Your search keyword '"Matthew A. Coleman"' showing total 37 results

1. A modular platform for on-demand vaccine self-assembly enabled by decoration of bacterial outer membrane vesicles with biotinylated antigens

Author

Steven Hoang-Phou, Riya Singh, Luis M. de la Maza, Kevin B. Weyant, Julie Liao, David Putnam, Sukumar Pal, Thapakorn Jaroentomeechai, Matthew A. Coleman, Christopher P. Locher, Matthew P. DeLisa, Tyler D. Moeller, Sean F. Gilmore, and Mariela Rivera-De Jesus

Subjects

biology, Bacterial outer membrane vesicles, Membrane protein, Antigen, Chemistry, Biotinylation, Protein subunit, Synthetic antigen, biology.protein, Bacterial outer membrane, Avidin, Cell biology

Abstract

Engineered outer membrane vesicles (OMVs) derived from laboratory strains of bacteria are a promising technology for the creation of non-infectious, nanoparticle vaccines against diverse pathogens. As mimics of the bacterial cell surface, OMVs offer a molecularly-defined architecture for programming repetitive, high-density display of heterologous antigens in conformations that elicit strong B and T cell immune responses. However, antigen display on the surface of OMVs can be difficult to control and highly variable due to bottlenecks in protein expression and localization to the outer membrane of the host cell, especially for bulky and/or complex antigens. To address this shortcoming, we created a universal approach called AddVax (avidin-based dock- and-display for vaccine antigen cross (x)-linking) whereby virtually any antigen that is amenable to biotinylation can be linked to the exterior of OMVs whose surfaces are remodeled with multiple copies of a synthetic antigen receptor (SNARE) comprised of an outer membrane scaffold protein fused to a member of the avidin family. We show that SNARE-OMVs can be readily decorated with a molecularly diverse array of biotinylated subunit antigens, including globular and membrane proteins, glycans and glycoconjugates, haptens, lipids, and short peptides. When the resulting OMV formulations were injected in wild-type BALB/c mice, strong antigen-specific antibody responses were observed that depended on the physical coupling between the antigen and SNARE-OMV delivery vehicle. Overall, these results demonstrate AddVax as a modular platform for rapid self-assembly of antigen-studded OMVs with the potential to accelerate vaccine generation, respond rapidly to pathogen threats in humans and animals, and simplify vaccine stockpiling.

Published

2021

2. Single-Cell Transcriptomic Analysis of Tumor-Derived Fibroblasts and Normal Tissue-Resident Fibroblasts Reveals Fibroblast Heterogeneity in Breast Cancer

Author

Kelly A. Martin, Elizabeth K. Wheeler, Sean F. Gilmore, Nicholas R. Hum, Stephen W. Byers, Matthew A. Coleman, Ivana Peran, Aimy Sebastian, and Gabriela G. Loots

Subjects

Cancer Research, Stromal cell, Oncology and Carcinogenesis, Cell, myofibroblasts, pancreatic cancer, Biology, lcsh:RC254-282, Article, Metastasis, breast cancer, Stroma, Pancreatic cancer, MHC class I, mammary fat pad, scRNA-seq, medicine, gene expression profiling, 2.1 Biological and endogenous factors, Aetiology, normal fibroblasts, Cancer, inflammatory fibroblasts, CAF heterogeneity, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, medicine.anatomical_structure, Oncology, Tumor progression, Cancer research, biology.protein, Cancer-Associated Fibroblasts, cancer-associated fibroblasts

Abstract

Cancer-associated fibroblasts (CAFs) are a prominent stromal cell type in solid tumors and molecules secreted by CAFs play an important role in tumor progression and metastasis. CAFs coexist as heterogeneous populations with potentially different biological functions. Although CAFs are a major component of the breast cancer stroma, molecular and phenotypic heterogeneity of CAFs in breast cancer is poorly understood. In this study, we investigated CAF heterogeneity in triple-negative breast cancer (TNBC) using a syngeneic mouse model, BALB/c-derived 4T1 mammary tumors. Using single-cell RNA sequencing (scRNA-seq), we identified six CAF subpopulations in 4T1 tumors including: 1) myofibroblastic CAFs, enriched for &alpha, smooth muscle actin and several other contractile proteins, 2) &lsquo, inflammatory&rsquo, CAFs with elevated expression of inflammatory cytokines, and 3) a CAF subpopulation expressing major histocompatibility complex (MHC) class II proteins that are generally expressed in antigen-presenting cells. Comparison of 4T1-derived CAFs to CAFs from pancreatic cancer revealed that these three CAF subpopulations exist in both tumor types. Interestingly, cells with inflammatory and MHC class II-expressing CAF profiles were also detected in normal breast/pancreas tissue, suggesting that these phenotypes are not tumor microenvironment-induced. This work enhances our understanding of CAF heterogeneity, and specifically targeting these CAF subpopulations could be an effective therapeutic approach for treating highly aggressive TNBCs.

Published

2020

3. Single-Molecule Fluorescence Detection of the Epidermal Growth Factor Receptor in Membrane Discs

Author

Matthew A. Coleman, Steven D. Quinn, Jesse B. Gordon, Wei He, Shwetha Srinivasan, Kermit L. Carraway, and Gabriela S. Schlau-Cohen

Subjects

0301 basic medicine, Cell signaling, Lipoproteins, 02 engineering and technology, Biochemistry, Article, 03 medical and health sciences, Adenosine Triphosphate, Catalytic Domain, Fluorescence Resonance Energy Transfer, Humans, Epidermal growth factor receptor, Microscopy, Confocal, Cell-Free System, biology, Chemistry, Cell Membrane, 021001 nanoscience & nanotechnology, Single-molecule experiment, Fluorescence, Recombinant Proteins, Single Molecule Imaging, In vitro, ErbB Receptors, 030104 developmental biology, Förster resonance energy transfer, Membrane, Biophysics, biology.protein, 0210 nano-technology, Function (biology)

Abstract

The epidermal growth factor receptor (EGFR) is critical to normal cellular signaling pathways. Moreover, it has been implicated in a range of pathologies, including cancer. As a result, it is the primary target of many anticancer drugs. One limitation to the design and development of these drugs has been the lack of molecular-level information about the interactions and conformational dynamics of EGFR. To overcome this limitation, this work reports the construction and characterization of functional, fluorescently labeled, and full-length EGFR in model membrane nanolipoprotein particles (NLPs) for in vitro fluorescence studies. To demonstrate the utility of the system, we investigate ATP-EGFR interactions. We observe that ATP binds at the catalytic site providing a means to measure a range of distances between the catalytic site and the C-terminus via Förster resonance energy transfer (FRET). These ATP-based experiments suggest a range of conformations of the C-terminus that may be a function of the phosphorylation state for EGFR. This work is a proof-of-principle demonstration of single-molecule studies as a noncrystallographic assay for EGFR interactions in real-time and under near-physiological conditions. The diverse nature of EGFR interactions means that new tools at the molecular level have the potential to significantly enhance our understanding of receptor pathology and are of utmost importance for cancer-related drug discovery.

Published

2018

4. Resolution extension by image summing in serial femtosecond crystallography of two-dimensional membrane-protein crystals

Author

Brent W. Segelke, W. Henry Benner, Tom Pardini, James E. Evans, Matthias Frank, Guido Capitani, Kenneth J. Rothschild, Marc Messerschmidt, Anton Barty, Matthew A. Coleman, Celestino Padeste, Ching-Ju Tsai, Bill Pedrini, C. Casadei, John I. Ogren, Stefan P. Hau-Riege, Christopher Kupitz, Mark S. Hunter, Sébastien Boutet, Nadia A. Zatsepin, Garth J. Williams, Xiao-Dan Li, and Leonardo Sala

Subjects

0301 basic medicine, Diffraction, Materials science, Physics::Optics, Bioengineering, membrane proteins, Atomic, Biochemistry, law.invention, 03 medical and health sciences, Particle and Plasma Physics, law, Nuclear, ddc:530, serial crystallography, General Materials Science, two-dimensional crystals, Crystallography, biology, Resolution (electron density), Molecular, Bacteriorhodopsin, General Chemistry, Condensed Matter Physics, Laser, Research Papers, 030104 developmental biology, QD901-999, Femtosecond, biology.protein, free-electron lasers, Physical Chemistry (incl. Structural)

Abstract

IUCrJ 5(1), 103 - 117 (2018). doi:10.1107/S2052252517017043, Previous proof-of-concept measurements on single-layer two-dimensional membrane-protein crystals performed at X-ray free-electron lasers (FELs) have demonstrated that the collection of meaningful diffraction patterns, which is not possible at synchrotrons because of radiation-damage issues, is feasible. Here, the results obtained from the analysis of a thousand single-shot, room-temperature X-ray FEL diffraction images from two-dimensional crystals of a bacteriorhodopsin mutant are reported in detail. The high redundancy in the measurements boosts the intensity signal-to-noise ratio, so that the values of the diffracted intensities can be reliably determined down to the detector-edge resolution of 4 Å. The results show that two-dimensional serial crystallography at X-ray FELs is a suitable method to study membrane proteins to near-atomic length scales at ambient temperature. The method presented here can be extended to pump–probe studies of optically triggered structural changes on submillisecond timescales in two-dimensional crystals, which allow functionally relevant large-scale motions that may be quenched in three-dimensional crystals., Published by IUCr, Chester

