoing secondary Dengue virus infection of known serotype, 91%, 45% and 28% of Dengue virus serotype 2, 3 and 4 respectively were reactive in one or more of the three assays. A novel method of quenching false sero-reactivity was therefore developed for the DABA and G capture assays. Initial addition of a single homologous Dengue virus serotype 3 NS1Ag quench significantly ablated false reactivities in the pre-Zika period sera. An equipotent quadrivalent quench comprising homologous Dengue virus serotypes 1 to 4 NS1Ag was shown to be optimum yet retained sensitivity for the detection of specific anti-Zika antibody. Comparing DABA and G capture assays using quenched and unquenched conjugates in comparison with EuroimmunZ early in the course of PCR-confirmed infection indicated that a significant component of the apparent early anti-ZIKA antibody response is likely to be due to a Zika virus-driven anamnestic anti-Dengue virus response. The increased specificity provided by homologous antigen quenching is likely to provide a significant improvement in sero-diagnostics and to be of clinical value. [ABSTRACT FROM AUTHOR]

Published

2019

26. Design and characterisation of a novel interleukin-15 receptor alpha fusion protein and analysis of interleukin-15 complexation.

Author

Schmid, Anja Sophie and Neri, Dario

Subjects

*CHIMERIC proteins, *INTERLEUKIN-15, *PROTEIN analysis, *GEL permeation chromatography, *SURFACE plasmon resonance, *FIBRONECTINS

Abstract

Interleukin-15 (IL15) is one of the most important cytokines currently being considered for cancer therapy applications. It is thought that by administering IL15 in complex with its cognate receptor alpha chain (IL15Rα) its biological activity could be increased manifold. We produced a fusion protein of mouse IL15Rα and the F8 antibody, that targets the alternatively-spliced extra-domain A (EDA) of fibronectin, which is overexpressed in many types of cancer. The fusion protein F8IL15Rα was cloned, expressed and characterized in vitro and its ability to bind to mouse IL15 was assessed with both size exclusion chromatography (SEC) and surface plasmon resonance (SPR) experiments. Furthermore, mouse and human IL15 and their corresponding Fc fused IL15Rα subunits were purchased, characterized and used to compare the capacity of F8IL15Rα to generate complexes. Surprisingly, none of the IL15Rα fusion proteins showed IL15 complexation on SEC. However, on SPR, F8IL15Rα displayed the ability to bind IL15. In a cell-based activity assay none of the IL15Rα fusions were able to increase cellular proliferation in combination with IL15 compared to IL15 alone. A better understanding of the molecular requirements for effective IL15 signalling are likely to be important for the development of IL15-based biopharmaceuticals. [ABSTRACT FROM AUTHOR]

Published

2019

27. Cannabidiol binding and negative allosteric modulation at the cannabinoid type 1 receptor in the presence of delta-9-tetrahydrocannabinol: An In Silico study.

Author

Chung, Hery, Fierro, Angélica, and Pessoa-Mahana, C. David

Subjects

*ALLOSTERIC regulation, *CANNABINOID receptors, *MOLECULAR dynamics, *TETRAHYDROCANNABINOL, *BINDING sites, *COMPUTATIONAL biology

Abstract

Recent evidence has raised in discussion the possibility that cannabidiol can act as a negative allosteric modulator of the cannabinoid type 1 receptor. Here we have used computational methods to study the modulation exerted by cannabidiol on the effects of delta-9-tetrahydrocannabinol in the cannabinoid receptor type 1 and the possibility of direct receptor blockade. We propose a putative allosteric binding site that is located in the N-terminal region of receptor, partially overlapping the orthosteric binding site. Molecular dynamics simulations reveled a coordinated movement involving the outward rotation of helixes 1 and 2 and subsequent expansion of the orthosteric binding site upon cannabidiol binding. Finally, changes in the cytoplasmic region and high helix 8 mobility were related to impaired receptor internalization. Together, these results offer a possible explanation to how cannabidiol can directly modulate effects of delta-9-tetrahydrocannabinol on the cannabinoid receptor type 1. [ABSTRACT FROM AUTHOR]

Published

2019

28. Structure and functional analysis of a bacterial adhesin sugar-binding domain.

Author

Vance, Tyler D. R., Guo, Shuaiqi, Assaie-Ardakany, Shayan, Conroy, Brigid, and Davies, Peter L.

Subjects

*CALCIUM ions, *FUNCTIONAL analysis, *BRANCHED polymers, *ISOTHERMAL titration calorimetry, *BINDING site assay, *BACTERIAL adhesins

Abstract

Bacterial adhesins attach their hosts to surfaces through one or more ligand-binding domains. In RTX adhesins, which are localized to the outer membrane of many Gram-negative bacteria via the type I secretion system, we see several examples of a putative sugar-binding domain. Here we have recombinantly expressed one such ~20-kDa domain from the ~340-kDa adhesin found in Marinobacter hydrocarbonoclasticus, an oil-degrading bacterium. The sugar-binding domain was purified from E. coli with a yield of 100 mg/L of culture. Circular dichroism analysis showed that the protein was rich in beta-structure, was moderately heat resistant, and required Ca2+ for proper folding. A crystal structure was obtained in Ca2+ at 1.2-Å resolution, which showed the presence of three Ca2+ ions, two of which were needed for structural integrity and one for binding sugars. Glucose was soaked into the crystal, where it bound to the sugar’s two vicinal hydroxyl groups attached to the first and second (C1 and C2) carbons in the pyranose ring. This attraction to glucose caused the protein to bind certain polysaccharide-based column matrices and was used in a simple competitive binding assay to assess the relative affinity of sugars for the protein’s ligand-binding site. Fucose, glucose and N-acetylglucosamine bound most tightly, and N-acetylgalactosamine hardly bound at all. Isothermal titration calorimetry was used to determine specific binding affinities, which lie in the 100-μM range. Glycan arrays were tested to expand the range of ligand sugars assayed, and showed that MhPA14 bound preferentially to branched polymers containing terminal sugars highlighted as strong binders in the competitive binding assay. Some of these binders have vicinal hydroxyl groups attached to the C3 and C4 carbons that are sterically equivalent to those presented by the C1 and C2 carbons of glucose. [ABSTRACT FROM AUTHOR]

Published

2019

29. Binding affinities of human IgG1 and chimerized pig and rabbit derivatives to human, pig and rabbit Fc gamma receptor IIIA.

