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1,687 results on '"Knepper, Mark A."'

2. Single-Nucleus RNA Sequencing Reveals Loss of Distal Convoluted Tubule 1 Renal Tubules in HIV Viral Protein R Transgenic Mice

Author

Latt, Khun Zaw, Yoshida, Teruhiko, Shrivastav, Shashi, Abedini, Amin, Reece, Jeff M., Sun, Zeguo, Lee, Hewang, Okamoto, Koji, Dagur, Pradeep, Ishimoto, Yu, Heymann, Jurgen, Zhao, Yongmei, Chung, Joon-Yong, Hewitt, Stephen, Jose, Pedro A., Lee, Kyung, He, John Cijiang, Winkler, Cheryl A., Knepper, Mark A., Kino, Tomoshige, Rosenberg, Avi Z., Susztak, Katalin, and Kopp, Jeffrey B.

Published
2024
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9. Guidelines on antibody use in physiology research

Author

Brooks, Heddwen L., primary, de Castro Brás, Lisandra E., additional, Brunt, Keith R., additional, Sylvester, Megan A., additional, Parvatiyar, Michelle S., additional, Sirish, Padmini, additional, Bansal, Shyam S., additional, Sule, Rasheed, additional, Eadie, Ashley L., additional, Knepper, Mark A., additional, Fenton, Robert A., additional, Lindsey, Merry L., additional, DeLeon-Pennell, Kristine Y., additional, and Gomes, Aldrin V., additional

Published
2024
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11. Proteomics and AQP2 regulation.

Author

Yang, Chin‐Rang, Park, Euijung, Chen, Lihe, Datta, Arnab, Chou, Chung‐Lin, and Knepper, Mark A.

Subjects
PROTEOMICS, SYSTEMS biology, BIOINFORMATICS, MASS spectrometry, PHOSPHORYLATION
Abstract

The advent of modern quantitative protein mass spectrometry techniques around the turn of the 21st century has contributed to a revolution in biology referred to as 'systems biology'. These methods allow identification and quantification of thousands of proteins in a biological specimen, as well as detection and quantification of post‐translational protein modifications including phosphorylation. Here, we discuss these methodologies and show how they can be applied to understand the effects of the peptide hormone vasopressin to regulate the molecular water channel aquaporin‐2. The emerging picture provides a detailed framework for understanding the molecular mechanisms involved in water balance disorders. [ABSTRACT FROM AUTHOR]

Published
2024
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12. 'Aquaporin‐omics': mechanisms of aquaporin‐2 loss in polyuric disorders.

Author

Mak, Angela, Sung, Chih‐Chien, Pisitkun, Trairak, Khositseth, Sookkasem, and Knepper, Mark A.

Subjects
AQUAPORINS, ANIMAL models in research, PROTEOMICS, INFLAMMATION, PATHOLOGY
Abstract

Animal models of a variety of acquired nephrogenic diabetes insipidus (NDI) disorders have identified a common feature: all such models are associated with the loss of aquaporin‐2 (AQP2) from collecting duct principal cells, explaining the associated polyuria. To discover mechanisms of AQP2 loss, previous investigators have carried out either transcriptomics (lithium‐induced NDI, unilateral ureteral obstruction, endotoxin‐induced NDI) or proteomics (hypokalaemia‐associated NDI, hypercalcaemia‐associated NDI, bilateral ureteral obstruction), yielding contrasting views. Here, to address whether there may be common mechanisms underlying loss of AQP2 in acquired NDI disorders, we have used bioinformatic data integration techniques to combine information from all transcriptomic and proteomic data sets. The analysis reveals roles for autophagy/apoptosis, oxidative stress and inflammatory signalling as key elements of the mechanism that results in loss of AQP2. These processes can cause AQP2 loss through the combined effects of repression of Aqp2 gene transcription, generalized translational repression, and increased autophagic degradation of proteins including AQP2. Two possible types of stress‐sensor proteins, namely death receptors and stress‐sensitive protein kinases of the EIF2AK family, are discussed as potential triggers for signalling processes that result in loss of AQP2. Key points: Prior studies have shown in a variety of animal models of acquired nephrogenic diabetes insipidus (NDI) that loss of the aquaporin‐2 (AQP2) protein is a common feature.Investigations of acquired NDI using transcriptomics (RNA‐seq) and proteomics (protein mass spectrometry) have led to differing conclusions regarding mechanisms of AQP2 loss.Bioinformatic integration of transcriptomic and proteomic data from these prior studies now reveals that acquired NDI models map to three core processes: oxidative stress, apoptosis/autophagy and inflammatory signalling.These processes cause loss of AQP2 through translational repression, accelerated degradation of proteins, and transcriptional repression. [ABSTRACT FROM AUTHOR]

Published
2024
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14. An Efficient Algorithm for Clustering of Large-Scale Mass Spectrometry Data

Author

Saeed, Fahad, Pisitkun, Trairak, Knepper, Mark A., and Hoffert, Jason D.

