7 results on '"Irene Pérez-Pi"'
Search Results
2. α-Synuclein–Confocal Nanoscanning (ASYN-CONA), a Bead-Based Assay for Detecting Early-Stage α-Synuclein Aggregation
- Author
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Nhan T. Pham, Karamjit Singh Dolt, Tilo Kunath, Irene Pérez-Pi, Manfred Auer, Mathew H. Horrocks, David A Evans, and Joanna Koszela
- Subjects
animal diseases ,Confocal ,Protein aggregation ,010402 general chemistry ,Fibril ,01 natural sciences ,Analytical Chemistry ,Protein Aggregates ,chemistry.chemical_compound ,Protein structure ,mental disorders ,Nanotechnology ,Protein Structure, Quaternary ,Microscopy, Confocal ,Total internal reflection fluorescence microscope ,010401 analytical chemistry ,Fluorescence ,Microspheres ,nervous system diseases ,0104 chemical sciences ,Monomer ,nervous system ,chemistry ,alpha-Synuclein ,Biophysics ,Protein Multimerization ,Cysteine - Abstract
[Image: see text] α-Synuclein fibrils are considered a hallmark of Parkinson’s disease and other synucleinopathies. However, small oligomers that formed during the early stages of α-synuclein aggregation are thought to be the main toxic species causing disease. The formation of α-synuclein oligomers has proven difficult to follow, because of the heterogeneity and transient nature of the species formed. Here, a novel bead-based aggregation assay for monitoring the earliest stages of α-synuclein oligomerization, α-Synuclein–Confocal Nanoscanning (ASYN-CONA), is presented. The α-synuclein A91C single cysteine mutant is modified with a trifunctional chemical tag, which allows simultaneous fluorescent labeling with a green dye (tetramethylrhodamine, TMR) and attachment to microbeads. Beads with bound TMR-labeled α-synuclein are then incubated with a red dye (Cy5)-labeled variant of α-synuclein A91C, and EtOH (20%) to induce aggregation. Aggregation is detected by confocal scanning imaging, below the equatorial plane of the beads, which is known as the CONA technique. On-bead TMR-labeled α-synuclein and aggregated Cy5-labeled α-synuclein from the solution are quantitatively monitored in parallel by detection of fluorescent halos or “rings”. α-Synuclein on-bead oligomerization results in a linear increase of red bead ring fluorescence intensity over a period of 5 h. Total internal reflection fluorescence microscopy was performed on oligomers cleaved from the beads, and it revealed that (i) oligomers are sufficiently stable in solution to investigate their composition, consisting of 6 ± 1 monomer units, and (ii) oligomers containing a mean of 15 monomers bind Thioflavin-T. Various known inhibitors of α-synuclein aggregation were used to validate the ASYN-CONA assay for drug screening. Baicalein, curcumin, and rifampicin showed concentration-dependent inhibition of the α-synuclein aggregation and the IC(50) (the concentration of the compound at which the maxiumum intensity was reduced by one-half) were calculated.