Author

Bhatti, Maryam M., Cai, Allen G., and Theunissen, Jan-Willem

Subjects

*FC receptors, *PHARMACOLOGY, *ANTIBODY-dependent cell cytotoxicity, *RABBITS

Abstract

While pigs and rabbits are used as models for human immune diseases, FcγR binding is poorly characterized in both test species. To evaluate antibody binding to FcγRIIIA, a receptor involved in antibody-dependent cellular cytotoxicity, chimerized antibodies were generated by grafting the variable regions of a human IgG1 onto scaffolds from both species. The affinities of the parent and chimeric antibodies to the FcγRIIIA proteins from all three species were determined. While the human IgG1 and rabbit IgG had similar affinities for each FcγRIIIA with notable differences across species, pig IgG1 only bound pig FcγRIIIA with appreciable affinity. Also, the functional pig and rabbit proteins described here can be used in future experiments, such as pharmacology and mechanism of action studies. [ABSTRACT FROM AUTHOR]

Published

2019

30. Defining the binding interface of Amyloid Precursor Protein (APP) and Contactin3 (CNTN3) by site-directed mutagenesis.

Author

Peng, Xi, Williams, John, Smallwood, Philip M., and Nathans, Jeremy

Subjects

*AMYLOID beta-protein precursor, *FIBRONECTINS, *SITE-specific mutagenesis, *CHIMERIC proteins, *BINDING site assay, *AMINO acids

Abstract

The Amyloid Precursor Protein (APP) and Contactin (CNTN) families of cell-surface proteins have been intensively studied in the context of neural development and neuropsychiatric diseases. Earlier studies demonstrated both genetic and biochemical interactions between the extracellular domains of APP and CNTN3, but their precise binding interfaces were not defined. In the present study, we have used binding assays between APP-alkaline phosphatase (AP) fusion proteins and CNTN-Fc fusion proteins, together with alanine substitution mutagenesis, to show that: (i) the second Fibronectin domain (Fn(2)) in CNTN3 mediates APP binding; (ii) the copper binding domain (CuBD) in APP mediates CNTN3 binding; and (iii) the most important amino acids for APP-CNTN3 binding reside on one face of CNTN3-Fn(2) and on one face of APP-CuBD. These experiments define the regions of direct contact that mediate the binding interaction between APP and CNTN3. [ABSTRACT FROM AUTHOR]

Published

2019

31. Substituted anthraquinones represent a potential scaffold for DNA methyltransferase 1-specific inhibitors.

Author

Switzer, Rebecca L., Medrano, Jessica, Reedel, David A., and Weiss, Jill

Subjects

*DNA methyltransferases, *CYTOSINE, *DNA methylation, *ANTHRAQUINONES, *ORGANIC chemistry, *SMALL molecules

Abstract

In humans, the most common epigenetic DNA modification is methylation of the 5-carbon of cytosines, predominantly in CpG dinucleotides. DNA methylation is an important epigenetic mark associated with gene repression. Disruption of the normal DNA methylation pattern is known to play a role in the initiation and progression of many cancers. DNA methyltransferase 1 (DNMT1), the most abundant DNA methyltransferase in humans, is primarily responsible for maintenance of the DNA methylation pattern and is considered an important cancer drug target. Recently, laccaic acid A (LCA), a highly substituted anthraquinone natural product, was identified as a direct, DNA-competitive inhibitor of DNMT1. Here, we have successfully screened a small library of simplified anthraquinone compounds for DNMT1 inhibition. Using an endonuclease-coupled DNA methylation assay, we identified two anthraquinone compounds, each containing an aromatic substituent, that act as direct DNMT1 inhibitors. These simplified anthraquinone compounds retain the DNA-competitive mechanism of action of LCA and exhibit some selectivity for DNMT1 over DNMT3a. The newly identified compounds are at least 40-fold less potent than LCA, but have significantly less complex structures. Collectively, this data indicates that substituted anthraquinone compounds could serve as a novel scaffold for developing DNMT1-specific inhibitors. [ABSTRACT FROM AUTHOR]

Published

2019

32. Similarities and differences between native HIV-1 envelope glycoprotein trimers and stabilized soluble trimer mimetics.

Author

Torrents de la Peña, Alba, Rantalainen, Kimmo, Cottrell, Christopher A., Allen, Joel D., van Gils, Marit J., Torres, Jonathan L., Crispin, Max, Sanders, Rogier W., and Ward, Andrew B.