Published

2018

5. Cell-Free Co-Translational Approaches for Producing Mammalian Receptors: Expanding the Cell-Free Expression Toolbox Using Nanolipoproteins

Author

Matthew A. Coleman, Amanda T. Dang, Megan L. Shelby, Wei He, and Tonya L. Kuhl

Subjects

0301 basic medicine, 1.1 Normal biological development and functioning, Bioengineering, membrane proteins, Computational biology, Review, Receptor tyrosine kinase, 03 medical and health sciences, 0302 clinical medicine, Underpinning research, Nanotechnology, Pharmacology (medical), cell-free, Nanodisc, G protein-coupled receptor, Pharmacology, biology, Drug discovery, Chemistry, lcsh:RM1-950, Pharmacology and Pharmaceutical Sciences, nanolipoprotein particle, 030104 developmental biology, Membrane, lcsh:Therapeutics. Pharmacology, Membrane protein, co-translation, 030220 oncology & carcinogenesis, Proteome, biology.protein, Generic health relevance, nanodisc, Function (biology), Biotechnology

Abstract

Membranes proteins make up more than 60% of current drug targets and account for approximately 30% or more of the cellular proteome. Access to this important class of proteins has been difficult due to their inherent insolubility and tendency to aggregate in aqueous solutions. Understanding membrane protein structure and function demands novel means of membrane protein production that preserve both their native conformational state as well as function. Over the last decade, cell-free expression systems have emerged as an important complement to cell-based expression of membrane proteins due to their simple and customizable experimental parameters. One approach to overcome the solubility and stability limitations of purified membrane proteins is to support them in stable, native-like states within nanolipoprotein particles (NLPs), aka nanodiscs. This has become common practice to facilitate biochemical and biophysical characterization of proteins of interest. NLP technology can be easily coupled with cell-free systems to achieve functional membrane protein production for this purpose. Our approach involves utilizing cell-free expression systems in the presence of NLPs or using co-translation techniques to perform one-pot expression and self-assembly of membrane protein/NLP complexes. We describe how cell-free reactions can be modified to render control over nanoparticle size and monodispersity in support of membrane protein production. These modifications have been exploited to facilitate co-expression of full-length functional membrane proteins such as G-protein-coupled receptors (GPCRs) and receptor tyrosine kinases (RTKs). In particular, we summarize the state of the art in NLP-assisted cell-free coexpression of these important classes of membrane proteins as well as evaluate the advances in and prospects for this technology that will drive drug discovery against these targets. We conclude with a prospective on the use of NLPs to produce as well as deliver functional mammalian membrane-bound proteins for a range of applications.

Published

2019

6. Abstract 2638: Developing 3d hydrogel model for patient-derived organoids of metastatic colorectal cancer

Author

Monica L. Moya, Gaby Loots, Robert S. Warren, Aimy Sebastian, Elizabeth K. Wheeler, Eveliina Karelehto, Matthew A. Coleman, Karen Dubbin, and He Wei

Subjects

Cancer Research, Tumor microenvironment, Chemokine, biology, Colorectal cancer, business.industry, Angiogenesis, Cancer, Chemotaxis, medicine.disease, Metastasis, Immune system, Oncology, Cancer research, medicine, biology.protein, business

Abstract

The advances in the development of preclinical models for various cancers have tremendously helped study of the biology and genetics of human cancers as well as for development of therapeutics. Recently, patient-derived organoids (PDOs) have emerged as a robust preclinical platform that can provide insight into the patient specific genetic mechanisms, cancer progression and drug susceptibility. We have developed a novel PDO platform by embedding patient-derived organoids in a 3D hydrogel suspension culture. Our previous studies have shown that, when cultured in hydrogel, spheroids derived from cancer cell lines demonstrated upregulated gene expression signatures in relation to migration and angiogenesis compared to cultures in media, suggesting a more hypoxic, nutrient deficient environment. Given that hypoxia and nutrient deficiency are important feathers of solid tumors, the hydrogel environment could provide a good platform for in vitro study of tumor development and resistance to treatment. In the current study, we embedded PDOs derived from liver metastasis of colorectal cancer into the 3D suspension hydrogel culture. The PDOs adapted well in the hydrogel gel environment. We assessed the response of PDOs in hydrogel to anticancer agents, and compared that to those cultured in media. The PDOs cultured in hydrogel showed significantly elevated resistance to the treatments. The IC50s of chemotherapeutic drugs 5-fluorouracil and oxaliplatin are increased by ~5-10 fold when cultured in hydrogel compared to those in media. Further studies through RNAseq analysis revealed differentially activated signaling pathways. In particular, the levels of the CXC ligand family chemokines are significantly up-regulated in the PDOs cultured in the hydrogel. The CXC ligand family chemokines are important immune stimulants that are known to play key role in the chemotaxis and tumor recruitment of immune cells including neutrophil, T-cell and B-cells. Interestingly, the elevated levels of CXC-ligands have been shown to relate to resistance of colorectal cancer against drug treatment such as 5-fluorouracil. Our hydrogel model could help elucidate the mechanisms behind such resistance. Future study will focus on evaluating how well the hydrogel PDO platform can recapitulate tumor microenvironment and its potential in screening for personalized medicine. Citation Format: He Wei, Eveliina Karelehto, Karen Dubbin, Aimy Sebastian, Robert Warren, Monica Moya, Gaby Loots, Elizabeth Wheeler, Matthew Coleman. Developing 3d hydrogel model for patient-derived organoids of metastatic colorectal cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 2638.

Published

2021

7. Abstract 2757: Analysis of stromal myofibroblasts identifies secreted proteins that promote pancreatic ductal adenocarcinoma

Author

Kelly A. Martin, Matthew A. Coleman, Stephen W. Byers, Elizabeth K. Wheeler, Nicholas R. Hum, Gabriela G. Loots, and Aimy Sebastian

Subjects

Cancer Research, Stromal cell, biology, Wnt signaling pathway, Cancer, medicine.disease, CTGF, Oncology, Tumor progression, Cancer cell, biology.protein, Cancer research, medicine, ACTA2, Myofibroblast

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is one of the most incurable types of cancer. Cancer that develops in the acinar cells of the pancreas is typically not diagnosed until later stages, such as stage 3 or 4. As such, this form of cancer is particularly lethal with only 9% of patients reaching 5-year survival. PDAC is known to have a particularly dense extracellular matrix composed of fibroblasts, which have been previously shown to play an important role in promoting resistance to drug therapy. Characterization of the stromal networks involved in PDAC tumor development as well as protein markers of fibroblast subpopulations within the tumor stroma are critical to developing new fibroblast-targeted therapeutic approaches as well as understanding key signaling molecules that ultimately promote tumor progression and drug resistance. Single-cell RNA sequencing (scRNAseq) was utilized to analyze cancer-associated fibroblasts (CAFs) from KPC mouse-derived, MT3 subcutaneous murine allografts along with two fibroblast lines derived from human PDAC tumors: CRC-811 and IA-1340. Single cell gene expression profiling and subsequent analysis of MT3-derived CAFs resulted in the identification of three CAF subpopulations including a myofibroblast subpopulation that expressed high levels of smooth muscle actin (Acta2), which was also observed in both human samples. Fibroblast subpopulations enriched in Acta2 expression, expressed high levels of Wnt5a along with several other secreted factors including Tgfb1, Tgfb2 and Ctgf. Wnt5a is a secreted protein that activates non-canonical Wnt signaling pathways and is known to regulate normal developmental processes, including proliferation, differentiation, migration, adhesion and polarity. However Wnt5a is not natively expressed in MT3 cancer cells derived from syngeneic tumors, but potentially in the stroma. We hypothesize it is exclusively derived from fibroblasts. Previously it has been shown that Wnt5a inhibition suppressed gastric cancer metastasis, therefore further validation of the role of myofibroblast-derived Wnt5a on PDAC disease progression is warranted. This study received funding by LDRD 19-SI-003. This work was conducted under the auspices of the USDOE by LLNL (DE-AC52-07NA27344). IM Release Number: LLNL-ABS-798442. Citation Format: Kelly A. Martin, Aimy Sebastian, Nicholas R. Hum, Stephen Byers, Elizabeth K. Wheeler, Matthew A. Coleman, Gabriela G. Loots. Analysis of stromal myofibroblasts identifies secreted proteins that promote pancreatic ductal adenocarcinoma [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 2757.

