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  1. AU="Oakley, James V"
  2. AU="Wen, Teresa H"
  3. AU="Li, Huiyu"
  4. AU="Pannala, Ananth S"
  5. AU="Noda, K."
  6. AU="Almeida, Carolina Aparecida Faria"
  7. AU=Khoshakhlagh Arezou
  8. AU="Sofija Glamočlija"
  9. AU="Fleming, Sherry D"
  10. AU="Minkina, Tatiana M"
  11. AU="Fonseca, Danielle"
  12. AU="Maximilian, Carmen-Rodica"
  13. AU="Heuer, Lauren B"
  14. AU="Pan, Judy"
  15. AU="Doro, M."
  16. AU="Navarro-Zapata, Alfonso"
  17. AU="Martin, Emanuel H"
  18. AU="Biswas, Arnab"
  19. AU="Kurt Pfister"
  20. AU="Stefano Brignola"
  21. AU="Nierzwicki, Łukasz"
  22. AU="Benvin, Iva"
  23. AU="Sardesai, S. C."
  24. AU="Aldrees, Rana"

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  1. Artikel ; Online: μMap Photoproximity Labeling Enables Small Molecule Binding Site Mapping.

    Huth, Sean W / Oakley, James V / Seath, Ciaran P / Geri, Jacob B / Trowbridge, Aaron D / Parker, Dann L / Rodriguez-Rivera, Frances P / Schwaid, Adam G / Ramil, Carlo / Ryu, Keun Ah / White, Cory H / Fadeyi, Olugbeminiyi O / Oslund, Rob C / MacMillan, David W C

    Journal of the American Chemical Society

    2023  Band 145, Heft 30, Seite(n) 16289–16296

    Abstract: The characterization of ligand binding modes is a crucial step in the drug discovery process and is especially important in campaigns arising from phenotypic screening, where the protein target and binding mode are unknown at the outset. Elucidation of ... ...

    Abstract The characterization of ligand binding modes is a crucial step in the drug discovery process and is especially important in campaigns arising from phenotypic screening, where the protein target and binding mode are unknown at the outset. Elucidation of target binding regions is typically achieved by X-ray crystallography or photoaffinity labeling (PAL) approaches; yet, these methods present significant challenges. X-ray crystallography is a mainstay technique that has revolutionized drug discovery, but in many cases structural characterization is challenging or impossible. PAL has also enabled binding site mapping with peptide- and amino-acid-level resolution; however, the stoichiometric activation mode can lead to poor signal and coverage of the resident binding pocket. Additionally, each PAL probe can have its own fragmentation pattern, complicating the analysis by mass spectrometry. Here, we establish a robust and general photocatalytic approach toward the mapping of protein binding sites, which we define as identification of residues proximal to the ligand binding pocket. By utilizing a catalytic mode of activation, we obtain sets of labeled amino acids in the proximity of the target protein binding site. We use this methodology to map, in vitro, the binding sites of six protein targets, including several kinases and molecular glue targets, and furthermore to investigate the binding site of the STAT3 inhibitor MM-206, a ligand with no known crystal structure. Finally, we demonstrate the successful mapping of drug binding sites in live cells. These results establish μMap as a powerful method for the generation of amino-acid- and peptide-level target engagement data.
    Mesh-Begriff(e) Ligands ; Proteins/chemistry ; Binding Sites ; Peptides/chemistry ; Protein Binding
    Chemische Substanzen Ligands ; Proteins ; Peptides
    Sprache Englisch
    Erscheinungsdatum 2023-07-20
    Erscheinungsland United States
    Dokumenttyp Journal Article ; Research Support, N.I.H., Extramural ; Research Support, U.S. Gov't, Non-P.H.S. ; Research Support, Non-U.S. Gov't
    ZDB-ID 3155-0
    ISSN 1520-5126 ; 0002-7863
    ISSN (online) 1520-5126
    ISSN 0002-7863
    DOI 10.1021/jacs.3c03325
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  2. Artikel ; Online: Radius measurement via super-resolution microscopy enables the development of a variable radii proximity labeling platform.