Subjects

*VIRAL envelope proteins, *GLYCOPROTEINS, *CYTOLOGY, *LIFE sciences, *CELL anatomy, *MEDICAL microbiology, *BINDING site assay

Abstract

The HIV-1 envelope glycoprotein (Env) trimer is located on the surface of the virus and is the target of broadly neutralizing antibodies (bNAbs). Recombinant native-like soluble Env trimer mimetics, such as SOSIP trimers, have taken a central role in HIV-1 vaccine research aimed at inducing bNAbs. We therefore performed a direct and thorough comparison of a full-length unmodified Env trimer containing the transmembrane domain and the cytoplasmic tail, with the sequence matched soluble SOSIP trimer, both based on an early Env sequence (AMC011) from an HIV+ individual that developed bNAbs. The structures of the full-length AMC011 trimer bound to either bNAb PGT145 or PGT151 were very similar to the structures of SOSIP trimers. Antigenically, the full-length and SOSIP trimers were comparable, but in contrast to the full-length trimer, the SOSIP trimer did not bind at all to non-neutralizing antibodies, most likely as a consequence of the intrinsic stabilization of the SOSIP trimer. Furthermore, the glycan composition of full-length and SOSIP trimers was similar overall, but the SOSIP trimer possessed slightly less complex and less extensively processed glycans, which may relate to the intrinsic stabilization as well as the absence of the membrane tether. These data provide insights into how to best use and improve membrane-associated full-length and soluble SOSIP HIV-1 Env trimers as immunogens. [ABSTRACT FROM AUTHOR]

Published

2019

33. Progranulin deficiency leads to reduced glucocerebrosidase activity.

Author

Zhou, Xiaolai, Paushter, Daniel H., Pagan, Mitchell D., Kim, Dongsung, Nunez Santos, Mariela, Lieberman, Raquel L., Overkleeft, Herman S., Sun, Ying, Smolka, Marcus B., and Hu, Fenghua

Subjects

*PROGRANULIN, *FRONTOTEMPORAL lobar degeneration, *NEURONAL ceroid-lipofuscinosis, *CYTOLOGY, *CONNECTIVE tissue cells

Abstract

Mutation in the GRN gene, encoding the progranulin (PGRN) protein, shows a dose-dependent disease correlation, wherein haploinsufficiency results in frontotemporal lobar degeneration (FTLD) and complete loss results in neuronal ceroid lipofuscinosis (NCL). Although the exact function of PGRN is unknown, it has been increasingly implicated in lysosomal physiology. Here we report that PGRN interacts with the lysosomal enzyme, glucocerebrosidase (GCase), and is essential for proper GCase activity. GCase activity is significantly reduced in tissue lysates from PGRN-deficient mice. This is further evidence that reduced lysosomal hydrolase activity may be a pathological mechanism in cases of GRN-related FTLD and NCL. [ABSTRACT FROM AUTHOR]

Published

2019

34. Human antibody repertoire frequently includes antibodies to a bacterial biofilm associated protein.

Author

Ryser, Stefan, Tenorio, Edgar, Estellés, Angeles, and Kauvar, Lawrence M.

Subjects

*BACTERIAL antibodies, *SCAFFOLD proteins, *OBSTRUCTIVE lung diseases, *T cell receptors, *IMMUNOGLOBULINS, *MONOCLONAL antibodies

Abstract

We have previously described a native human monoclonal antibody, TRL1068, that disrupts bacterial biofilms by extracting from the biofilm matrix key scaffolding proteins in the DNABII family, which are present in both gram positive and gram negative bacterial species. The antibiotic resistant sessile bacteria released from the biofilm then revert to the antibiotic sensitive planktonic state. Qualitative resensitization to antibiotics has been demonstrated in three rodent models of acute infections. We report here the surprising discovery that antibodies against the target family were found in all twenty healthy humans surveyed, albeit at a low level requiring a sensitive single B-cell assay for detection. We have cloned 21 such antibodies. Aside from TRL1068, only one (TRL1330) has all the biochemical properties believed necessary for pharmacological efficacy (broad spectrum epitope specificity and high affinity). We suggest that the other anti-DNABII antibodies, while not necessarily curative, reflect an immune response at some point in the donor’s history to these components of biofilms. Such an immune response could reflect exposure to bacterial reservoirs that have been previously described in chronic non-healing wounds, periodontal disease, chronic obstructive pulmonary disease, colorectal cancer, rheumatoid arthritis, and atherosclerotic artery explants. The detection of anti-DNABII antibodies in all twenty surveyed donors with no active infection suggests that bacterial biofilm reservoirs may be present periodically in most healthy individuals. Biofilms routinely shed bacteria, creating a continuous low level inflammatory stimulus. Since chronic subclinical inflammation is thought to contribute to most aging-related diseases, suppression of bacterial biofilm has potential value in delaying age-related pathology. [ABSTRACT FROM AUTHOR]

Published

2019

35. Increased association between Epstein-Barr virus EBNA2 from type 2 strains and the transcriptional repressor BS69 restricts EBNA2 activity.

Author

Ponnusamy, Rajesh, Khatri, Ritika, Correia, Paulo B., Wood, C. David, Mancini, Erika J., Farrell, Paul J., and West, Michelle J.

Subjects

*EPSTEIN-Barr virus, *GENETIC repressors, *SMALL-angle X-ray scattering, *MOLECULAR weights, *PHYSICAL sciences, *MATERIALS science

Abstract

Natural variation separates Epstein-Barr virus (EBV) into type 1 and type 2 strains. Type 2 EBV is less transforming in vitro due to sequence differences in the EBV transcription factor EBNA2. This correlates with reduced activation of the EBV oncogene LMP1 and some cell genes. Transcriptional activation by type 1 EBNA2 can be suppressed through the binding of two PXLXP motifs in its transactivation domain (TAD) to the dimeric coiled-coil MYND domain (CC-MYND) of the BS69 repressor protein (ZMYND11). We identified a third conserved PXLXP motif in type 2 EBNA2. We found that type 2 EBNA2 peptides containing this motif bound BS69CC-MYND efficiently and that the type 2 EBNA2TAD bound an additional BS69CC-MYND molecule. Full-length type 2 EBNA2 also bound BS69 more efficiently in pull-down assays. Molecular weight analysis and low-resolution structures obtained using small-angle X-ray scattering showed that three BS69CC-MYND dimers bound two molecules of type 2 EBNA2TAD, in line with the dimeric state of full-length EBNA2 in vivo. Importantly, mutation of the third BS69 binding motif in type 2 EBNA2 improved B-cell growth maintenance and the transcriptional activation of the LMP1 and CXCR7 genes. Our data indicate that increased association with BS69 restricts the function of type 2 EBNA2 as a transcriptional activator and driver of B cell growth and may contribute to reduced B-cell transformation by type 2 EBV. [ABSTRACT FROM AUTHOR]

Published

2019

36. Transcriptional regulation of the Pseudomonas aeruginosa iron-sulfur cluster assembly pathway by binding of IscR to multiple sites.