Published

2020

8. Single-Molecule Investigation of Conformational Changes in Epidermal Growth Factor Receptor

Author

Wei He, Gabriela S. Schlau-Cohen, Shwetha Srinivasan, Raju Regmi, Steven D. Quinn, Kermit L. Carraway, Xingcheng Lin, Bin Zhang, and Matthew A. Coleman

Subjects

biology, Chemistry, Biophysics, biology.protein, Molecule, Epidermal growth factor receptor

Published

2020

9. Synthesis of two fluorescent GTPγS molecules and their biological relevance

Author

Matthew A. Coleman, Ruiwu Liu, Ernest Hamel, Ruoli Bai, J. Bennet Addison, Paul T. Henderson, and Denise Trans

Subjects

0301 basic medicine, Protein Structure, GTP', Chemistry Techniques, Synthetic, Biochemistry, Article, Quaternary, 03 medical and health sciences, GTP-binding protein regulators, GTP-Binding Proteins, Tubulin, Genetics, Nucleotide, NMR and tubulin polymerization, Protein Structure, Quaternary, Fluorescent Dyes, chemistry.chemical_classification, biology, Guanosine 5'-O-(3-Thiotriphosphate), Synthetic, Organic Chemistry, General Medicine, Chemistry Techniques, fluorescent nucleotide analogs, Fluorescence, 030104 developmental biology, Förster resonance energy transfer, chemistry, Energy Transfer, Nucleoside and nucleotide analogs, biology.protein, Nucleic acid, FRET, Molecular Medicine, Generic health relevance, Biochemistry and Cell Biology, Protein Multimerization

Abstract

Fluorescent GTP analogues are utilized for an assortment of nucleic acid and protein characterization studies. Non-hydrolysable analogues such as GTPγS offer the advantage of keeping proteins in a GTP-bound conformation due to their resistance to hydrolysis into GDP. Two novel fluorescent GTPγS molecules were developed by linking fluorescein and tetramethylrhodamine to the γ-thiophosphate of GTPγS. Chemical and biological analysis of these two compounds revealed their successful synthesis and ability to bind to the nucleotide-binding site of tubulin. These two new fluorescent non-hydrolysable nucleotides offer new possibilities for biophysical and biochemical characterization of GTP-binding proteins.

Published

2017

10. Synthesis and biochemical characterization of EGF receptor in a water-soluble membrane model system

Author

Gino A Cortopassi, Wei He, Tiffany M. Scharadin, Matthew A. Coleman, Paul T. Henderson, Kermit L. Carraway, Alexey Tomilov, Yianni Yiannakou, Matthew Saldana, and Buday, Laszlo

Subjects

0301 basic medicine, Lipid Bilayers, Cell Membranes, lcsh:Medicine, Immunostaining, Biochemistry, Receptor tyrosine kinase, Tyrosine Kinases, Cell membrane, 0302 clinical medicine, Enzyme-Linked Immunoassays, Post-Translational Modification, Phosphorylation, Lipid bilayer, Receptor, lcsh:Science, Cancer, Staining, Multidisciplinary, biology, Kinase, Chemistry, Physics, Autophosphorylation, Cell biology, Enzymes, ErbB Receptors, Insects, Physical sciences, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Artificial, Cellular Structures and Organelles, Research Article, Arthropoda, General Science & Technology, 1.1 Normal biological development and functioning, Chemical physics, Immunoblotting, Molecular Probe Techniques, Research and Analysis Methods, 03 medical and health sciences, ErbB, Underpinning research, medicine, Humans, Animals, Immunoassays, Molecular Biology Techniques, Molecular Biology, Membranes, lcsh:R, Organisms, Water, Biology and Life Sciences, Proteins, Membranes, Artificial, Dimers (Chemical physics), Cell Biology, Invertebrates, In vitro, 030104 developmental biology, Apolipoproteins, Solubility, Specimen Preparation and Treatment, biology.protein, Immunologic Techniques, Enzymology, Nanoparticles, lcsh:Q, Protein Kinases

Abstract

ErbB (Erythroblastic Leukemia Viral Oncogene Homolog) receptor tyrosine kinases are critical for tissue development and maintenance, and frequently become oncogenic when mutated or overexpressed. In vitro analysis of ErbB receptor kinases can be difficult because of their large size and poor water solubility. Here we report improved production and assembly of the correctly folded full-length EGF receptor (EGFR) into nanolipoprotein particles (NLPs). NLPs are ~10 nm in diameter discoidal cell membrane mimics composed of apolipoproteins surrounding a lipid bilayer. NLPs containing EGFR were synthesized via incubation of baculovirus-produced recombinant EGFR with apolipoprotein and phosphoplipids under conditions that favor self-assembly. The resulting EGFR-NLPs were the correct size, formed dimers and multimers, had intrinsic autophosphorylation activity, and retained the ability to interact with EGFR-targeted ligands and inhibitors consistent with previously-published in vitro binding affinities. We anticipate rapid adoption of EGFR-NLPs for structural studies of full-length receptors and drug screening, as well as for the in vitro characterization of ErbB heterodimers and disease-relevant mutants.

Published

2016

11. Characterizing diffusion dynamics of a membrane protein associated with nanolipoproteins using fluorescence correlation spectroscopy

Author

Matthew A. Coleman, Federico Katzen, Sonny Ly, Craig D. Blanchette, Thomas R Huser, Feliza Bourguet, Wieslaw Kudlicki, Ted A. Laurence, Tingjuan Gao, Wei He, and Paul T. Henderson

Subjects

biology, Chemistry, Analytical chemistry, Nanoparticle, Bacteriorhodopsin, Fluorescence correlation spectroscopy, Protein engineering, Biochemistry, Dynamic light scattering, Membrane protein, biology.protein, Biophysics, Particle size, Diffusion (business), Molecular Biology

Abstract

Nanolipoprotein particles (NLPs) represent a unique nanometer-sized scaffold for supporting membrane proteins (MP). Characterization of their dynamic shape and association with MP in solution remains a challenge. Here, we present a rapid method of analysis by fluorescence correlation spectroscopy (FCS) to characterize bacteriorhodopsin (bR), a membrane protein capable of forming a NLP complex. By selectively labeling individual components of NLPs during cell-free synthesis, FCS enabled us to measure specific NLP diffusion times and infer size information for different NLP species. The resulting bR-loaded NLPs were shown to be dynamically discoidal in solution with a mean diameter of 7.8 nm. The insertion rate of bR in the complex was ∼55% based on a fit model incorporating two separate diffusion properties to best approximate the FCS data. More importantly, based on these data, we infer that membrane protein associated NLPs are thermodynamically constrained as discs in solution, while empty NLPs appear to be less constrained and dynamically spherical.

Published

2011

12. Atomic force microscopy differentiates discrete size distributions between membrane protein containing and empty nanolipoprotein particles

Author

W. Henry Benner, Graham Bench, Paul D. Hoeprich, Jenny A. Cappuccio, Todd Sulchek, Craig D. Blanchette, Brett A. Chromy, Brent W. Segelke, Edward A. Kuhn, and Matthew A. Coleman

Subjects

Streptavidin, Nanostructure, Ion-mobility spectrometry, Lipoproteins, Biophysics, Bacteriorhodopsin, Microscopy, Atomic Force, NLP, Biochemistry, Atomic force microscopy, chemistry.chemical_compound, Particle Size, Nanodisc, biology, Chemistry, Membrane Proteins, Cell Biology, Apolipoprotein, Nanostructures, Crystallography, Membrane protein, Bacteriorhodopsins, Biotinylation, biology.protein, Spectrophotometry, Ultraviolet, Particle size, Nanolipoprotein particle

Abstract

To better understand the incorporation of membrane proteins into discoidal nanolipoprotein particles (NLPs) we have used atomic force microscopy (AFM) to image and analyze NLPs assembled in the presence of bacteriorhodopsin (bR), lipoprotein E4 n-terminal 22k fragment scaffold and DMPC lipid. The self-assembly process produced two distinct NLP populations: those containing inserted bR (bR-NLPs) and those that did not (empty-NLPs). The bR-NLPs were distinguishable from empty-NLPs by an average increase in height of 1.0 nm as measured by AFM. Streptavidin binding to biotinylated bR confirmed that the original 1.0 nm height increase corresponds to br-NLP incorporation. AFM and ion mobility spectrometry (IMS) measurements suggest that NLP size did not vary around a single mean but instead there were several subpopulations, which were separated by discrete diameters. Interestingly, when bR was present during assembly the diameter distribution was shifted to larger particles and the larger particles had a greater likelihood of containing bR than smaller particles, suggesting that membrane proteins alter the mechanism of NLP assembly.

