Your search keyword '"Koller, Antonius"' showing total 14 results

1. Proteomic characterization of mucosal secretions in the eastern oyster, Crassostrea virginica

Author

Pales Espinosa, Emmanuelle, Koller, Antonius, and Allam, Bassem

Published

2016

2. Novel photocatalytic applications of sub-nanometer gold particles for environmental liquid and gas phase reactions

Author

Zhao, Shen, Ramakrishnan, Girish, Su, Dong, Rieger, Robert, Koller, Antonius, and Orlov, Alexander

Published

2011

3. The functional proteomics toolbox: methods and applications

Author

Hunter, Thomas C., Andon, Nancy L., Koller, Antonius, Yates, John R., III, and Haynes, Paul A.

Published

2002

4. Ceramide Is Metabolized to Acylceramide and Stored in Lipid Droplets.

Author

Senkal, Can E., Salama, Mohamed F., Snider, Ashley J., Allopenna, Janet J., Rana, Nadia A., Koller, Antonius, Hannun, Yusuf A., and Obeid, Lina M.

Abstract

Summary In an approach aimed at defining interacting partners of ceramide synthases (CerSs), we found that fatty acyl-CoA synthase ACSL5 interacts with all CerSs. We demonstrate that ACSL5-generated FA-CoA was utilized with de novo ceramide for the generation of acylceramides, poorly studied ceramide metabolites. Functionally, inhibition of ceramide channeling to acylceramide enhanced accumulation of de novo ceramide and resulted in augmentation of ceramide-mediated apoptosis. Mechanistically, we show that acylceramide generation is catalyzed by diacylglycerol acyltransferase 2 (DGAT2) on lipid droplets. In summary, this study identifies a metabolic pathway of acylceramide generation and its sequestration in LDs in cells and in livers of mice on a high-fat diet. The study also implicates this pathway in ceramide-mediated apoptosis, and has implications in co-regulation of triglyceride and sphingolipid metabolisms. [ABSTRACT FROM AUTHOR]

Published

2017

5. Identifying Urinary and Serum Exosome Biomarkers for Radiation Exposure Using a Data Dependent Acquisition and SWATH-MS Combined Workflow.

Author

Kulkarni, Shilpa, Koller, Antonius, Mani, Kartik M., Wen, Ruofeng, Alfieri, Alan, Saha, Subhrajit, Wang, Jian, Patel, Purvi, Bandeira, Nuno, Guha, Chandan, and Chen, Emily I.

Subjects

*BLOOD serum analysis, *EXOSOMES, *BIOMARKERS, *URINALYSIS, *RADIATION injuries, *BODY fluids, *ANIMAL experimentation, *BIOLOGICAL assay, *MICE, *RADIATION doses, *RADIATION measurements, *RESEARCH funding, *SYSTEM analysis, *PROTEOMICS, *PILOT projects, RESEARCH evaluation

Abstract

Purpose: Early and accurate assessment of radiation injury by radiation-responsive biomarkers is critical for triage and early intervention. Biofluids such as urine and serum are convenient for such analysis. Recent research has also suggested that exosomes are a reliable source of biomarkers in disease progression. In the present study, we analyzed total urine proteome and exosomes isolated from urine or serum for potential biomarkers of acute and persistent radiation injury in mice exposed to lethal whole body irradiation (WBI).Methods and Materials: For feasibility studies, the mice were irradiated at 10.4 Gy WBI, and urine and serum samples were collected 24 and 72 hours after irradiation. Exosomes were isolated and analyzed using liquid chromatography mass spectrometry/mass spectrometry-based workflow for radiation exposure signatures. A data dependent acquisition and SWATH-MS combined workflow approach was used to identify significantly exosome biomarkers indicative of acute or persistent radiation-induced responses. For the validation studies, mice were exposed to 3, 6, 8, or 10 Gy WBI, and samples were analyzed for comparison.Results: A comparison between total urine proteomics and urine exosome proteomics demonstrated that exosome proteomic analysis was superior in identifying radiation signatures. Feasibility studies identified 23 biomarkers from urine and 24 biomarkers from serum exosomes after WBI. Urinary exosome signatures identified different physiological parameters than the ones obtained in serum exosomes. Exosome signatures from urine indicated injury to the liver, gastrointestinal, and genitourinary tracts. In contrast, serum showed vascular injuries and acute inflammation in response to radiation. Selected urinary exosomal biomarkers also showed changes at lower radiation doses in validation studies.Conclusions: Exosome proteomics revealed radiation- and time-dependent protein signatures after WBI. A total of 47 differentially secreted proteins were identified in urinary and serum exosomes. Together, these data showed the feasibility of defining biomarkers that could elucidate tissue-associated and systemic response caused by high-dose ionizing radiation. This is the first report using an exosome proteomics approach to identify radiation signatures. [ABSTRACT FROM AUTHOR]