Author

Saninjuk, Kritsakorn, Romsang, Adisak, Duang-nkern, Jintana, Vattanaviboon, Paiboon, and Mongkolsuk, Skorn

Subjects

*PSEUDOMONAS aeruginosa, *BINDING sites, *SILVER nanoparticles, *GENE expression, *BINDING site assay, *MOLECULAR biology

Abstract

Iron-sulfur ([Fe-S]) cluster proteins have essential functions in many biological processes. [Fe-S] homeostasis is crucial for bacterial survival under a wide range of environmental conditions. IscR is a global transcriptional regulator in Pseudomonas aeruginosa; it has been shown to regulate genes involved in [Fe-S] cluster biosynthesis, iron homeostasis, resistance to oxidants, and pathogenicity. Many aspects of the IscR transcriptional regulatory mechanism differ from those of other well-studied systems. This study demonstrates the mechanisms of IscR Type-1 binding to its target sites that mediate the repression of gene expression at the isc operon, nfuA, and tpx. The analysis of IscR binding to multiple binding sites in the promoter region of the isc operon reveals that IscR first binds to the high-affinity site B followed by binding to the low-affinity site A. The results of in vitro IscR binding assays and in vivo analysis of IscR-mediated repression of gene expression support the role of site B as the primary site, while site A has only a minor role in the efficiency of IscR repression of gene expression. Ligation of an [Fe-S] cluster to IscR is required for the binding of IscR to target sites and in vivo repression and stress-induced gene expression. Analysis of Type-1 sites in many bacteria, including P. aeruginosa, indicates that the first and the last three AT-rich bases were among the most highly conserved bases within all analyzed Type-1 sites. Herein, we first propose the putative sequence of P. aeruginosa IscR Type-1 binding motif as . This can benefit further studies in the identification of novel genes under the IscR regulon and the regulatory mechanism model of P. aeruginosa IscR as it contributes to the roles of an [Fe-S] cluster in several biologically important cellular activities. [ABSTRACT FROM AUTHOR]

Published

2019

37. Anticancer compound XL765 as PI3K/mTOR dual inhibitor: A structural insight into the inhibitory mechanism using computational approaches.

Author

Rehan, Mohd

Subjects

*PHYSICAL & theoretical chemistry, *MOLECULAR docking, *COMPUTATIONAL chemistry, *CHEMICAL libraries, *PHYSICAL sciences

Abstract

The PI3K-AKT-mTOR pathway is often a commonly disrupted pathway in human cancer and, therefore, it is widely exploited for cancer therapy. The inhibitors for the important proteins of the pathway including PI3K and mTOR have been increasingly designed. The dual inhibitors targeting PI3K and mTOR both have proven to be more effective than those targeting single protein only. An orally-active compound XL765 is well established as PI3K/mTOR dual inhibitor and have shown in vitro and in vivo anticancer activity against a variety of cancer types and is undergoing clinical trials. The present study explored the exact binding pose and the the interactive forces holding XL765 within the active sites of PI3Kγ and mTOR using molecular docking analyses. The XL765 interacting residues of both the proteins were delineated and the degree of participation in binding was estimated by various methods. In the process, among the interacting residues of PI3Kγ, the Lys-890 and the Met-953 were recognized as the key residues involved in XL765 binding. While, in mTOR case, the Trp-2239 was recognized as the key residue playing role in the XL765 binding. In order to explore the better inhibitors, the study also generated combinatorial chemical library by modifying the scaffold considered from XL765. The virtual screening of the generated compound library led to identification of six novel promising compounds proposed as PI3K/mTOR dual inhibitors. Thus, the present work will through light on the drug inhibitory mechanism of XL765 for PI3K and mTOR, and will also assist in designing novel efficacious drug candidates. [ABSTRACT FROM AUTHOR]

Published

2019

38. Breaking the silence of the 500-year-old smiling garden of everlasting flowers: The En Tibi book herbarium.

Author

Stefanaki, Anastasia, Porck, Henk, Grimaldi, Ilaria Maria, Thurn, Nikolaus, Pugliano, Valentina, Kardinaal, Adriaan, Salemink, Jochem, Thijsse, Gerard, Chavannes-Mazel, Claudine, Kwakkel, Erik, and van Andel, Tinde

Subjects

*ART & science, *HERBARIA, *FLOWER gardening, *RENAISSANCE art, *PLANT anatomy, *BOTANY