Published

2009

13. Cell-free Co-expression of Functional Membrane Proteins and Apolipoprotein, Forming Soluble Nanolipoprotein Particles

Author

Todd Peterson, Paul D. Hoeprich, Wieslaw Kudlicki, Kenneth J. Rothschild, Matthew A. Coleman, Federico Katzen, Craig D. Blanchette, Graham Bench, Brett A. Chromy, Angela K. Hinz, Jenny A. Cappuccio, Edward A. Kuhn, Brent W. Segelke, Erin S. Arroyo, Joel M. Kralj, Todd Sulchek, and Julia Fletcher

Subjects

Halobacterium salinarum, Proteomics, Scaffold protein, Vesicle-associated membrane protein 8, Microscopy, Atomic Force, Biochemistry, Analytical Chemistry, Spectroscopy, Fourier Transform Infrared, Molecular Biology, Integral membrane protein, DNA Primers, Apolipoprotein A-I, Base Sequence, biology, Chemistry, Research, Peripheral membrane protein, Membrane Proteins, Bacteriorhodopsin, Peptide Fragments, Recombinant Proteins, Transmembrane protein, Membrane, Solubility, Membrane protein, Bacteriorhodopsins, biology.protein, Nanoparticles

Abstract

Here we demonstrate rapid production of solubilized and functional membrane protein by simultaneous cell-free expression of an apolipoprotein and a membrane protein in the presence of lipids, leading to the self-assembly of membrane protein-containing nanolipoprotein particles (NLPs). NLPs have shown great promise as a biotechnology platform for solubilizing and characterizing membrane proteins. However, current approaches are limited because they require extensive efforts to express, purify, and solubilize the membrane protein prior to insertion into NLPs. By the simple addition of a few constituents to cell-free extracts, we can produce membrane proteins in NLPs with considerably less effort. For this approach an integral membrane protein and an apolipoprotein scaffold are encoded by two DNA plasmids introduced into cell-free extracts along with lipids. For this study reported here we used plasmids encoding the bacteriorhodopsin (bR) membrane apoprotein and scaffold protein Delta1-49 apolipoprotein A-I fragment (Delta49A1). Cell free co-expression of the proteins encoded by these plasmids, in the presence of the cofactor all-trans-retinal and dimyristoylphosphatidylcholine, resulted in production of functional bR as demonstrated by a 5-nm shift in the absorption spectra upon light adaptation and characteristic time-resolved FT infrared difference spectra for the bR --M transition. Importantly the functional bR was solubilized in discoidal bR.NLPs as determined by atomic force microscopy. A survey study of other membrane proteins co-expressed with Delta49A1 scaffold protein also showed significantly increased solubility of all of the membrane proteins, indicating that this approach may provide a general method for expressing membrane proteins enabling further studies.

Published

2008

14. Cell-free expression of functional receptor tyrosine kinases

Author

Paul T. Henderson, Christina L. Takanishi, Gregory L. Hura, John A. Tainer, Matthew A. Coleman, Candice Gellner, Tiffany M. Scharadin, Steven Hoang-Phou, Kermit L. Carraway, Wei He, and Matthew Saldana

Subjects

0303 health sciences, Multidisciplinary, Cell-Free System, biology, Drug discovery, Receptor Protein-Tyrosine Kinases, Article, Receptor tyrosine kinase, 3. Good health, Cell biology, 03 medical and health sciences, 0302 clinical medicine, Biochemistry, Cell surface receptor, 030220 oncology & carcinogenesis, biology.protein, 5-HT5A receptor, Signal transduction, Tyrosine kinase, 030304 developmental biology, G protein-coupled receptor

Abstract

Receptor tyrosine kinases (RTKs) play critical roles in physiological and pathological processes, and are important anticancer drug targets. In vitro mechanistic and drug discovery studies of full-length RTKs require protein that is both fully functional and free from contaminating proteins. Here we describe a rapid cell-free and detergent-free co-translation method for producing full-length and functional ERBB2 and EGFR receptor tyrosine kinases supported by water-soluble apolipoprotein A-I based nanolipoprotein particles.

Published

2015

15. Comparison of Multiplexed Techniques for Detection of Bacterial and Viral Proteins

Author

Steven R. Visuri, Matthew A. Coleman, Rupa S. Rao, Mary T. McBride, Dennis L Matthews, and Joanna S. Albala

Subjects

medicine.diagnostic_test, biology, Microarray, Chemistry, Protein Array Analysis, Bacillus, General Chemistry, Antibodies, Viral, Flow Cytometry, equipment and supplies, Antibodies, Bacterial, Biochemistry, Molecular biology, Microspheres, respiratory tract diseases, Flow cytometry, Viral Proteins, Bacterial Proteins, Immunoassay, medicine, biology.protein, DNA microarray, Antibody, Levivirus

Abstract

Immobilized antibody microarrays were compared to the Luminex flow cytometry system that utilizes suspensions of polystyrene microbeads covalently coupled with capture antibodies. The two immunoassays were performed for comparison of reproducibility, limits of detection and dynamic range. The Luminex system showed lower limits of detection and increased dynamic range among samples whereas the protein microarrays could be more amenable to miniaturization. Both technologies were capable of sensitive multiplexed detection.

Published

2004

16. Concentrations of activin A, inhibin A and follistatin in human amnion, choriodecidual and placental tissues at term and preterm

Author

Lee W Evans, Ta Sato, Lme Mccowan, K.W. Marvin, Nigel P. Groome, Mitchell, Matthew A.G. Coleman, and Jeffrey A. Keelan

Subjects

Follistatin, endocrine system, medicine.medical_specialty, animal structures, Activin and inhibin, Placenta, Pregnancy Trimester, Third, Endocrinology, Diabetes and Metabolism, Extraembryonic Membranes, Statistics, Nonparametric, Endocrinology, Pregnancy, Fetal membrane, Internal medicine, Decidua, medicine, Humans, Inhibins, Amnion, Growth Substances, reproductive and urinary physiology, Glycoproteins, Labor, Obstetric, biology, Chorion, Follicular fluid, Activins, medicine.anatomical_structure, embryonic structures, biology.protein, Gestation, Female, hormones, hormone substitutes, and hormone antagonists, Hormone

Abstract

To investigate labour-associated changes in production of activin and related hormones by gestational tissues we prepared extracts from amnion, choriodecidual and placental tissues delivered at term before labour (TNL; n=15), at term after spontaneous labour (TSL; n=15) or preterm (PTD; n=31) and measured concentrations of inhibin A, activin A and follistatin by ELISA. Activin concentrations in placental tissues were significantly (Mann-Whitney U-test; P

Published

1999

17. Hex1: a new human Rad2 nuclease family member with homology to yeast exonuclease 1

Author

Jane Lamerdin, Mari Christensen, James P. Carney, David M. Wilson, Aaron W. Adamson, and Matthew A. Coleman

Subjects

Exonuclease, DNA, Complementary, Saccharomyces cerevisiae Proteins, DNA repair, Molecular Sequence Data, Gene Expression, Saccharomyces cerevisiae, Fungal Proteins, chemistry.chemical_compound, Exonuclease 1, Neoplasms, Schizosaccharomyces, Genetics, Animals, Humans, Amino Acid Sequence, RNA, Messenger, Gene, In Situ Hybridization, Fluorescence, DNA Primers, Endodeoxyribonucleases, Base Sequence, Sequence Homology, Amino Acid, biology, Chromosome Mapping, Exons, biology.organism_classification, Molecular biology, Introns, DNA-Binding Proteins, genomic DNA, DNA Repair Enzymes, Exodeoxyribonucleases, chemistry, Chromosomes, Human, Pair 1, Schizosaccharomyces pombe, biology.protein, DNA mismatch repair, DNA, Research Article

Abstract

Nucleolytic processing of chromosomal DNA is required in operations such as DNA repair, recombination and replication. We have identified a human gene, named HEX1 forhumanexonuclease 1, by searching the EST database for cDNAs that encode a homolog to the Saccharomyces cerevisiae EXO1 gene product. Based on its homology to this and other DNA repair proteins of the Rad2 family, most notably Schizosaccharomyces pombe exonuclease 1 (Exo1), Hex1 presumably functions as a nuclease in aspects of recombination or mismatch repair. Similar to the yeast proteins, recombinant Hex1 exhibits a 5'-->3' exonuclease activity. Northern blot analysis revealed that HEX1 expression is highest in fetal liver and adult bone marrow, suggesting that the encoded protein may operate prominently in processes specific to hemopoietic stem cell development. HEX1 gene equivalents were found in all vertebrates examined. The human gene includes 14 exons and 13 introns that span approximately 42 kb of genomic DNA and maps to the chromosomal position 1q42-43, a region lost in some cases of acute leukemia and in several solid tumors.

Published

1998

18. Protein Conformational Changes during the Bacteriorhodopsin Photocycle

Author

Jerzy Olejnik, Parshuram Rath, Kenneth J. Rothschild, Anders Nilsson, and Matthew A. Coleman

Subjects

Conformational change, Schiff base, biology, Chemistry, Resonance Raman spectroscopy, Wild type, Bacteriorhodopsin, Cell Biology, Chromophore, Photochemistry, Biochemistry, Crystallography, chemistry.chemical_compound, symbols.namesake, Deprotonation, symbols, biology.protein, Raman spectroscopy, Molecular Biology

Abstract

Bacteriorhodopsin is a light-driven proton pump, which undergoes a photocycle consisting of several distinct intermediates. Previous studies have established that the M →N step of this photocycle involves a major conformational change of membrane embedded α-helices. In order to further investigate this conformational change, we have studied the photocycle of the high pH form of the mutant Asp-85 →Asn (D85Nalk). In contrast to wild type bacteriorhodopsin, D85Nalk has a deprotonated Schiff base and a blue-shifted absorption near 410 nm, yet it still transports protons in the same direction as wild type bacteriorhodopsin (Tittor, J., Schweiger, U., Oesterhelt, D. and Bamberg, E.(1994) Biophys. J., 67, 1682-1690). Resonance Raman spectroscopy of D85Nalk and D85Nalk regenerated with retinal labeled at the C-15 position with deuterium reveals the existence of an all-trans configuration of the chromophore. Fourier transform infrared difference spectroscopy shows that the photocycle of this light-adapted form involves similar events as the wild type bacteriorhodopsin photocycle including the M →N protein conformational change. These results help to explain the ability of D85Nalk to transport protons and demonstrate that the M →N conformational change can occur even in the photocycle of an unprotonated Schiff base form of bacteriorhodopsin.