Published

2016

6. Initial Steps in RNA Processing and Ribosome Assembly Occur at Mitochondrial DNA Nucleoids.

Author

Bogenhagen, Daniel F., Martin, Dwight W., and Koller, Antonius

Abstract

Summary: Mammalian mitochondrial DNA (mtDNA) resides in compact nucleoids, where it is replicated and transcribed into long primary transcripts processed to generate rRNAs, tRNAs, and mRNAs encoding 13 proteins. This situation differs from bacteria and eukaryotic nucleoli, which have dedicated rRNA transcription units. The assembly of rRNAs into mitoribosomes has received little study. We show that mitochondrial RNA processing enzymes involved in tRNA excision, ribonuclease P (RNase P) and ELAC2, as well as a subset of nascent mitochondrial ribosomal proteins (MRPs) associate with nucleoids to initiate RNA processing and ribosome assembly. SILAC pulse-chase labeling experiments show that nascent MRPs recruited to the nucleoid fraction were highly labeled after the pulse in a transcription-dependent manner and decreased in labeling intensity during the chase. These results provide insight into the landscape of binding events required for mitochondrial ribosome assembly and firmly establish the mtDNA nucleoid as a control center for mitochondrial biogenesis. [Copyright &y& Elsevier]

Published

2014

7. Keratin 17 in premalignant and malignant squamous lesions of the cervix: proteomic discovery and immunohistochemical validation as a diagnostic and prognostic biomarker.

Author

Escobar-Hoyos, Luisa F, Yang, Jie, Zhu, Jiawen, Cavallo, Julie-Ann, Zhai, Haiyan, Burke, Stephanie, Koller, Antonius, Chen, Emily I, and Shroyer, Kenneth R

Published

2014

8. Factors influencing the assimilation of arsenic in a deposit-feeding polychaete

Author

Baumann, Zofia, Koller, Antonius, and Fisher, Nicholas S.

Subjects

*ARSENIC in the body, *POLYCHAETA, *RADIOACTIVE tracers, *SERUM albumin, *GEL electrophoresis, *MASS spectrometry, *ORGANIC compounds

Abstract

Abstract: We investigated mechanisms leading to the assimilation of particle-bound arsenic (As) ingested by the deposit-feeding polychaete Alitta succinea using a radiotracer approach. The release of As from different particle types into extracted gut fluid or bovine serum albumin (BSA), a gut fluid mimic, was measured. In addition, gut fluid proteins were analyzed by separating proteins via 2D gel electrophoresis, and protein peptide sequences were determined by mass spectrometry. Major ions in the gut fluid were measured by ion chromatography and metals by mass spectrometry. Percentages of particulate As release were related to As assimilation efficiencies (AEs) in polychaetes feeding on different particle types. AEs of As were highest from radiolabeled pure diatoms (72%) and radiolabeled diatoms added to sediment (51%), lower from radiolabeled sediment (10%), and lowest from a radiolabeled iron oxide mineral, goethite (2%). It appears that As release from particles is a necessary but not sufficient requirement of As assimilation. For example, 15% of As was released from goethite into the gut fluid but only 2% was assimilated by A. succinea. Our results suggest that the likelihood of As assimilation is higher when it is bound to an organic compound of nutritional value in the ingested particles. [Copyright &y& Elsevier]