Abstract

We reveal the enigmatic origin of one of the earliest surviving botanical collections. The 16th-century Italian En Tibi herbarium is a large, luxurious book with c. 500 dried plants, made in the Renaissance scholarly circles that developed botany as a distinct discipline. Its Latin inscription, translated as “Here for you a smiling garden of everlasting flowers”, suggests that this herbarium was a gift for a patron of the emerging botanical science. We follow an integrative approach that includes a botanical similarity estimation of the En Tibi with contemporary herbaria (Aldrovandi, Cesalpino, “Cibo”, Merini, Estense) and analysis of the book’s watermark, paper, binding, handwriting, Latin inscription and the morphology and DNA of hairs mounted under specimens. Rejecting the previous origin hypothesis (Ferrara, 1542–1544), we show that the En Tibi was made in Bologna around 1558. We attribute the En Tibi herbarium to Francesco Petrollini, a neglected 16th-century botanist, to whom also belongs, as clarified herein, the controversial “Erbario Cibo” kept in Rome. The En Tibi was probably a work on commission for Petrollini, who provided the plant material for the book. Other people were apparently involved in the compilation and offering of this precious gift to a yet unknown person, possibly the Habsburg Emperor Ferdinand I. The En Tibi herbarium is a Renaissance masterpiece of art and science, representing the quest for truth in herbal medicine and botany. Our multidisciplinary approach can serve as a guideline for deciphering other anonymous herbaria, kept safely “hidden” in treasure rooms of universities, libraries and museums. [ABSTRACT FROM AUTHOR]

Published

2019

39. Ligand-guided homology modeling drives identification of novel histamine H3 receptor ligands.

Author

Schaller, David, Hagenow, Stefanie, Stark, Holger, and Wolber, Gerhard

Subjects

*HISTAMINE receptors, *BINDING site assay, *G protein coupled receptors, *PHYSICAL & theoretical chemistry, *HOMOLOGY (Biology), *LIGANDS (Biochemistry)

Abstract

In this study, we report a ligand-guided homology modeling approach allowing the analysis of relevant binding site residue conformations and the identification of two novel histamine H3 receptor ligands with binding affinity in the nanomolar range. The newly developed method is based on exploiting an essential charge interaction characteristic for aminergic G-protein coupled receptors for ranking 3D receptor models appropriate for the discovery of novel compounds through virtual screening. [ABSTRACT FROM AUTHOR]

Published

2019

40. Unraveling the role of the secretor antigen in human rotavirus attachment to histo-blood group antigens.

Author

Gozalbo-Rovira, Roberto, Ciges-Tomas, J. Rafael, Vila-Vicent, Susana, Buesa, Javier, Santiso-Bellón, Cristina, Monedero, Vicente, Yebra, María Jesús, Marina, Alberto, and Rodríguez-Díaz, Jesús

Subjects

*BLOOD group antigens, *ROTAVIRUS diseases, *SURFACE plasmon resonance, *ANTIGENS, *PROTEIN binding, *SITE-specific mutagenesis

Abstract

Rotavirus is the leading agent causing acute gastroenteritis in young children, with the P[8] genotype accounting for more than 80% of infections in humans. The molecular bases for binding of the VP8* domain from P[8] VP4 spike protein to its cellular receptor, the secretory H type-1 antigen (Fuc-α1,2-Gal-β1,3-GlcNAc; H1), and to its precursor lacto-N-biose (Gal-β1,3-GlcNAc; LNB) have been determined. The resolution of P[8] VP8* crystal structures in complex with H1 antigen and LNB and site-directed mutagenesis experiments revealed that both glycans bind to the P[8] VP8* protein through a binding pocket shared with other members of the P[II] genogroup (i.e.: P[4], P[6] and P[19]). Our results show that the L-fucose moiety from H1 only displays indirect contacts with P[8] VP8*. However, the induced conformational changes in the LNB moiety increase the ligand affinity by two-fold, as measured by surface plasmon resonance (SPR), providing a molecular explanation for the different susceptibility to rotavirus infection between secretor and non-secretor individuals. The unexpected interaction of P[8] VP8* with LNB, a building block of type-1 human milk oligosaccharides, resulted in inhibition of rotavirus infection, highlighting the role and possible application of this disaccharide as an antiviral. While key amino acids in the H1/LNB binding pocket were highly conserved in members of the P[II] genogroup, differences were found in ligand affinities among distinct P[8] genetic lineages. The variation in affinities were explained by subtle structural differences induced by amino acid changes in the vicinity of the binding pocket, providing a fine-tuning mechanism for glycan binding in P[8] rotavirus. [ABSTRACT FROM AUTHOR]

Published

2019

41. Host-specialized fibrinogen-binding by a bacterial surface protein promotes biofilm formation and innate immune evasion.

Author

Pickering, Amy C., Vitry, Pauline, Prystopiuk, Valeriia, Garcia, Brandon, Hook, Magnus, Schoenebeck, Jeffrey, Geoghegan, Joan A., Dufrêne, Yves F., and Fitzgerald, J. Ross

Subjects

*BACTERIAL proteins, *BACTERIAL cell surfaces, *TANDEM repeats, *PROTEIN-ligand interactions, *FIBRINOGEN

Abstract

Fibrinogen is an essential part of the blood coagulation cascade and a major component of the extracellular matrix in mammals. The interface between fibrinogen and bacterial pathogens is an important determinant of the outcome of infection. Here, we demonstrate that a canine host-restricted skin pathogen, Staphylococcus pseudintermedius, produces a cell wall-associated protein (SpsL) that has evolved the capacity for high strength binding to canine fibrinogen, with reduced binding to fibrinogen of other mammalian species including humans. Binding occurs via the surface-expressed N2N3 subdomains, of the SpsL A-domain, to multiple sites in the fibrinogen α-chain C-domain by a mechanism analogous to the classical dock, lock, and latch binding model. Host-specific binding is dependent on a tandem repeat region of the fibrinogen α-chain, a region highly divergent between mammals. Of note, we discovered that the tandem repeat region is also polymorphic in different canine breeds suggesting a potential influence on canine host susceptibility to S. pseudintermedius infection. Importantly, the strong host-specific fibrinogen-binding interaction of SpsL to canine fibrinogen is essential for bacterial aggregation and biofilm formation, and promotes resistance to neutrophil phagocytosis, suggesting a key role for the interaction during pathogenesis. Taken together, we have dissected a bacterial surface protein-ligand interaction resulting from the co-evolution of host and pathogen that promotes host-specific innate immune evasion and may contribute to its host-restricted ecology. [ABSTRACT FROM AUTHOR]

Published

2019

42. The 2nd sialic acid-binding site of influenza A virus neuraminidase is an important determinant of the hemagglutinin-neuraminidase-receptor balance.