    Oakley, James V / Buksh, Benito F / Fernández, David F / Oblinsky, Daniel G / Seath, Ciaran P / Geri, Jacob B / Scholes, Gregory D / MacMillan, David W C

    Proceedings of the National Academy of Sciences of the United States of America

    2022  Band 119, Heft 32, Seite(n) e2203027119

    Abstract: The elucidation of protein interaction networks is critical to understanding fundamental biology as well as developing new therapeutics. Proximity labeling platforms (PLPs) are state-of-the-art technologies that enable the discovery and delineation of ... ...

    Abstract The elucidation of protein interaction networks is critical to understanding fundamental biology as well as developing new therapeutics. Proximity labeling platforms (PLPs) are state-of-the-art technologies that enable the discovery and delineation of biomolecular networks through the identification of protein-protein interactions. These platforms work via catalytic generation of reactive probes at a biological region of interest; these probes then diffuse through solution and covalently "tag" proximal biomolecules. The physical distance that the probes diffuse determines the effective labeling radius of the PLP and is a critical parameter that influences the scale and resolution of interactome mapping. As such, by expanding the degrees of labeling resolution offered by PLPs, it is possible to better capture the various size scales of interactomes. At present, however, there is little quantitative understanding of the labeling radii of different PLPs. Here, we report the development of a superresolution microscopy-based assay for the direct quantification of PLP labeling radii. Using this assay, we provide direct extracellular measurements of the labeling radii of state-of-the-art antibody-targeted PLPs, including the peroxidase-based phenoxy radical platform (269 ± 41 nm) and the high-resolution iridium-catalyzed µMap technology (54 ± 12 nm). Last, we apply these insights to the development of a molecular diffusion-based approach to tuning PLP resolution and introduce a new aryl-azide-based µMap platform with an intermediate labeling radius (80 ± 28 nm).
    Mesh-Begriff(e) Azides/chemistry ; Catalysis ; Microscopy ; Protein Interaction Maps
    Chemische Substanzen Azides
    Sprache Englisch
    Erscheinungsdatum 2022-08-01
    Erscheinungsland United States
    Dokumenttyp Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't ; Research Support, U.S. Gov't, Non-P.H.S.
    ZDB-ID 209104-5
    ISSN 1091-6490 ; 0027-8424
    ISSN (online) 1091-6490
    ISSN 0027-8424
    DOI 10.1073/pnas.2203027119
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  3. Artikel ; Online: μMap-Red: Proximity Labeling by Red Light Photocatalysis.

    Buksh, Benito F / Knutson, Steve D / Oakley, James V / Bissonnette, Noah B / Oblinsky, Daniel G / Schwoerer, Michael P / Seath, Ciaran P / Geri, Jacob B / Rodriguez-Rivera, Frances P / Parker, Dann L / Scholes, Gregory D / Ploss, Alexander / MacMillan, David W C

    Journal of the American Chemical Society

    2022  Band 144, Heft 14, Seite(n) 6154–6162

    Abstract: Modern proximity labeling techniques have enabled significant advances in understanding biomolecular interactions. However, current tools primarily utilize activation modes that are incompatible with complex biological environments, limiting our ability ... ...

    Abstract Modern proximity labeling techniques have enabled significant advances in understanding biomolecular interactions. However, current tools primarily utilize activation modes that are incompatible with complex biological environments, limiting our ability to interrogate cell- and tissue-level microenvironments in animal models. Here, we report μMap-Red, a proximity labeling platform that uses a red-light-excited Sn
    Mesh-Begriff(e) Animals ; Biotin/metabolism ; Light ; Membrane Proteins ; Mice ; Proteomics/methods ; Staining and Labeling
    Chemische Substanzen Membrane Proteins ; Biotin (6SO6U10H04)
    Sprache Englisch
    Erscheinungsdatum 2022-04-01
    Erscheinungsland United States
    Dokumenttyp Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't ; Research Support, U.S. Gov't, Non-P.H.S.
    ZDB-ID 3155-0
    ISSN 1520-5126 ; 0002-7863
    ISSN (online) 1520-5126
    ISSN 0002-7863
    DOI 10.1021/jacs.2c01384
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  4. Artikel: μMap-Red: Proximity Labeling by Red Light Photocatalysis