Published

2012

9. Characterisation of the secretome of the clam parasite, QPX.

Author

Rubin, Ewelina, Pales Espinosa, Emmanuelle, Koller, Antonius, and Allam, Bassem

Subjects

*MOLLUSK parasites, *ORGANIC compounds, *NORTHERN quahog, *CELL surface antigens, *DISEASE progression, *HOST-parasite relationships, *MICROBIAL invasiveness

Abstract

Secreted and cell surface-associated molecules play a major role in disease development processes and host-pathogen interactions, and usually determine the virulence of invading organisms. In this study, we investigated proteins secreted by quahog parasite unknown, a thraustochytrid protist that infects the hard clam, Mercenaria mercenaria . In silico analysis of quahog parasite unknown transcripts predicted over 1200 proteins to possess an amino-terminal signal peptide which directs proteins into the classical eukaryotic secretory pathway. Proteomic analysis using LC/MS technology identified 56 proteins present in the extracellular secretion of quahog parasite unknown cells grown in vitro, including six mucin-like molecules, four glycosyl hydrolases and eight peptidases. Transcription levels of 19 quahog parasite unknown extracellular proteins were investigated in clam tissue lesions (in vivo) using quantitative PCR. The overexpression of six of these extracellular proteins in clam tissues compared with in vitro cultures suggests that they are involved in interaction with the clam host. [ABSTRACT FROM AUTHOR]

Published

2015

10. Elucidation of proteostasis defects caused by osteogenesis imperfecta mutations in the collagen-α2(I) C-propeptide domain.

Author

Doan, Ngoc-Duc, Hosseini, Azade S., Bikovtseva, Agata A., Huang, Michelle S., DiChiara, Andrew S., Papa III, Louis J., Koller, Antonius, and Shoulders, Matthew D.

Subjects

*OSTEOGENESIS imperfecta, *QUALITY control, *PROTEOMICS, *COLLAGEN, *ENDOPLASMIC reticulum

Abstract

Intracellular collagen assembly begins with the oxidative folding of ~30-kDa C-terminal propeptide (C-Pro) domains. Folded C-Pro domains then template the formation of triple helices between appropriate partner strands. Numerous CPro missense variants that disrupt or delay triple-helix formation are known to cause disease, but our understanding of the specific proteostasis defects introduced by these variants remains immature. Moreover, it is unclear whether or not recognition and quality control of misfolded C-Pro domains is mediated by recognizing stalled assembly of triple-helical domains or by direct engagement of the C-Pro itself. Here, we integrate biochemical and cellular approaches to illuminate the proteostasis defects associated with osteogenesis imperfecta- causing mutations within the collagen-α2(I) C-Pro domain. We first show that "C-Pro-only" constructs recapitulate key aspects of the behavior of full-length Colα2(I) constructs. Of the variants studied, perhaps the most severe assembly defects are associated with C1163R C-Proα2(I), which is incapable of forming stable trimers and is retained within cells. We find that the presence or absence of an unassembled triple- helical domain is not the key feature driving cellular retention versus secretion. Rather, the proteostasis network directly engages the misfolded C-Pro domain itself to prevent secretion and initiate clearance. Using MS-based proteomics, we elucidate how the endoplasmic reticulum (ER) proteostasis network differentially engages misfolded C1163R C-Proα2(I) and targets it for ER-associated degradation. These results provide insights into collagen folding and quality control with the potential to informthe design of proteostasis network-targeted strategies for managing collagenopathies. [ABSTRACT FROM AUTHOR]

Published

2020

11. Serum exosomal protein profiling for the non-invasive detection of cardiac allograft rejection.

Author

Kennel, Peter J., Saha, Amit, Maldonado, Dawn A., Givens, Raymond, Brunjes, Danielle L., Castillero, Estibaliz, Zhang, Xiaokan, Ji, Ruiping, Yahi, Alexandre, George, Isaac, Mancini, Donna M., Koller, Antonius, Fine, Barry, Zorn, Emmanuel, Colombo, Paolo C., Tatonetti, Nicholas, Chen, Emily I., and Schulze, P. Christian