Author

Du, Wenjuan, Guo, Hongbo, Nijman, Vera S., Doedt, Jennifer, van der Vries, Erhard, van der Lee, Joline, Li, Zeshi, Boons, Geert-Jan, van Kuppeveld, Frank J. M., de Vries, Erik, Matrosovich, Mikhail, and de Haan, Cornelis A. M.

Subjects

*SIALIC acids, *INFLUENZA A virus, *NEURAMINIDASE, *HEMAGGLUTININ, *RECOMBINANT proteins

Abstract

Influenza A virus (IAV) neuraminidase (NA) receptor-destroying activity and hemagglutinin (HA) receptor-binding affinity need to be balanced with the host receptor repertoire for optimal viral fitness. NAs of avian, but not human viruses, contain a functional 2nd sialic acid (SIA)-binding site (2SBS) adjacent to the catalytic site, which contributes to sialidase activity against multivalent substrates. The receptor-binding specificity and potentially crucial contribution of the 2SBS to the HA-NA balance of virus particles is, however, poorly characterized. Here, we elucidated the receptor-binding specificity of the 2SBS of N2 NA and established an important role for this site in the virion HA-NA-receptor balance. NAs of H2N2/1957 pandemic virus with or without a functional 2SBS and viruses containing this NA were analysed. Avian-like N2, with a restored 2SBS due to an amino acid substitution at position 367, was more active than human N2 on multivalent substrates containing α2,3-linked SIAs, corresponding with the pronounced binding-specificity of avian-like N2 for these receptors. When introduced into human viruses, avian-like N2 gave rise to altered plaque morphology and decreased replication compared to human N2. An opposite replication phenotype was observed when N2 was combined with avian-like HA. Specific bio-layer interferometry assays revealed a clear effect of the 2SBS on the dynamic interaction of virus particles with receptors. The absence or presence of a functional 2SBS affected virion-receptor binding and receptor cleavage required for particle movement on a receptor-coated surface and subsequent NA-dependent self-elution. The contribution of the 2SBS to virus-receptor interactions depended on the receptor-binding properties of HA and the identity of the receptors used. We conclude that the 2SBS is an important and underappreciated determinant of the HA-NA-receptor balance. The rapid loss of a functional 2SBS in pandemic viruses may have served to balance the novel host receptor-repertoire and altered receptor-binding properties of the corresponding HA protein. [ABSTRACT FROM AUTHOR]

Published

2019

43. Comprehensive molecular pharmacology screening reveals potential new receptor interactions for clinically relevant opioids.

Author

Olson, Keith M., Duron, David I., Womer, Daniel, Fell, Ryan, and Streicher, John M.

Subjects

*OPIOID peptides, *MOLECULAR pharmacology, *MONOAMINE transporters, *OPIOID receptors, *CANNABINOID receptors, *HYDROCODONE, *BINDING site assay

Abstract

Most clinically used opioids are thought to induce analgesia through activation of the mu opioid receptor (MOR). However, disparities have been observed between the efficacy of opioids in activating the MOR in vitro and in inducing analgesia in vivo. In addition, some clinically used opioids do not produce cross-tolerance with each other, and desensitization produced in vitro does not match tolerance produced in vivo. These disparities suggest that some opioids could be acting through other targets in vivo, but this has not been comprehensively tested. We thus screened 9 clinically relevant opioids (buprenorphine, hydrocodone, hydromorphone, morphine, O-desmethyl-tramadol, oxycodone, oxymorphone, tapentadol, tramadol) against 9 pain-related receptor targets (MOR, delta opioid receptor [DOR], kappa opioid receptor [KOR], nociceptin receptor [NOP], cannabinoid receptor type 1 [CB1], sigma-1 receptor [σ1R], and the monoamine transporters [NET/SERT/DAT]) expressed in cells using radioligand binding and functional activity assays. We found several novel interactions, including monoamine transporter activation by buprenorphine and σ1R binding by hydrocodone and tapentadol. Tail flick anti-nociception experiments with CD-1 mice demonstrated that the monoamine transporter inhibitor duloxetine selectively promoted buprenorphine anti-nociception while producing no effects by itself or in combination with the most MOR-selective drug oxymorphone, providing evidence that these novel interactions could be relevant in vivo. Our findings provide a comprehensive picture of the receptor interaction profiles of clinically relevant opioids, which has not previously been performed. Our findings also suggest novel receptor interactions for future investigation that could explain some of the disparities observed between opioid performance in vitro and in vivo. [ABSTRACT FROM AUTHOR]

Published

2019

44. Enhancement of binding avidity by bivalent binding enables PrPSc-specific detection by anti-PrP monoclonal antibody 132.