    Buksh, Benito F. / Knutson, Steve D. / Oakley, James V. / Bissonnette, Noah B. / Oblinsky, Daniel G. / Schwoerer, Michael P. / Seath, Ciaran P. / Geri, Jacob B. / Rodriguez-Rivera, Frances P. / Parker, Dann L. / Scholes, Gregory D. / Ploss, Alexander / MacMillan, David W. C.

    Journal of the American Chemical Society. 2022 Apr. 01, v. 144, no. 14

    2022  

    Abstract: Modern proximity labeling techniques have enabled significant advances in understanding biomolecular interactions. However, current tools primarily utilize activation modes that are incompatible with complex biological environments, limiting our ability ... ...

    Abstract Modern proximity labeling techniques have enabled significant advances in understanding biomolecular interactions. However, current tools primarily utilize activation modes that are incompatible with complex biological environments, limiting our ability to interrogate cell- and tissue-level microenvironments in animal models. Here, we report μMap-Red, a proximity labeling platform that uses a red-light-excited Snᴵⱽ chlorin e6 catalyst to activate a phenyl azide biotin probe. We validate μMap-Red by demonstrating photonically controlled protein labeling in vitro through several layers of tissue, and we then apply our platform in cellulo to label EGFR microenvironments and validate performance with STED microscopy and quantitative proteomics. Finally, to demonstrate labeling in a complex biological sample, we deploy μMap-Red in whole mouse blood to profile erythrocyte cell-surface proteins. This work represents a significant methodological advance toward light-based proximity labeling in complex tissue environments and animal models.
    Schlagwörter azides ; biotin ; catalysts ; chlorins ; erythrocytes ; mice ; microscopy ; photocatalysis ; proteomics ; red light
    Sprache Englisch
    Erscheinungsverlauf 2022-0401
    Umfang p. 6154-6162.
    Erscheinungsort American Chemical Society
    Dokumenttyp Artikel
    ZDB-ID 3155-0
    ISSN 1520-5126 ; 0002-7863
    ISSN (online) 1520-5126
    ISSN 0002-7863
    DOI 10.1021/jacs.2c01384
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  5. Artikel ; Online: Small molecule photocatalysis enables drug target identification via energy transfer.

    Trowbridge, Aaron D / Seath, Ciaran P / Rodriguez-Rivera, Frances P / Li, Beryl X / Dul, Barbara E / Schwaid, Adam G / Buksh, Benito F / Geri, Jacob B / Oakley, James V / Fadeyi, Olugbeminiyi O / Oslund, Rob C / Ryu, Keun Ah / White, Cory / Reyes-Robles, Tamara / Tawa, Paul / Parker, Dann L / MacMillan, David W C

    Proceedings of the National Academy of Sciences of the United States of America

    2022  Band 119, Heft 34, Seite(n) e2208077119

    Abstract: Over half of new therapeutic approaches fail in clinical trials due to a lack of target validation. As such, the development of new methods to improve and accelerate the identification of cellular targets, broadly known as target ID, remains a ... ...