Published

1995

19. DNA repair and cell cycle biomarkers of radiation exposure and inflammation stress in human blood

Author

Leif E. Peterson, Francesco Marchetti, Sandhya Bhatnagar, Brandon J. Mannion, Helen Budworth, Ely Kwoh, Shan X. Wang, Andrew J. Wyrobek, Yuande Tan, William F. Blakely, Antoine M. Snijders, and Matthew A. Coleman

Subjects

Lipopolysaccharides, Male, Time Factors, Radiobiology, DNA Repair, Transcription, Genetic, Gene Expression, Ionizing radiation, Molecular cell biology, Pathology, Phosphorylation, Cellular Stress Responses, Multidisciplinary, Cell Death, Cell Cycle, Radiation Exposure, Middle Aged, Cell cycle, Nucleic acids, Dose–response relationship, Medicine, Female, Public Health, Environmental Health, Research Article, Test Evaluation, Adult, DNA damage, DNA repair, Radiation Biophysics, Science, Biophysics, Biology, Young Adult, Diagnostic Medicine, Predictive Value of Tests, Stress, Physiological, Genetics, Humans, RNA, Messenger, Inflammation, X-Rays, Immunity, Reproducibility of Results, Dose-Response Relationship, Radiation, DNA, Proliferating cell nuclear antigen, Radiation Effects, Gene Expression Regulation, Immunology, biology.protein, Cancer research, Clinical Immunology, Biomarkers, Ex vivo, General Pathology

Abstract

DNA damage and repair are hallmarks of cellular responses to ionizing radiation. We hypothesized that monitoring the expression of DNA repair-associated genes would enhance the detection of individuals exposed to radiation versus other forms of physiological stress. We employed the human blood ex vivo radiation model to investigate the expression responses of DNA repair genes in repeated blood samples from healthy, non-smoking men and women exposed to 2 Gy of X-rays in the context of inflammation stress mimicked by the bacterial endotoxin lipopolysaccharide (LPS). Radiation exposure significantly modulated the transcript expression of 12 genes of 40 tested (2.2E-06

Published

2012

20. A redirected proton pathway in the bacteriorhodopsin mutant Tyr-57–>Asp. Evidence for proton translocation without Schiff base deprotonation

Author

T. Marti, Anders Nilsson, H. G. Khorana, Wolfgang B. Fischer, Matthew A. Coleman, Kenneth J. Rothschild, Parshuram Rath, and Sanjay M. Sonar

Subjects

Schiff base, biology, Chemistry, Hydrogen bond, Stereochemistry, Bacteriorhodopsin, Cell Biology, Chromophore, Biochemistry, Transmembrane protein, chemistry.chemical_compound, Deprotonation, Proton transport, biology.protein, Molecular Biology, Isomerization

Abstract

Light-driven proton pumping in bacteriorhodopsin involves deprotonation of the retinylidene Schiff base during M formation and reprotonation during N formation as key steps. This study reports on the spectroscopic characterization of the bacteriorhodopsin mutant Tyr-57-->Asp (Y57D). The results reveal that although formation of the M intermediate and Schiff base deprotonation is blocked, the mutant still exhibits a significant level of light-driven proton translocation. The photocycle of Y57D involves formation of K and L intermediates accompanied by the normal chromophore isomerization and changes in the hydrogen bonding of Asp-96 and Asp-115. However, an additional Asp residue deprotonates during formation of the L intermediate along with a transmembrane alpha-helical structural change that normally occurs upon N formation. We postulate that proton transport in Y57D occurs through a redirected pathway that does not involve the deprotonation of the Schiff base. Chromophore isomerization, which normally results in the transfer of a proton from the Schiff base to Asp-85, instead causes the deprotonation of Asp-57 in Y57D, most likely through an interaction involving Asp-212. This deprotonation of Asp-57 causes the release of a proton into the extracellular medium. Reprotonation of Asp-57 occurs through the Schiff base reprotonation pathway, which consists of a hydrogen-bonded network of residues spanning from Asp-96 to Asp-212. The results also indicate that the transmembrane alpha-helical structural changes observed during N formation (Rothschild, K.J., Marti, T., Sonar, S., He, Y.W., Rath, P., Fischer, W., Bousche, O., and Khorana, H. G. (1993) J. Biol. Chem. 268, 27046-27052) do not require deprotonation of Asp-96 or of the Schiff base.

Published

1994

21. New Tools for the Site-Specific Attachment of Proteins to Surface

Author

Y Kwon, Julio A. Camarero, and Matthew A. Coleman

Subjects

chemistry.chemical_classification, Analyte, biology, Carboxylic acid, Native chemical ligation, law.invention, Protein–protein interaction, Maltose-binding protein, Biochemistry, chemistry, law, Covalent bond, biology.protein, Recombinant DNA, Protein microarray

Abstract

Protein microarrays in which proteins are immobilized to a solid surface are ideal reagents for high-throughput experiments that require very small amounts of analyte. Such protein microarrays ('protein chips') can be used very efficiently to analyze all kind of protein interactions en masse. Although a variety of methods are available for attaching proteins on solid surfaces. Most of them rely on non-specific adsorption methods or on the reaction of chemical groups within proteins (mainly, amino and carboxylic acid groups) with complementary reactive groups. In both cases the protein is attached to the surface in random orientations. The use of recombinant affinity tags addresses the orientation issue, however in most of the cases the interaction of the tags are reversible (e.g., glutathione S-transferase, maltose binding protein and poly-His) and, hence, are not stable over the course of subsequent assays or require large mediator proteins (e.g., biotin-avidin and antigen antibody). The key for the covalent attachment of a protein to a solid support with a total control over the orientation is to introduce two unique and mutually reactive groups on both the protein and the surface. The reaction between these two groups should be highly selective thus behaving like a molecular 'Velcro'.

Published

2010

22. Cell-free expression of soluble and membrane proteins in an array device for drug screening

Author

Shouguang Jin, Matthew A. Coleman, Ruba Khnouf, Z. Hugh Fan, and Daniel Olivero

Subjects

chemistry.chemical_classification, biology, Cell-Free System, Drug Evaluation, Preclinical, Protein Array Analysis, Bacteriorhodopsin, beta-Lactamases, Analytical Chemistry, Kinetics, Enzyme, Biochemistry, chemistry, Membrane protein, Cell surface receptor, Bacteriorhodopsins, biology.protein, Protein biosynthesis, Luciferase, Enzyme Inhibitors, Receptor, Luciferases, beta-Lactamase Inhibitors, Apolipoproteins A, Lipoprotein

Abstract

Enzymes and membrane protein receptors represent almost three-quarters of all current drug targets. As a result, it would be beneficial to have a platform to produce them in a high-throughput format for drug screening. We have developed a miniaturized fluid array device for cell-free protein synthesis, and the device was exploited to produce both soluble and membrane proteins. Two membrane-associated proteins, bacteriorhodopsin and ApoA lipoprotein, were coexpressed in an expression medium in the presence of lipids. Simultaneous expression of ApoA lipoprotein enhanced the solubility of bacteriorhodopsin and would facilitate functional studies. In addition, the device was employed to produce two enzymes, luciferase and beta-lactamase, both of which were demonstrated to be compatible with enzyme inhibition assays. Beta-lactamase, a drug target associated with antibiotic resistance, was further used to show the capability of the device for drug screening. Beta-lactamase was synthesized in the 96 units of the device and then assayed by a range of concentrations of four mock drug compounds without harvesting and purification. The inhibitory effects of these compounds on beta-lactamase were measured in a parallel format, and the degree in their drug effectiveness agreed well with the data in the literature. This work demonstrated the feasibility of the use of the fluid array device and cell-free protein expression for drug screening, with advantages in less reagent consumption, shorter analysis time, and higher throughput.

Published

2010

23. Identification of c-type cytochromes involved in anaerobic, bacterial U(IV) oxidation

Author

Matthew A. Coleman, Feliza Bourguet, Staci R. Kane, Harry R. Beller, Tina C. Legler, and Tracy E. Letain

Subjects

Environmental Engineering, Nitrates, Cytochrome, Bioengineering, Cytochrome c Group, Biology, Oxidation Activity, Thiobacillus, Pollution, Microbiology, Insertional mutagenesis, Thiobacillus denitrificans, Complementation, Biodegradation, Environmental, Biochemistry, biology.protein, Environmental Chemistry, Uranium, Ultracentrifuge, Anaerobiosis, Gene, Anaerobic exercise, Oxidation-Reduction, Ultracentrifugation

Abstract

Anaerobic, bacterial reduction of water-soluble U(VI) complexes to the poorly soluble U(IV) mineral uraninite has been intensively studied as a strategy for in situ remediation of uranium-contaminated groundwater. A novel and potentially counteracting metabolic process, anaerobic, nitrate-dependent U(IV) oxidation, has recently been described in two bacterial species (Geobacter metallireducens and Thiobacillus denitrificans), but the underlying biochemistry and genetics are completely unknown. We report here that two diheme, c-type cytochromes (putatively c 4 and c 5 cytochromes) play a major role in nitrate-dependent U(IV) oxidation by T. denitrificans. Insertion mutations in each of the two genes encoding these cytochromes resulted in a greater than 50% decrease in U(IV) oxidation activity, and complementation in trans restored activity to wild-type levels. Sucrose-density-gradient ultracentrifugation confirmed that both cytochromes are membrane-associated. Insertion mutations in genes encoding other membrane-associated, c-type cytochromes did not diminish U(IV) oxidation. This is the first report of proteins involved in anaerobic U(IV) oxidation.