- Published
- 2019
- Full Text
- View/download PDF
3. Real-time tracking of complex ubiquitination cascades using a fluorescent confocal on-bead assay
- Author
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Stefan Mann, Steven Shave, Nhan T. Pham, Irene Pérez-Pi, Frank Sicheri, Derek F. Ceccarelli, Manfred Auer, Mike Tyers, David J.A. Evans, and Joanna Koszela
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Proteasome Endopeptidase Complex ,Confocal ,Bead-based assay ,03 medical and health sciences ,Confocal fluorescence ,Ubiquitination assay ,Ubiquitin ,Humans ,lcsh:QH301-705.5 ,030304 developmental biology ,chemistry.chemical_classification ,0303 health sciences ,Microscopy, Confocal ,biology ,Chemistry ,Inhibitors ,Methodology Article ,030302 biochemistry & molecular biology ,Ubiquitination ,Substrate (chemistry) ,Compartment (chemistry) ,Fluorescence ,Small molecule ,Enzyme ,lcsh:Biology (General) ,Microscopy, Fluorescence ,Proteome ,Biophysics ,biology.protein - Abstract
Background The ubiquitin-proteasome system (UPS) controls the stability, localization and/or activity of the proteome. However, the identification and characterization of complex individual ubiquitination cascades and their modulators remains a challenge. Here, we report a broadly applicable, multiplexed, miniaturized on-bead technique for real-time monitoring of various ubiquitination-related enzymatic activities. The assay, termed UPS-confocal fluorescence nanoscanning (UPS-CONA), employs a substrate of interest immobilized on a micro-bead and a fluorescently labeled ubiquitin which, upon enzymatic conjugation to the substrate, is quantitatively detected on the bead periphery by confocal imaging. Results UPS-CONA is suitable for studying individual enzymatic activities, including various E1, E2, and HECT-type E3 enzymes, and for monitoring multi-step reactions within ubiquitination cascades in a single experimental compartment. We demonstrate the power of the UPS-CONA technique by simultaneously following ubiquitin transfer from Ube1 through Ube2L3 to E6AP. We applied this multi-step setup to investigate the selectivity of five ubiquitination inhibitors reportedly targeting different classes of ubiquitination enzymes. Using UPS-CONA, we have identified a new activity of a small molecule E2 inhibitor, BAY 11-7082, and of a HECT E3 inhibitor, heclin, towards the Ube1 enzyme. Conclusions As a sensitive, quantitative, flexible, and reagent-efficient method with a straightforward protocol, UPS-CONA constitutes a powerful tool for interrogation of ubiquitination-related enzymatic pathways and their chemical modulators, and is readily scalable for large experiments. Electronic supplementary material The online version of this article (10.1186/s12915-018-0554-z) contains supplementary material, which is available to authorized users.
- Published
- 2018
- Full Text
- View/download PDF
4. Oligopeptide Signaling through TbGPR89 Drives Trypanosome Quorum Sensing
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Federico, Rojas, Eleanor, Silvester, Julie, Young, Rachel, Milne, Mabel, Tettey, Douglas R, Houston, Malcolm D, Walkinshaw, Irene, Pérez-Pi, Manfred, Auer, Helen, Denton, Terry K, Smith, Joanne, Thompson, and Keith R, Matthews
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Trypanosoma ,Trypanosomiasis, African ,Virulence ,GTP-Binding Proteins ,Trypanosoma brucei brucei ,Protozoan Proteins ,Membrane Transport Proteins ,Quorum Sensing ,Cell Differentiation ,Oligopeptides ,Conserved Sequence ,Phylogeny ,Signal Transduction - Abstract
Trypanosome parasites control their virulence and spread by using quorum sensing (QS) to generate transmissible "stumpy forms" in their host bloodstream. However, the QS signal "stumpy induction factor" (SIF) and its reception mechanism are unknown. Although trypanosomes lack G protein-coupled receptor signaling, we have identified a surface GPR89-family protein that regulates stumpy formation. TbGPR89 is expressed on bloodstream "slender form" trypanosomes, which receive the SIF signal, and when ectopically expressed, TbGPR89 drives stumpy formation in a SIF-pathway-dependent process. Structural modeling of TbGPR89 predicts unexpected similarity to oligopeptide transporters (POT), and when expressed in bacteria, TbGPR89 transports oligopeptides. Conversely, expression of an E. coli POT in trypanosomes drives parasite differentiation, and oligopeptides promote stumpy formation in vitro. Furthermore, the expression of secreted trypanosome oligopeptidases generates a paracrine signal that accelerates stumpy formation in vivo. Peptidase-generated oligopeptide QS signals being received through TbGPR89 provides a mechanism for both trypanosome SIF production and reception.