    Abstract Over half of new therapeutic approaches fail in clinical trials due to a lack of target validation. As such, the development of new methods to improve and accelerate the identification of cellular targets, broadly known as target ID, remains a fundamental goal in drug discovery. While advances in sequencing and mass spectrometry technologies have revolutionized drug target ID in recent decades, the corresponding chemical-based approaches have not changed in over 50 y. Consigned to outdated stoichiometric activation modes, modern target ID campaigns are regularly confounded by poor signal-to-noise resulting from limited receptor occupancy and low crosslinking yields, especially when targeting low abundance membrane proteins or multiple protein target engagement. Here, we describe a broadly general platform for photocatalytic small molecule target ID, which is founded upon the catalytic amplification of target-tag crosslinking through the continuous generation of high-energy carbene intermediates via visible light-mediated Dexter energy transfer. By decoupling the reactive warhead tag from the small molecule ligand, catalytic signal amplification results in unprecedented levels of target enrichment, enabling the quantitative target and off target ID of several drugs including (+)-JQ1, paclitaxel (Taxol), dasatinib (Sprycel), as well as two G-protein-coupled receptors-ADORA2A and GPR40.
    Mesh-Begriff(e) Drug Delivery Systems ; Drug Discovery ; Energy Transfer ; Mass Spectrometry ; Proteomics
    Sprache Englisch
    Erscheinungsdatum 2022-08-15
    Erscheinungsland United States
    Dokumenttyp Journal Article ; Research Support, U.S. Gov't, Non-P.H.S. ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ZDB-ID 209104-5
    ISSN 1091-6490 ; 0027-8424
    ISSN (online) 1091-6490
    ISSN 0027-8424
    DOI 10.1073/pnas.2208077119
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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  6. Artikel: Metallaphotoredox: The Merger of Photoredox and Transition Metal Catalysis

    Chan, Amy Y. / Perry, Ian B. / Bissonnette, Noah B. / Buksh, Benito F. / Edwards, Grant A. / Frye, Lucas I. / Garry, Olivia L. / Lavagnino, Marissa N. / Li, Beryl X. / Liang, Yufan / Mao, Edna / Millet, Agustin / Oakley, James V. / Reed, Nicholas L. / Sakai, Holt A. / Seath, Ciaran P. / MacMillan, David W. C.

    Chemical reviews. 2021 Nov. 18, v. 122, no. 2

    2021  

    Abstract: The merger of photoredox catalysis with transition metal catalysis, termed metallaphotoredox catalysis, has become a mainstay in synthetic methodology over the past decade. Metallaphotoredox catalysis has combined the unparalleled capacity of transition ... ...

    Abstract The merger of photoredox catalysis with transition metal catalysis, termed metallaphotoredox catalysis, has become a mainstay in synthetic methodology over the past decade. Metallaphotoredox catalysis has combined the unparalleled capacity of transition metal catalysis for bond formation with the broad utility of photoinduced electron- and energy-transfer processes. Photocatalytic substrate activation has allowed the engagement of simple starting materials in metal-mediated bond-forming processes. Moreover, electron or energy transfer directly with key organometallic intermediates has provided novel activation modes entirely complementary to traditional catalytic platforms. This Review details and contextualizes the advancements in molecule construction brought forth by metallaphotocatalysis.
    Schlagwörter energy transfer ; photocatalysis ; redox reactions
    Sprache Englisch
    Erscheinungsverlauf 2021-1118
    Umfang p. 1485-1542.
    Erscheinungsort American Chemical Society
    Dokumenttyp Artikel
    ZDB-ID 207949-5
    ISSN 1520-6890 ; 0009-2665
    ISSN (online) 1520-6890
    ISSN 0009-2665
    DOI 10.1021/acs.chemrev.1c00383
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  7. Artikel ; Online: Microenvironment mapping via Dexter energy transfer on immune cells.

    Geri, Jacob B / Oakley, James V / Reyes-Robles, Tamara / Wang, Tao / McCarver, Stefan J / White, Cory H / Rodriguez-Rivera, Frances P / Parker, Dann L / Hett, Erik C / Fadeyi, Olugbeminiyi O / Oslund, Rob C / MacMillan, David W C

    Science (New York, N.Y.)

    2020  Band 367, Heft 6482, Seite(n) 1091–1097

    Abstract: Many disease pathologies can be understood through the elucidation of localized biomolecular networks, or microenvironments. To this end, enzymatic proximity labeling platforms are broadly applied for mapping the wider spatial relationships in ... ...