Author

Suzuki, Akio, Yamasaki, Takeshi, Hasebe, Rie, and Horiuchi, Motohiro

Subjects

*MONOCLONAL antibodies, *FROZEN tissue sections, *ENZYME-linked immunosorbent assay, *SURFACE plasmon resonance, *PHYSICAL sciences, *ALEMTUZUMAB

Abstract

Anti-prion protein (PrP) monoclonal antibody 132, which recognizes mouse PrP amino acids 119–127, enables us to reliably detect abnormal isoform prion protein (PrPSc) in cells or frozen tissue sections by immunofluorescence assay, although treatment with guanidinium salts is a prerequisite. Despite the benefit of this mAb, the mechanism of PrPSc-specific detection remains unclear. Therefore, to address this mechanism, we analyzed the reactivities of mono- and bivalent mAb 132 to recombinant mouse PrP (rMoPrP) by enzyme-linked immunosorbent assay (ELISA) and surface plasmon resonance (SPR). In ELISA, binding of the monovalent form was significantly weaker than that of the bivalent form, indicating that bivalent binding confers a higher binding stability to mAb 132. Compared with other anti-PrP mAbs tested, the reactivity of bivalent mAb 132 was easily affected by a decrease in antigen concentration. The binding kinetics of mAb 132 assessed by SPR were consistent with the results of ELISA. The dissociation constant of the monovalent form was approximately 260 times higher than that of the bivalent form, suggesting that monovalent binding is less stable than bivalent binding. Furthermore, the amount of mAb 132 that bound to rMoPrP decreased if the antigen density was too low to allow bivalent binding. If two cellular PrP (PrPC) are close enough to allow bivalent binding, mAb 132 binds to PrPC. These results indicate that weak monovalent binding to monomeric PrPC diminishes PrPC signals to background level, whereas after exposure of the epitope, mAb 132 binds stably to oligomeric PrPSc in a bivalent manner. [ABSTRACT FROM AUTHOR]

Published

2019

45. Interactions of nuclear transport factors and surface-conjugated FG nucleoporins: Insights and limitations.

Author

Hayama, Ryo, Sorci, Mirco, Keating IV, John J., Hecht, Lee M., Plawsky, Joel L., Belfort, Georges, Chait, Brian T., and Rout, Michael P.

Subjects

*QUARTZ crystal microbalances, *NUCLEOPORINS, *SURFACE plasmon resonance, *NUCLEOCYTOPLASMIC interactions, *PROTEIN-protein interactions

Abstract

Protein-protein interactions are central to biological processes. In vitro methods to examine protein-protein interactions are generally categorized into two classes: in-solution and surface-based methods. Here, using the multivalent interactions between nucleocytoplasmic transport factors and intrinsically disordered FG repeat containing nuclear pore complex proteins as a model system, we examined the utility of three surface-based methods: atomic force microscopy, quartz crystal microbalance with dissipation, and surface plasmon resonance. Although results were comparable to those of previous reports, the apparent effect of mass transport limitations was demonstrated. Additional experiments with a loss-of-interaction FG repeat mutant variant demonstrated that the binding events that take place on surfaces can be unexpectedly complex, suggesting particular care must be exercised in interpretation of such data. [ABSTRACT FROM AUTHOR]

Published

2019

46. Fluorescence lateral flow competitive protein binding assay for the assessment of serum folate concentrations.

Author

Rey, Elizabeth G., Finkelstein, Julia L., and Erickson, David

Subjects

*BINDING site assay, *FOLIC acid, *NEURAL tube defects, *ENRICHED foods, *FLUORESCENCE

Abstract

Folate is a micronutrient required for the production of new cells, making it a key factor in early fetal development and ensuring normal growth and maintenance of health. The increase in consumption of folate due to increased periconceptional supplementation and fortification of grains in many countries has led to a decrease in occurrence of folate deficiency and a class of birth defects called neural tube defects. However, an opportunity remains to further improve folate status of populations in areas with limited access to fortified foods and supplementation. Screening of women of reproductive age and other vulnerable populations for folate status would increase our understanding of the magnitude of the burden of folate deficiency and inform monitoring of public health programs. Current gold standard methods for folate assessment are time-intensive and require cold chain, sophisticated laboratory infrastructure, and highly-trained personnel. Our lateral flow assay is low-cost, easy to use, and allows a user to assess folate insufficiency at the point of care in less than 40 minutes. We evaluated the sensitivity and specificity of our assay in 24 human serum samples, including 8 samples with folate concentrations less than 10.0 nmol/L and 14 samples less than 13.4 nmol/L using the Immulite 2000 commercial assay as a reference standard. The sensitivity and specificity were found to be 93% (95% CI: 54.7–100.0) and 91% (95% CI: 80.0–100.0), respectively, when using our test to determine folate insufficiency based on a cutoff of 13.4 nmol/L. Our point-of-care diagnostic test for folate concentrations could inform screening and public health programs in at-risk populations. [ABSTRACT FROM AUTHOR]

Published

2019

47. Characterizing the cellular attachment receptor for Langat virus.

Author

Rodrigues, Raquel, Danskog, Katarina, Överby, Anna K., and Arnberg, Niklas

Subjects

*VIRAL receptors, *TICK-borne encephalitis viruses, *MEMBRANE proteins, *BLOOD proteins, *VIRUS diseases

Abstract

Tick-borne encephalitis infections have increased the last 30 years. The mortality associated to this viral infection is 0.5 to 30% with a risk of permanent neurological sequelae, however, no therapeutic is currently available. The first steps of virus-cell interaction, such as attachment and entry, are of importance to understand pathogenesis and tropism. Several molecules have been shown to interact with tick-borne encephalitis virus (TBEV) at the plasma membrane surface, yet, no studies have proven that these are specific entry receptors. In this study, we set out to characterize the cellular attachment receptor(s) for TBEV using the naturally attenuated member of the TBEV complex, Langat virus (LGTV), as a model. Inhibiting or cleaving different molecules from the surface of A549 cells, combined with inhibition assays using peptide extracts from high LGTV binding cells, revealed that LGTV attachment to host cells is dependent on plasma membrane proteins, but not on glycans or glycolipids, and suggested that LGTV might use different cellular attachment factors on different cell types. Based on this, we developed a transcriptomic approach to generate a list of candidate attachment and entry receptors. Our findings shed light on the first step of the flavivirus life-cycle and provide candidate receptors that might serve as a starting point for future functional studies to identify the specific attachment and/or entry receptor for LGTV and TBEV. [ABSTRACT FROM AUTHOR]

Published

2019

48. Using the concordance of in vitro and in vivo data to evaluate extrapolation assumptions.

Author

Honda, Gregory S., Pearce, Robert G., Pham, Ly L., Setzer, R. W., Wetmore, Barbara A., Sipes, Nisha S., Gilbert, Jon, Franz, Briana, Thomas, Russell S., and Wambaugh, John F.