Subjects
Computer Science - Data Structures and Algorithms, Quantitative Biology - Genomics, Quantitative Biology - Quantitative Methods
Abstract

High-throughput spectrometers are capable of producing data sets containing thousands of spectra for a single biological sample. These data sets contain a substantial amount of redundancy from peptides that may get selected multiple times in a LC-MS/MS experiment. In this paper, we present an efficient algorithm, CAMS (Clustering Algorithm for Mass Spectra) for clustering mass spectrometry data which increases both the sensitivity and confidence of spectral assignment. CAMS utilizes a novel metric, called F-set, that allows accurate identification of the spectra that are similar. A graph theoretic framework is defined that allows the use of F-set metric efficiently for accurate cluster identifications. The accuracy of the algorithm is tested on real HCD and CID data sets with varying amounts of peptides. Our experiments show that the proposed algorithm is able to cluster spectra with very high accuracy in a reasonable amount of time for large spectral data sets. Thus, the algorithm is able to decrease the computational time by compressing the data sets while increasing the throughput of the data by interpreting low S/N spectra., Comment: 4 pages, 4 figures, Bioinformatics and Biomedicine (BIBM), 2012 IEEE International Conference on

Published
2013
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15. Mining Temporal Patterns from iTRAQ Mass Spectrometry(LC-MS/MS) Data

Author

Saeed, Fahad, Pisitkun, Trairak, Knepper, Mark A., and Hoffert, Jason D.

Subjects
Quantitative Biology - Quantitative Methods, Computer Science - Computational Engineering, Finance, and Science, Computer Science - Databases, Computer Science - Data Structures and Algorithms, Quantitative Biology - Molecular Networks
Abstract

Large-scale proteomic analysis is emerging as a powerful technique in biology and relies heavily on data acquired by state-of-the-art mass spectrometers. As with any other field in Systems Biology, computational tools are required to deal with this ocean of data. iTRAQ (isobaric Tags for Relative and Absolute quantification) is a technique that allows simultaneous quantification of proteins from multiple samples. Although iTRAQ data gives useful insights to the biologist, it is more complex to perform analysis and draw biological conclusions because of its multi-plexed design. One such problem is to find proteins that behave in a similar way (i.e. change in abundance) among various time points since the temporal variations in the proteomics data reveal important biological information. Distance based methods such as Euclidian distance or Pearson coefficient, and clustering techniques such as k-mean etc, are not able to take into account the temporal information of the series. In this paper, we present an linear-time algorithm for clustering similar patterns among various iTRAQ time course data irrespective of their absolute values. The algorithm, referred to as Temporal Pattern Mining(TPM), maps the data from a Cartesian plane to a discrete binary plane. After the mapping a dynamic programming technique allows mining of similar data elements that are temporally closer to each other. The proposed algorithm accurately clusters iTRAQ data that are temporally closer to each other with more than 99% accuracy. Experimental results for different problem sizes are analyzed in terms of quality of clusters, execution time and scalability for large data sets. An example from our proteomics data is provided at the end to demonstrate the performance of the algorithm and its ability to cluster temporal series irrespective of their distance from each other., Comment: 12 pages, 10 figures, The Proceedings of the ISCA 3rd International Conference on Bioinformatics and Computational Biology (BiCoB), pp 152-159 New Orleans, Louisiana, USA, March 23-25, 2011 (ISBN: 978-1-880843-81-9)

Published
2011

16. Guidelines on antibody use in physiology research.

Author

Brooks, Heddwen L., de Castro Brás, Lisandra E., Brunt, Keith R., Sylvester, Megan A., Parvatiyar, Michelle S., Sirish, Padmini, Bansal, Shyam S., Sule, Rasheed, Eadie, Ashley L., Knepper, Mark A., Fenton, Robert A., Lindsey, Merry L., DeLeon-Pennell, Kristine Y., and Gomes, Aldrin V.