Subjects

*CARDIAC surgery, *BLOOD proteins, *EXOSOMES, *NONINVASIVE diagnostic tests, *GRAFT rejection, *HEART transplantation

Abstract

Background Exosomes are cell-derived circulating vesicles that play an important role in cell–cell communication. Exosomes are actively assembled and carry messenger RNAs, microRNAs and proteins. The “gold standard” for cardiac allograft surveillance is endomyocardial biopsy (EMB), an invasive technique with a distinct complication profile. The development of novel, non-invasive methods for the early diagnosis of allograft rejection is warranted. We hypothesized that the exosomal proteome is altered in acute rejection, allowing for a distinction between non-rejection and rejection episodes. Methods Serum samples were collected from heart transplant (HTx) recipients with no rejection, acute cellular rejection (ACR) and antibody-mediated rejection (AMR). Liquid chromatography–tandem mass spectrometry (LC-MS/MS) analysis of serum exosome was performed using a mass spectrometer (Orbitrap Fusion Tribrid). Results Principal component analysis (PCA) revealed a clustering of 3 groups: (1) control and heart failure (HF); (2) HTx without rejection; and (3) ACR and AMR. A total of 45 proteins were identified that could distinguish between groups ( q < 0.05). Comparison of serum exosomal proteins from control, HF and non-rejection HTx revealed 17 differentially expressed proteins in at least 1 group ( q < 0.05). Finally, comparisons of non-rejection HTx, ACR and AMR serum exosomes revealed 15 differentially expressed proteins in at least 1 group ( q < 0.05). Of these 15 proteins, 8 proteins are known to play a role in the immune response. Of note, the majority of proteins identified were associated with complement activation, adaptive immunity such as immunoglobulin components and coagulation. Conclusions Characterizing of circulating exosomal proteome in different cardiac disease states reveals unique protein expression patterns indicative of the respective pathologies. Our data suggest that HTx and allograft rejection alter the circulating exosomal protein content. Exosomal protein analysis could be a novel approach to detect and monitor acute transplant rejection and lead to the development of predictive and prognostic biomarkers. [ABSTRACT FROM AUTHOR]

Published

2018

12. A Novel Link between Fic (Filamentation Induced by cAMP)-mediated Adenylylation/AMPylation and the Unfolded Protein Response.

Author

Sanyal, Anwesha, Chen, Andy J., Nakayasu, Ernesto S., Lazar, Cheri S., Zbornik, Erica A., Worby, Carolyn A., Koller, Antonius, and Mattoo, Seema

Subjects

*ENDOPLASMIC reticulum, *HOMEOSTASIS, *CYCLIC adenylic acid, *CELL determination, *CELLULAR signal transduction, *GENE expression

Abstract

The maintenance of endoplasmic reticulum (ER) homeostasis is a critical aspect of determining cell fate and requires a properly functioning unfolded protein response (UPR).Wehave discovered a previously unknown role of a post-translational modification termed adenylylation/AMPylation in regulating signal transduction events during UPR induction. A family of enzymes, defined by the presence of a Fic (filamentation induced by cAMP) domain, catalyzes this adenylylation reaction.Thehumangenome encodes a single Fic protein, called HYPE (Huntingtin yeast interacting protein E), with adenylyltransferase activity but unknown physiological target(s). Here, we demonstrate that HYPE localizes to the lumen of the endoplasmic reticulum via its hydrophobic N terminus and adenylylates the ER molecular chaperone, BiP, at Ser-365 and Thr-366. BiP functions as a sentinel for protein misfolding and maintains ER homeostasis. We found that adenylylation enhances BiP's ATPase activity, which is required for refolding misfolded proteins while coping with ER stress. Accordingly, HYPE expression levels increase upon stress. Furthermore, siRNA-mediated knockdown of HYPE prevents the induction of an unfolded protein response. Thus, we identify HYPE as a new UPR regulator and provide the first functional data for Fic-mediated adenylylation in mammalian signaling. [ABSTRACT FROM AUTHOR]

Published

2015

13. ChChd3, an Inner Mitochondrial Membrane Protein, Is Essential for Maintaining Crista Integrity and Mitochondrial Function.