    Abstract Many disease pathologies can be understood through the elucidation of localized biomolecular networks, or microenvironments. To this end, enzymatic proximity labeling platforms are broadly applied for mapping the wider spatial relationships in subcellular architectures. However, technologies that can map microenvironments with higher precision have long been sought. Here, we describe a microenvironment-mapping platform that exploits photocatalytic carbene generation to selectively identify protein-protein interactions on cell membranes, an approach we term MicroMap (μMap). By using a photocatalyst-antibody conjugate to spatially localize carbene generation, we demonstrate selective labeling of antibody binding targets and their microenvironment protein neighbors. This technique identified the constituent proteins of the programmed-death ligand 1 (PD-L1) microenvironment in live lymphocytes and selectively labeled within an immunosynaptic junction.
    Mesh-Begriff(e) B7-H1 Antigen/metabolism ; Catalysis ; Cell Membrane/metabolism ; Cell Membrane/radiation effects ; Cellular Microenvironment ; Energy Transfer ; Humans ; Jurkat Cells ; Lymphocytes/metabolism ; Lymphocytes/radiation effects ; Methane/analogs & derivatives ; Methane/chemistry ; Methane/radiation effects ; Photochemical Processes ; Protein Interaction Mapping/methods ; Protein Interaction Maps ; Ultraviolet Rays
    Chemische Substanzen B7-H1 Antigen ; carbene (2465-56-7) ; Methane (OP0UW79H66)
    Sprache Englisch
    Erscheinungsdatum 2020-01-28
    Erscheinungsland United States
    Dokumenttyp Journal Article ; Research Support, N.I.H., Extramural ; Research Support, U.S. Gov't, Non-P.H.S.
    ZDB-ID 128410-1
    ISSN 1095-9203 ; 0036-8075
    ISSN (online) 1095-9203
    ISSN 0036-8075
    DOI 10.1126/science.aay4106
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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    Zs.A 27: Hefte anzeigen Standort:
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  8. Artikel ; Online: Metallaphotoredox: The Merger of Photoredox and Transition Metal Catalysis.

    Chan, Amy Y / Perry, Ian B / Bissonnette, Noah B / Buksh, Benito F / Edwards, Grant A / Frye, Lucas I / Garry, Olivia L / Lavagnino, Marissa N / Li, Beryl X / Liang, Yufan / Mao, Edna / Millet, Agustin / Oakley, James V / Reed, Nicholas L / Sakai, Holt A / Seath, Ciaran P / MacMillan, David W C

    Chemical reviews

    2021  Band 122, Heft 2, Seite(n) 1485–1542

    Abstract: The merger of photoredox catalysis with transition metal catalysis, termed metallaphotoredox catalysis, has become a mainstay in synthetic methodology over the past decade. Metallaphotoredox catalysis has combined the unparalleled capacity of transition ... ...

    Abstract The merger of photoredox catalysis with transition metal catalysis, termed metallaphotoredox catalysis, has become a mainstay in synthetic methodology over the past decade. Metallaphotoredox catalysis has combined the unparalleled capacity of transition metal catalysis for bond formation with the broad utility of photoinduced electron- and energy-transfer processes. Photocatalytic substrate activation has allowed the engagement of simple starting materials in metal-mediated bond-forming processes. Moreover, electron or energy transfer directly with key organometallic intermediates has provided novel activation modes entirely complementary to traditional catalytic platforms. This Review details and contextualizes the advancements in molecule construction brought forth by metallaphotocatalysis.
    Mesh-Begriff(e) Catalysis ; Electrons ; Nickel/chemistry ; Oxidation-Reduction ; Transition Elements
    Chemische Substanzen Transition Elements ; Nickel (7OV03QG267)
    Sprache Englisch
    Erscheinungsdatum 2021-11-18
    Erscheinungsland United States
    Dokumenttyp Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't ; Research Support, U.S. Gov't, Non-P.H.S. ; Review
    ZDB-ID 207949-5
    ISSN 1520-6890 ; 0009-2665
    ISSN (online) 1520-6890
    ISSN 0009-2665
    DOI 10.1021/acs.chemrev.1c00383
    Datenquelle MEDical Literature Analysis and Retrieval System OnLINE

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