Subjects

*EXTRAPOLATION, *STATISTICAL learning, *REGRESSION analysis

Abstract

Linking in vitro bioactivity and in vivo toxicity on a dose basis enables the use of high-throughput in vitro assays as an alternative to traditional animal studies. In this study, we evaluated assumptions in the use of a high-throughput, physiologically based toxicokinetic (PBTK) model to relate in vitro bioactivity and rat in vivo toxicity data. The fraction unbound in plasma (fup) and intrinsic hepatic clearance (Clint) were measured for rats (for 67 and 77 chemicals, respectively), combined with fup and Clint literature data for 97 chemicals, and incorporated in the PBTK model. Of these chemicals, 84 had corresponding in vitro ToxCast bioactivity data and in vivo toxicity data. For each possible comparison of in vitro and in vivo endpoint, the concordance between the in vivo and in vitro data was evaluated by a regression analysis. For a base set of assumptions, the PBTK results were more frequently better associated than either the results from a “random” model parameterization or direct comparison of the “untransformed” values of AC50 and dose (performed best in 51%, 28%, and 21% of cases, respectively). We also investigated several assumptions in the application of PBTK for IVIVE, including clearance and internal dose selection. One of the better assumptions sets–restrictive clearance and comparing free in vivo venous plasma concentration with free in vitro concentration–outperformed the random and untransformed results in 71% of the in vitro-in vivo endpoint comparisons. These results demonstrate that applying PBTK improves our ability to observe the association between in vitro bioactivity and in vivo toxicity data in general. This suggests that potency values from in vitro screening should be transformed using in vitro-in vivo extrapolation (IVIVE) to build potentially better machine learning and other statistical models for predicting in vivo toxicity in humans. [ABSTRACT FROM AUTHOR]

Published

2019

49. The human brain somatostatin interactome: SST binds selectively to P-type family ATPases.

Author

Solarski, Michael, Williams, Declan, Mehrabian, Mohadeseh, Wang, Hansen, Wille, Holger, and Schmitt-Ulms, Gerold

Subjects

*CARRIER proteins, *PEPTIDE receptors, *G protein coupled receptors, *MEMBRANE proteins, *MOLECULAR biology, *BRAIN

Abstract

Somatostatin (SST) is a cyclic peptide that is understood to inhibit the release of hormones and neurotransmitters from a variety of cells by binding to one of five canonical G protein-coupled SST receptors (SSTR1 to SSTR5). Recently, SST was also observed to interact with the amyloid beta (Aβ) peptide and affect its aggregation kinetics, raising the possibility that it may bind other brain proteins. Here we report on an SST interactome analysis that made use of human brain extracts as biological source material and incorporated advanced mass spectrometry workflows for the relative quantitation of SST binding proteins. The analysis revealed SST to predominantly bind several members of the P-type family of ATPases. Subsequent validation experiments confirmed an interaction between SST and the sodium-potassium pump (Na+/K+-ATPase) and identified a tryptophan residue within SST as critical for binding. Functional analyses in three different cell lines indicated that SST might negatively modulate the K+ uptake rate of the Na+/K+-ATPase. [ABSTRACT FROM AUTHOR]

Published

2019

50. Fish pathogen binding to mucins from Atlantic salmon and Arctic char differs in avidity and specificity and is modulated by fluid velocity.

Author

Padra, János Tamás, Murugan, Abarna V. M., Sundell, Kristina, Sundh, Henrik, Benktander, John, and Lindén, Sara K.

Subjects

*ARCTIC char, *FISH pathogens, *MUCINS, *SUSTAINABLE aquaculture, *GASTROINTESTINAL system, *ATLANTIC salmon

Abstract

Disease outbreaks are limiting factors for an ethical and economically sustainable aquaculture industry. The first point of contact between a pathogen and a host occurs in the mucus, which covers the epithelial surfaces of the skin, gills and gastrointestinal tract. Increased knowledge on host-pathogen interactions at these primary barriers may contribute to development of disease prevention strategies. The mucus layer is built of highly glycosylated mucins, and mucin glycosylation differs between these epithelial sites. We have previously shown that A. salmonicida binds to Atlantic salmon mucins. Here we demonstrate binding of four additional bacteria, A. hydrophila, V. harveyi, M. viscosa and Y. ruckeri, to mucins from Atlantic salmon and Arctic char. No specific binding could be observed for V. salmonicida to any of the mucin groups. Mucin binding avidity was highest for A. hydrophila and A. salmonicida, followed by V. harveyi, M. viscosa and Y. ruckeri in decreasing order. Four of the pathogens showed highest binding to either gills or intestinal mucins, whereas none of the pathogens had preference for binding to skin mucins. Fluid velocity enhanced binding of intestinal mucins to A. hydrophila and A. salmonicida at 1.5 and 2 cm/s, whereas a velocity of 2 cm/s for skin mucins increased binding of A. salmonicida and decreased binding of A. hydrophila. Binding avidity, specificity and the effect of fluid velocity on binding thus differ between salmonid pathogens and with mucin origin. The results are in line with a model where the short skin mucin glycans contribute to contact with pathogens whereas pathogen binding to mucins with complex glycans aid the removal of pathogens from internal epithelial surfaces. [ABSTRACT FROM AUTHOR]

Published

2019