Published

2008

24. Candidate protein biodosimeters of human exposure to ionizing radiation

Author

Andrew J. Wyrobek, Irene M. Jones, Matthew A. Coleman, and Francesco Marchetti

Subjects

Ataxia, Radiological and Ultrasound Technology, biology, business.industry, Proteins, Environmental Exposure, Radiation Dosage, In vitro, Ionizing radiation, Histone, Biodosimetry, In vivo, Radiation, Ionizing, medicine, biology.protein, Radiation damage, Cancer research, Phosphorylation, Humans, Radiology, Nuclear Medicine and imaging, Biological Assay, medicine.symptom, Nuclear medicine, business, Radiometry

Abstract

To conduct a literature review of candidate protein biomarkers for individual radiation biodosimetry of exposure to ionizing radiation.Reviewed approximately 300 publications (1973 - April 2006) that reported protein effects in mammalian systems after either in vivo or in vitro radiation exposure.We found 261 radiation-responsive proteins including 173 human proteins. Most of the studies used high doses of ionizing radiation (4 Gy) and had no information on dose- or time-responses. The majority of the proteins showed increased amounts or changes in phosphorylation states within 24 h after exposure (range: 1.5- to 10-fold). Of the 47 proteins that are responsive at doses of 1 Gy and below, 6 showed phosphorylation changes at doses below 10 cGy. Proteins were assigned to 9 groups based on consistency of response across species, dose- and time-response information and known role in the radiation damage response.ATM (Ataxia telengiectasia mutated), H2AX (histone 2AX), CDKN1A (Cyclin-dependent kinase inhibitor 1A), and TP53 (tumor protein 53) are top candidate radiation protein biomarkers. Furthermore, we recommend a panel of protein biomarkers, each with different dose and time optima, to improve individual radiation biodosimetry for discriminating between low-, moderate-, and high-dose exposures. Our findings have applications for early triage and follow-up medical assessments.

Published

2006

25. Whole-Genome Transcriptional Analysis of Chemolithoautotrophic Thiosulfate Oxidation by Thiobacillus denitrificans under Aerobic versus Denitrifying Conditions†

Author

Harry R. Beller, Anu Chakicherla, Tina C. Legler, Matthew A. Coleman, Tracy E. Letain, and Staci R. Kane

Subjects

Denitrification, Genomics and Proteomics, Transcription, Genetic, Nitric-oxide reductase, ved/biology.organism_classification_rank.species, Thiosulfates, Nitrate reductase, Microbiology, Thiobacillus, Denitrifying bacteria, chemistry.chemical_compound, Anaerobiosis, Molecular Biology, Oligonucleotide Array Sequence Analysis, Thiosulfate, biology, ved/biology, Gene Expression Profiling, RuBisCO, Nitrite reductase, Adaptation, Physiological, Aerobiosis, Up-Regulation, RNA, Bacterial, chemistry, Biochemistry, Genes, Bacterial, biology.protein, Oxidation-Reduction, Genome, Bacterial

Abstract

Thiobacillus denitrificans is one of the few known obligate chemolithoautotrophic bacteria capable of energetically coupling thiosulfate oxidation to denitrification as well as aerobic respiration. As very little is known about the differential expression of genes associated with key chemolithoautotrophic functions (such as sulfur compound oxidation and CO 2 fixation) under aerobic versus denitrifying conditions, we conducted whole-genome, cDNA microarray studies to explore this topic systematically. The microarrays identified 277 genes (approximately 10% of the genome) as differentially expressed using RMA (robust multiarray average) statistical analysis and a twofold cutoff. Genes upregulated (ca. 6- to 150-fold) under aerobic conditions included a cluster of genes associated with iron acquisition (e.g., siderophore-related genes), a cluster of cytochrome cbb 3 oxidase genes, cbbL and cbbS (encoding the large and small subunits of form I ribulose 1,5-bisphosphate carboxylase/oxygenase, or RubisCO), and multiple molecular chaperone genes. Genes upregulated (ca. 4- to 95-fold) under denitrifying conditions included nar , nir , and nor genes (associated, respectively, with nitrate reductase, nitrite reductase, and nitric oxide reductase, which catalyze successive steps of denitrification), cbbM (encoding form II RubisCO), and genes involved with sulfur compound oxidation (including two physically separated but highly similar copies of sulfide:quinone oxidoreductase and of dsrC , associated with dissimilatory sulfite reductase). Among genes associated with denitrification, relative expression levels (i.e., degree of upregulation with nitrate) tended to decrease in the order nar > nir > nor > nos . Reverse transcription-quantitative PCR analysis was used to validate these trends.

Published

2006

26. Functional characterization of Ape1 variants identified in the human population

Author

Krzysztof Fidelis, Matthew A. Coleman, Masood Z. Hadi, David M. Wilson, and Harvey W. Mohrenweiser

Subjects

Models, Molecular, Saccharomyces cerevisiae Proteins, DNA Repair, Databases, Factual, DNA repair, Population, DNA Mutational Analysis, Penetrance, medicine.disease_cause, Crystallography, X-Ray, Aminopeptidases, Polymorphism, Single Nucleotide, Protein Structure, Secondary, Article, Endonuclease, chemistry.chemical_compound, Gene Frequency, Genetics, medicine, Humans, AP site, Genetic Predisposition to Disease, education, Conserved Sequence, Expressed Sequence Tags, Mutation, education.field_of_study, biology, Genetic Variation, Hydrogen Bonding, DNA, Exons, APEX1, Molecular biology, Protein Structure, Tertiary, genomic DNA, chemistry, Amino Acid Substitution, biology.protein

Abstract

Apurinic/apyrimidinic (AP) sites are common mutagenic and cytotoxic DNA lesions. Ape1 is the major human repair enzyme for abasic sites and incises the phosphodiester backbone 5' to the lesion to initiate a cascade of events aimed at removing the AP moiety and maintaining genetic integrity. Through resequencing of genomic DNA from 128 unrelated individuals, and searching published reports and sequence databases, seven amino acid substitution variants were identified in the repair domain of human Ape1. Functional characterization revealed that three of the variants, L104R, E126D and R237A, exhibited approximately 40-60% reductions in specific incision activity. A fourth variant, D283G, is similar to the previously characterized mutant D283A found to exhibit approximately 10% repair capacity. The most common substitution (D148E; observed at an allele frequency of 0.38) had no impact on endonuclease and DNA binding activities, nor did a G306A substitution. A G241R variant showed slightly enhanced endonuclease activity relative to wild-type. In total, four of seven substitutions in the repair domain of Ape1 imparted reduced function. These reduced function variants may represent low penetrance human polymorphisms that associate with increased disease susceptibility.

Published

2000

27. Detection of threonine structural changes upon formation of the M-intermediate of bacteriorhodopsin: evidence for assignment to Thr-89

Author

Jan Raap, Xiao-Mei Liu, Min Joo Lee, Kenneth J. Rothschild, Anders Nilsson, Johan Lugtenburg, Judith Herzfeld, Wolfgang B. Fischer, Marina Bizounok, Willem F. Jan Karstens, Parshuram Rath, and Matthew A. Coleman

Subjects

Models, Molecular, Threonine, Light, Biophysics, Bacteriorhodopsin, 010402 general chemistry, Photochemistry, 01 natural sciences, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, Fourier transform infrared, Proton transport, Spectroscopy, Fourier Transform Infrared, Fourier transform infrared spectroscopy, Spectroscopy, 030304 developmental biology, 0303 health sciences, Schiff base, biology, Active site, Cell Biology, 0104 chemical sciences, Crystallography, chemistry, Molecular vibration, Bacteriorhodopsins, biology.protein, Mutagenesis, Site-Directed, Site directed mutagenesis, Isotope labeling

Abstract

The behavior of threonine residues in the bacteriorhodopsin (bR) photocycle has been investigated by Fourier transform infrared difference spectroscopy. L-Threonine labeled at the hydroxyl group with 18O (L-[3-(18)O]threonine) was incorporated into bR and the bR-->M FTIR difference spectra measured. Bands are assigned to threonine vibrational modes on the basis of 18O induced isotope frequency shifts and normal mode calculations. In the 3500 cm-1 region, a negative band is assigned to the OH stretch of threonine. In the 1125 cm-1 region, a negative band is assigned to a mixed CH3 rock/CO stretch mode. The frequency of both these bands indicates the presence of at least one hydrogen bonded threonine hydroxyl group in light adapted bR which undergoes a change in structure by formation of the M intermediate. Spectral changes induced by the substitution Thr-89-->Asn but not Thr-46-->Asn or Asp-96-->Asn are consistent with the assignment of these bands to Thr-89. These results along with another related study on the mutant Thr-89-->Asn indicate that the active site of bR includes Thr-89 and that its interaction with the retinylidene Schiff base and Asp-85 may play an important role in regulating the color of bacteriorhodopsin and the transfer of a proton to the Schiff base.