- Published
- 2018
5. A general synthetic route to isomerically pure functionalized rhodamine dyes
- Author
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Irene Pérez Pi, Manfred Auer, Peter G Dodd, Gemma Mudd, Olivier R Barbeau, and Nicholas Fethers
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010405 organic chemistry ,010402 general chemistry ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,Single isomer ,0104 chemical sciences ,3. Good health ,Rhodamine ,chemistry.chemical_compound ,chemistry ,Reagent ,Structural isomer ,Rhodamine B ,Organic chemistry ,General Materials Science ,Reactivity (chemistry) ,Instrumentation ,Spectroscopy - Abstract
A well-documented obstacle in the synthesis of functionalized rhodamine dyes is the generation of regioisomers which are difficult to separate. These isomers occur due to the use of unsymmetrical anhydride reagents, which possess two potential points of reactivity where condensation with meta-aminophenols can take place. In this report we describe a method which eliminates this problem by using phthalaldehydic acids as anhydride replacements. These reagents provide only one point of reactivity for the aminophenol, thus allowing direct access to single isomer tetramethylrhodamines and avoiding isomer generation altogether. A range of functionalities are shown to be tolerated at the 5- and 6-position of the dye compounds which are prepared in up to gram quantities using our method. The scope of the method is further demonstrated by the preparation of additional rhodamine family members Rhodamine B and X-Rhodamine.
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- 2017
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6. Dehydrogenation of 5,6-Dihydropyrido[3,2-d]pyrimidin-7(8H)-ones: A Convenient Last Step for a Synthesis of Pyrido[2,3-d]pyrimidin-7(8H)-ones
- Author
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José I. Borrell, Irene Pérez-Pi, Xavier Berzosa, Iñaki Galve, and Jordi Teixidó
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Pharmacology ,chemistry.chemical_classification ,chemistry.chemical_compound ,chemistry ,Aryl ,Organic Chemistry ,Substituent ,Dehydrogenation ,Medicinal chemistry ,Alkyl ,Analytical Chemistry ,Sodium hydride - Abstract
Two new protocols for the dehydrogenation of 5,6-dihydropyrido[2,3-d]pyrimidin-7(8H)-ones to pyrido[2,3-d]pyrimidin-7(8H)--ones are described. The first one uses NaH in DMSO an affords the corresponding pyridopyrimidines when an aryl substituent is present at C6. The second one is of a more general use, allowing dehydrogenation of aryl and alkyl substituted 5,6-dihydropyridopyrimdines upon treatment with Na 2 Se0 3 in DMSO.
- Published
- 2010
- Full Text
- View/download PDF
7. Real-time tracking of complex ubiquitination cascades using a fluorescent confocal on-bead assay
- Author
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Joanna Koszela, Nhan T. Pham, David Evans, Stefan Mann, Irene Perez-Pi, Steven Shave, Derek F. J. Ceccarelli, Frank Sicheri, Mike Tyers, and Manfred Auer
- Subjects
Ubiquitin ,Inhibitors ,Confocal fluorescence ,Bead-based assay ,Ubiquitination assay ,Biology (General) ,QH301-705.5 - Abstract
Abstract Background The ubiquitin-proteasome system (UPS) controls the stability, localization and/or activity of the proteome. However, the identification and characterization of complex individual ubiquitination cascades and their modulators remains a challenge. Here, we report a broadly applicable, multiplexed, miniaturized on-bead technique for real-time monitoring of various ubiquitination-related enzymatic activities. The assay, termed UPS-confocal fluorescence nanoscanning (UPS-CONA), employs a substrate of interest immobilized on a micro-bead and a fluorescently labeled ubiquitin which, upon enzymatic conjugation to the substrate, is quantitatively detected on the bead periphery by confocal imaging. Results UPS-CONA is suitable for studying individual enzymatic activities, including various E1, E2, and HECT-type E3 enzymes, and for monitoring multi-step reactions within ubiquitination cascades in a single experimental compartment. We demonstrate the power of the UPS-CONA technique by simultaneously following ubiquitin transfer from Ube1 through Ube2L3 to E6AP. We applied this multi-step setup to investigate the selectivity of five ubiquitination inhibitors reportedly targeting different classes of ubiquitination enzymes. Using UPS-CONA, we have identified a new activity of a small molecule E2 inhibitor, BAY 11-7082, and of a HECT E3 inhibitor, heclin, towards the Ube1 enzyme. Conclusions As a sensitive, quantitative, flexible, and reagent-efficient method with a straightforward protocol, UPS-CONA constitutes a powerful tool for interrogation of ubiquitination-related enzymatic pathways and their chemical modulators, and is readily scalable for large experiments.
- Published
- 2018
- Full Text
- View/download PDF
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