Author

Darshi, Manjula, Mendiola, Vincent L., Mackey, Mason R., Murphy, Anne N., Koller, Antonius, Perkins, Guy A., Ellisman, Mark H., and Taylor, Susan S.

Subjects

*MITOCHONDRIA, *MITOCHONDRIAL membranes, *MEMBRANE proteins, *CHEMICAL reactions, *PHOTOSYNTHETIC oxygen evolution, *CANCER cells

Abstract

The mitochondrial inner membrane (IM) serves as the site for ATP production by hosting the oxidative phosphorylation complex machinery most notably on the crista membranes. Disruption of the crista structure has been implicated in a variety of cardiovascular and neurodegenerative diseases. Here, we characterize ChChd3, a previously identified PKA substrate of unknown function (Schauble, S., King, C. C., Darshi, M., Koller, A., Shah, K., and Taylor, S. S. (2007) J. Biol. Chem. 282, 14952-14959), and show that it is essential for maintaining crista integrity and mitochondrial function. In the mitochondria, ChChd3 is a peripheral protein of the IM facing the intermembrane space. RNAi knockdown of ChChd3 in HeLa cells resulted in fragmented mitochondria, reduced OPA1 protein levels and impaired fusion, and clustering of the mitochondria around the nucleus along with reduced growth rate. Both the oxygen consumption and glycolytic rates were severely restricted. Ultrastructural analysis of these cells revealed aberrant mitochondrial IM structures with fragmented and tubular cristae or loss of cristae, and reduced crista membrane. Additionally, the crista junction opening diameter was reduced to 50% suggesting remodeling of cristae in the absence of ChChd3. Analysis of the ChChd3-binding proteins revealed that ChChd3 interacts with the IM proteins mitofilin and OPA1, which regulate crista morphology, and the outer membrane protein Sam50, which regulates import and assembly of β-barrel proteins on the outer membrane. Knockdown of ChChd3 led to almost complete loss of both mitofilin and Sam50 proteins and alterations in several mitochondrial proteins, suggesting that ChChd3 is a scaffolding protein that stabilizes protein complexes involved in maintaining crista architecture and protein import and is thus essential for maintaining mitochondrial structure and function. [ABSTRACT FROM AUTHOR]

Published

2011

14. Identification of ChChd3 as a Novel Substrate of the cAMP-dependent Protein Kinase (PKA) Using an Analog-sensitive Catalytic Subunit.

Author

Schauble, Sharmin, King, Charles C., Darshi, Manjula, Koller, Antonius, Shah, Kavita, and Taylor, Susan S.

Subjects

*PROTEIN kinases, *METHIONINE, *BIOCHEMICAL genetics, *THIAMIN pyrophosphate, *PHOSPHORYLATION

Abstract

Due to the numerous kinases in the cell, many with overlap- ping substrates, it is difficult to find novel substrates for a specific kinase. To identify novel substrates of cAMP-dependent protein kinase (PKA), the PKA catalytic subunit was engineered to accept bulky N6-substituted ATP analogs, using a chemical genetics approach initially pioneered with v-Src (1). Methionine 120 was mutated to glycine in the ATP-binding pocket of the catalytic subunit. To express the stable mutant C-subunit in Escherichia coli required co-expression with PDK1. This mutant protein was active and fully phosphorylated on Thr197 and Ser338. Based on its kinetic properties, the engineered C-subunit preferred N6(benzyl)-ATP and N6(phenethyl)-ATP over other ATP analogs, but still retained a 30 µM Km for ATP. This mutant recombinant C-subunit was used to identify three novel PKA substrates. One protein, a novel mitochondrial ChChd protein, ChChd3, was identified, suggesting that PKA may regulate mitochondria proteins. [ABSTRACT FROM AUTHOR]

Published

2007