Published

1998

28. Threonine-89 participates in the active site of bacteriorhodopsin: evidence for a role in color regulation and Schiff base proton transfer

Author

Matthew A. Coleman, Terence S. Russell, Kenneth J. Rothschild, and Anders Nilsson, and Parshuram Rath

Subjects

Halobacterium, Models, Molecular, Threonine, Stereochemistry, Carboxylic acid, Protonation, Spectrum Analysis, Raman, Biochemistry, Polymerase Chain Reaction, chemistry.chemical_compound, Structure-Activity Relationship, Spectroscopy, Fourier Transform Infrared, Schiff Bases, chemistry.chemical_classification, Schiff base, Binding Sites, biology, Molecular Structure, Spectrum Analysis, Active site, Bacteriorhodopsin, Chromophore, Proton Pumps, biology.organism_classification, Proton pump, chemistry, Mutagenesis, Bacteriorhodopsins, biology.protein

Abstract

Bacteriorhodopsin (bR) functions as a light-driven proton pump in the purple membrane of Halobacterium salinarium. A major feature of bR is the existence of an active site which includes a retinylidene Schiff base and amino acid residues Asp-85, Asp-212, and Arg-82. This active site participates in proton transfers and regulates the visible absorption of bacteriorhodopsin and its photointermediates. In this work we find evidence that Thr-89 also participates in this active site. The substitution Thr-89 --> Asn (T89N) results in changes in the properties of the all-trans retinylidene chromophore of light-adapted bR including a redshift of the visible lambda(max) and a downshift in C=N and C=C stretch frequencies. Changes are also found in the M and N intermediates of the T89N photocycle including shifts in lambda(max), a downshift of the Asp-85 carboxylic acid C=O stretch frequency by 10 cm(-1), and a 3-5-fold decrease in the rate of formation of the M intermediate. In contrast, the properties of the 13-cis retinylidene chromophore of dark-adapted T89N as well as the K and L intermediates of the T89N photocycle are similar to the wild-type bacteriorhodopsin. These results are consistent with an interaction of the hydroxyl group of Thr-89 with the protonated Schiff base of light-adapted bR and possibly the N intermediate but not the 13-cis chromophore of dark-adapted bR or the K and L intermediates. Thr-89 also appears to influence the rate of Schiff base proton transfer to Asp-85 during formation of the M intermediate, possibly through an interaction with Asp-85. In contrast, the hydroxyl group of Thr-89 is not obligatory for proton transfer from Asp-96 to the Schiff base during formation of the N intermediate.

Published

1997

29. Abstract 5660: Cell-free generation and characterization of ErbB2-nanoparticle conjugates

Author

Tiffany M. Scharadin, Paul T. Henderson, Kit S. Lam, Wei He, Candice Gellner, Yuanpei Li, Kermit L. Carraway, Matthew Saldana, and Matthew A. Coleman

Subjects

Cancer Research, biology, Chemistry, Kinase, Lapatinib, Receptor tyrosine kinase, Cell membrane, medicine.anatomical_structure, Oncology, Biochemistry, biology.protein, Extracellular, medicine, Antibody, skin and connective tissue diseases, Receptor, Lipid bilayer, medicine.drug

Abstract

We have developed a rapid process for cell-free production of full-length ErbB2, a receptor tyrosine kinase that contributes to the onset and progression of breast and other tumor types. The receptor is solubilized and stabilized via incorporation into nanolipoprotein particles (NLPs). NLPs are discoidal structures, approximately 20 nm in diameter, that arise from the self-assembly of apolipoproteins around a phospholipid bilayer that acts as a mimic of the cell membrane. The ErbB2-NLP complex was soluble and could be recognized by antibodies, such as Trastuzumab, that indicate the presence of correctly folded ErbB2 extracellular domains. Kinase function was confirmed using Lapatinib, which inhibited tyrosine autophosphorylation during cell-free synthesis. The cell-free synthesis and biochemical characterization data support the potential use of ErbB2-NLPs and related variants for novel biochemistry and drug screening studies. Citation Format: Wei He, Matthew Saldana, Tiffany Scharadin, Candice Gellner, Yuanpei Li, Kit Lam, Kermit Carraway, Paul Henderson, Matthew Coleman. Cell-free generation and characterization of ErbB2-nanoparticle conjugates. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 5660. doi:10.1158/1538-7445.AM2013-5660

Published

2013

30. Abstract 4275: Production and characterization of ErbB1 (EGFR) associated with nanolipoprotein particles via cell-based and cell-free methods

Author

Paul T. Henderson, Matthew A. Coleman, Kermit L. Carraway, Christina L. Takanishi, Wei He, Tiffany M. Scharadin, and Matthew Saldano

Subjects

Cancer Research, Low protein, biology, Chemistry, Receptor tyrosine kinase, Cell biology, Cell membrane, medicine.anatomical_structure, Oncology, Intracellular receptor, medicine, biology.protein, Kinase activity, Signal transduction, Receptor, Tyrosine kinase

Abstract

The four members of the ErbB family of mammalian receptor tyrosine kinases are essential for the development and maintenance of a variety of tissues. Aberrant activation or over-expression of these receptors leads to the progression of epithelial and brain tumors. An understanding of the mechanistic and structural changes that occur to activate the intracellular receptor tyrosine kinase domain via extracellular ligand binding and receptor dimerization is desirable for identifying specific and efficient methods to inhibit signal transduction. Previous methods to study this process achieved low success due to low protein yield, poor water solubility of the membrane protein, and the large size of receptor. We report progress on overcoming these technical hurdles by forming the ErbB family members in nanolipoprotein particles (NLPs), which are ∼20 nm disc-shaped cell membrane analogs. Here we compare an optimized cell-based method with a novel cell-free method to produce NLPs containing the ErbB1 receptor, also called EGFR. The cell-produced ErbB1-NLPs retain kinase activity compared to cell-free produced material with higher yields. However, the cell-free produced receptors have regions of correct folding and can be produced in less than a day. The cell-free produced constructs can be labeled conveniently with unnatural amino acids to enable characterization of dimerization interactions. These two receptor production systems can be utilized synergistically to enable new studies of conformational changes associated with ligand binding or protein mutations, as well as to identify small molecule inhibitors of these receptors. Citation Format: Tiffany M. Scharadin, Christina Takanishi, Wei He, Matthew Saldano, Kermit L. Carraway, Matthew A. Coleman, Paul T. Henderson. Production and characterization of ErbB1 (EGFR) associated with nanolipoprotein particles via cell-based and cell-free methods. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 4275. doi:10.1158/1538-7445.AM2013-4275

Published

2013

31. Site-directed isotope labeling of membrane proteins: A new tool for spectroscopists

Author

Sanjay M. Sonar, Cheryl F.C. Ludlam, Uttam L. RajBhandary, Kenneth J. Rothschild, Matthew A. Coleman, T Marti, Chan Ping Lee, and Xiao Mei Liu

Subjects

chemistry.chemical_classification, Biochemistry, biology, Chemistry, Transfer RNA, biology.protein, Translation (biology), Bacteriorhodopsin, Aminoacylation, Translocon, Integral membrane protein, Stop codon, Amino acid

Abstract

Publisher Summary This chapter introduces a method for assigning bands in Fourier transform infrared (FTIR)-difference spectra based on a technique termed as site-directed isotope labeling (SDIL). The key element in SDIL is the use of a suppressor tRNA aminoacylated with an isotopically labeled amino acid. This tRNA is targeted to insert the isotopic amino acid at the proper position in the nascent protein by using an amber codon at the corresponding position in the gene. Cell-free synthesis (in vitro translation) and exogenous addition of the aminoacylated suppressor tRNA prevent aminoacylation of non-suppressor tRNAs with the isotopic amino acid, similar to the approach used for site-directed non-native amino acid replacement. The integral membrane protein bacteriorhodopsin (bR) was chosen as a model system for demonstrating the application of SDIL-FTIR. Studies on bacteriorhodopsin demonstrate that the FTIR-SDIL approach can probe the local environment and structural changes of specific residues and backbone carbonyl groups in a protein.

Published

1996

32. Asp 46 can substitute Asp 96 as the Schiff base proton donor in bacteriorhodopsin

Author

Terence S. Russell, Parshuram Rath, Matthew A. Coleman, Rashmi Pandey, Anders Nilsson, and Kenneth J. Rothschild

Subjects

Halobacterium, Schiff base, Proton, biology, Base Sequence, Stereochemistry, Mutant, Resonance Raman spectroscopy, Molecular Sequence Data, Bacteriorhodopsin, Biological Transport, Proton Pumps, Biochemistry, chemistry.chemical_compound, Deprotonation, chemistry, Bacteriorhodopsins, biology.protein, Mutagenesis, Site-Directed, Carboxylate, Asparagine, Protons, Spectroscopy

Abstract

Bacteriorhodopsin functions as a light-driven proton pump in the purple membrane of Halobacterium salinarium. A variety of studies have established that a proton is transferred over an approximately 10 A distance from Asp 96 to the retinylidene Schiff base during the M --> N transition of the bR photocycle. In order to further explore the mechanism of this Schiff base reprotonation, we compared the properties of the double mutant Thr 46 --> Asp/Asp 96 --> Asn (T46D/D96N), the single mutants Asp 96 --> Asn (D96N) and Thr 46 --> Asp (T46D), and wild-type bR. In contrast to D96N, which exhibits a very slow M decay, T46D/D96N has an M decay close to that of wild-type bR. FTIR difference spectroscopy detects bands in the carboxyl and carboxylate stretch region of T46D/D96N consistent with the deprotonation of Asp 46 during the M --> N transition. In addition, bands associated with structural changes of Asn 96 in the mutant D96N are absent in T46D/D96N. Resonance Raman spectroscopy provides evidence that both T46D/D96N and T46D have a long-lived N-like species in their photocycles. These data demonstrate that Asp 46 can substitute for Asp 96 as the proton donor group in the reprotonation pathway of the Schiff base during the M --> N transition. However, N decay is delayed in comparison to wild-type bR. This may be due to a partial block in the proton pathway leading from the cytoplasmic medium to Asp 46.

Published

1995

33. Site-directed isotope labeling and ATR-FTIR difference spectroscopy of bacteriorhodopsin: the peptide carbonyl group of Tyr 185 is structurally active during the bR--N transition

Author

Matthew A. Coleman, Chan Ping Lee, Sanjay M. Sonar, Uttam L. RajBhandary, Kenneth J. Rothschild, Judith Herzfeld, and Cheryl F.C. Ludlam

Subjects

chemistry.chemical_classification, Conformational change, Carbon Isotopes, biology, Chemistry, Stereochemistry, Photochemistry, Peptide, Bacteriorhodopsin, Biochemistry, Protein Structure, Secondary, Protein structure, Isotopes of carbon, Attenuated total reflection, Bacteriorhodopsins, Isotope Labeling, Spectroscopy, Fourier Transform Infrared, biology.protein, Tyrosine, Fourier transform infrared spectroscopy, Spectroscopy

Abstract

The largest secondary structural change occurs in the bacteriorhodopsin (bR) photocycle during the M-->N transition. In this work site-directed isotope labeling (SDIL) and attenuated total reflection Fourier transform infrared (ATR-FTIR) difference spectroscopy were used to investigate this conformational change. L-Tyrosine containing a 13C isotope at the carbonyl carbon was selectively incorporated at Tyr 57, Tyr 147, and Tyr 185 by SDIL. This involves the cell-free expression of bR in the presence of Escherichia coli suppressor tRNA(CUATyr) aminoacylated with L-[1-13C]Tyr. ATR-FTIR difference spectroscopy reveals that of the 11 tyrosines, only the peptide carbonyl group of Tyr 185 undergoes a significant structural change during the bR-->N transition. Along with other spectroscopic evidence, this result suggests that the Tyr 185-Pro 186 region of the protein is structurally active and may function as a hinge which facilitates the tilt of the cytoplasmic portion of the F-helix in bacteriorhodopsin during the M-->N transition.

Published

1995

34. Site-directed isotope labelling and FTIR spectroscopy of bacteriorhodopsin

Author

Uttam L. RajBhandary, Sanjay M. Sonar, Xiao-Mei Liu, Nilam Patel, Matthew A. Coleman, Kenneth J. Rothschild, H. Gobind Khorana, Chan Ping Lee, and T Marti

Subjects

Halobacterium salinarum, Models, Molecular, Protein Folding, Infrared, Protein Conformation, Protonation, Sulfur Radioisotopes, Tritium, Biochemistry, Suppression, Genetic, Structural Biology, Labelling, Spectroscopy, Fourier Transform Infrared, Genetics, Fourier transform infrared spectroscopy, Spectroscopy, Codon, Integral membrane protein, biology, Isotope, Cell-Free System, Chemistry, Bacteriorhodopsin, Deuterium, Crystallography, RNA, Transfer, Tyr, Bacteriorhodopsins, Isotope Labeling, biology.protein, Mutagenesis, Site-Directed, Tyrosine

Abstract

Insight into integral membrane proteins function is presently limited by the difficulty of producing three-dimensional crystals. In addition, X-ray structures of proteins normally do not provide information about the protonation state and structural changes of individual residues. We report here the first use of site-directed isotope labelling and Fourier transform infrared (FTIR) difference spectroscopy to detect structural changes at the level of single residues in an integral membrane protein. Two site-directed isotope labeled (SDIL) tyrosine analogues of bacteriorhodopsin were produced which exhibit normal activity. FTIR spectroscopy shows that out of 11 tyrosines, only Tyr 185 is structurally active during the early photocycle and may be part of a proton wire.

Published

1994

35. Site-Directed Isotope Labeling and FT-IR Spectroscopy: The Tyr 185/Pro 186 Peptide Bond of Bacteriorhodopsin Is Perturbed during the Primary Photoreaction

Author

Yi-Wu He, Judith Herzfeld, Sanjay M. Sonar, Xiao-Mei Liu, Matthew A. Coleman, Uttam L. RajBhandary, Sandra Pelletier, Kenneth J. Rothschild, and Chan-Ping Lee

Subjects

Colloid and Surface Chemistry, Primary (chemistry), Isotope, biology, Chemistry, biology.protein, Ft ir spectroscopy, Peptide bond, Bacteriorhodopsin, General Chemistry, Photochemistry, Biochemistry, Catalysis

Published

1995

36. Hyperalimentation as cause of markedly worsened metabolic control in a patient with autoantibodies to the insulin receptor

Author

David L. Vesely, Sharilyn Stanley, Matthew J. Coleman, Richard M. Jordan, and Peter O. Kohler

Subjects

Adult, Blood Glucose, medicine.medical_specialty, Time Factors, Tolbutamide, medicine.medical_treatment, Insulin resistance, Prednisone, Internal medicine, medicine, Humans, Insulin, Acanthosis Nigricans, Cyclophosphamide, Acanthosis nigricans, Autoantibodies, biology, business.industry, Autoantibody, General Medicine, medicine.disease, Receptor, Insulin, Insulin receptor, Endocrinology, Hyperglycemia, Metabolic control analysis, biology.protein, Female, Parenteral Nutrition, Total, Insulin Resistance, business, medicine.drug

Abstract

Patients with type B insulin resistance and acanthosis nigricans have autoantibodies to their insulin receptors and usually have signs and symptoms of other autoimmune diseases. The first case demonstrating that hyperalimentation markedly disturbs blood glucose control in type B insulin-resistant patients is described. Neither prednisone, insulin (up to 240 units per hour), nor tolbutamide appeared to help this patient's metabolic control. After the addition of cyclophosphamide for one week, the anti-insulin receptor auto-antibody titer dropped from greater than 1: 1,000 to 1: 1. Six months later, the patient had a complete remission, which is rare, with only three other reported remissions in these patients with type B insulin resistance.

Published

1985

37. Cytokine abundance in placental tissues: Evidence of inflammatory activation in gestational membranes with term and preterm parturition

Author

Jeffrey A. Keelan, Timothy A. Sato, Matthew A.G. Coleman, K.W. Marvin, Lesley M. E. McCowan, and Murray D. Mitchell

Subjects

medicine.medical_specialty, Amniotic fluid, Placenta, Physiology, Obstetric Labor, Premature, Pregnancy, medicine, Humans, Interleukin 6, reproductive and urinary physiology, Inflammation, Labor, Obstetric, Amnion, biology, Interleukin-6, Obstetrics, business.industry, Interleukin-8, Decidua, Obstetrics and Gynecology, Interleukin, medicine.disease, medicine.anatomical_structure, biology.protein, Cytokines, Gestation, Female, business, Interleukin-1

Abstract

This study of the changes in cytokine concentrations in gestational tissues from women with term and preterm labor was undertaken to assess the extent of inflammatory activation associated with spontaneous labor and delivery.Extracts of amniotic, chorionic-decidual, and placental tissues from women delivered at term before labor (n = 15), at term after labor (n = 15), and preterm (n = 31) were assayed for interleukin 1beta, interleukin 6, and interleukin 8.In amniotic tissues of women delivered by spontaneous labor at term the median interleukin-6, interleukin-8, and interleukin-1beta concentrations were 3.8 to 5.4 times those of tissues from women delivered at term without labor (P.05, Mann-Whitney U test). Interleukin-6 and interleukin-8 concentrations were also significantly increased (3. 3-4 times) in chorionic-decidual tissues. Marked increases (approximately 3-6 times) in the concentrations of all 3 cytokines were observed in both amniotic and chorionic-decidual tissues from women with preterm deliveries with respect to those from women with term deliveries after labor. Cytokine concentrations were significantly correlated within amniotic tissues from both women with term delivery after labor and women with preterm delivery and also in preterm chorionic-decidual tissues but not preterm placental tissues. Concentrations of cytokines in the tissues of women delivered preterm were not significantly affected by mode of delivery, treatment with antibiotics, or twin birth. In preterm tissues with evidence of intrauterine infection only amniotic interleukin-1beta concentrations were significantly elevated (P. 05). Little or no labor-related change in cytokine concentrations was seen within placental tissues.Increased cytokine abundance in gestational membranes associated with labor supports the view that an inflammatory process is involved in both term and preterm labor. This process does not, however, appear to be evident in the villous placenta.