Abstract

Antibodies are one of the most used reagents in scientific laboratories and are critical components for a multitude of experiments in physiology research. Over the past decade, concerns about many biological methods, including those that use antibodies, have arisen as several laboratories were unable to reproduce the scientific data obtained in other laboratories. The lack of reproducibility could be largely attributed to inadequate reporting of detailed methods, no or limited verification by authors, and the production and use of unvalidated antibodies. The goal of this guideline article is to review best practices concerning commonly used techniques involving antibodies, including immunoblotting, immunohistochemistry, and flow cytometry. Awareness and integration of best practices will increase the rigor and reproducibility of these techniques and elevate the quality of physiology research. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Collecting duct water permeability inhibition by EGF is associated with decreased cAMP, PKA activity, and AQP2 phosphorylation at Ser269.

Author

Chung-Lin Chou, Limbutara, Kavee, Kao, Anika R., Clark, Jevin Z., Nein, Ellen H., Raghuram, Viswanathan, and Knepper, Mark A.

Abstract

Prior studies showed that epidermal growth factor (EGF) inhibits vasopressin-stimulated osmotic water permeability in the renal collecting duct. Here, we investigated the underlying mechanism. Using isolated perfused rat inner medullary collecting ducts (IMCDs), we found that the addition of EGF to the peritubular bath significantly decreased 1-deamino-8-D-arginine vasopressin (dDAVP)-stimulated water permeability, confirming prior observations. The inhibitory effect of EGF on water permeability was associated with a reduction in intracellular cAMP levels and protein kinase A (PKA) activity. Using phospho-specific antibodies and immunoblotting in IMCD suspensions, we showed that EGF significantly reduces phosphorylation of AQP2 at Ser264 and Ser269. This effect was absent when 8-cpt-cAMP was used to induce AQP2 phosphorylation, suggesting that EGF's inhibitory effect was at a pre-cAMP step. Immunofluorescence labeling of microdissected IMCDs showed that EGF significantly reduced apical AQP2 abundance in the presence of dDAVP. To address what protein kinase might be responsible for Ser269 phosphorylation, we used Bayesian analysis to integrate multiple-omic datasets. Thirteen top-ranked protein kinases were subsequently tested by in vitro phosphorylation experiments for their ability to phosphorylate AQP2 peptides using a mass spectrometry readout. The results show that the PKA catalytic-a subunit increased phosphorylation at Ser256, Ser264, and Ser269. None of the other kinases tested phosphorylated Ser269. In addition, H-89 and PKI strongly inhibited dDAVP-stimulated AQP2 phosphorylation at Ser269. These results indicate that EGF decreases the water permeability of the IMCD by inhibiting cAMP production, thereby inhibiting PKA and decreasing AQP2 phosphorylation at Ser269, a site previously shown to regulate AQP2 endocytosis. [ABSTRACT FROM AUTHOR]

Published
2024
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27. Vasopressin V2 receptor, tolvaptan, and ERK1/2 phosphorylation in the renal collecting duct.

Author

Khan, Shaza, Raghuram, Viswanathan, Lihe Chen, Chung-Lin Chou, Chin-Rang Yang, Khundmiri, Syed J., and Knepper, Mark A.

Subjects
VASOPRESSIN, POLYCYSTIC kidney disease, PHOSPHORYLATION, GENE expression, PROTEIN kinases
Abstract

Tolvaptan, a vasopressin antagonist selective for the V2-subtype vasopressin receptor (V2R), is widely used in the treatment of hyponatremia and autosomal-dominant polycystic kidney disease (ADPKD). Its effects on signaling in collecting duct cells have not been fully characterized. Here, we perform RNA-seq in a collecting duct cell line (mpkCCD). The data show that tolvaptan inhibits the expression of mRNAs that were previously shown to be increased in response to vasopressin including aquaporin-2, but also reveals mRNA changes that were not readily predictable and suggest off-target actions of tolvaptan. One such action is activation of the MAPK kinase (ERK1/ERK2) pathway. Prior studies have shown that ERK1/ERK2 activation is essential in the regulation of a variety of cellular and physiological processes and can be associated with cell proliferation. In immunoblotting experiments, we demonstrated that ERK1/ERK2 phosphorylation in mpkCCD cells was significantly reduced by vasopressin, in contrast to the increases seen in non-collecting-duct cells overexpressing V2R in prior studies. We also found that tolvaptan has a strong effect to increase ERK1/ERK2 phosphorylation in the presence of vasopressin and that tolvaptan's effect to increase ERK1/ERK2 phosphorylation is absent in mpkCCD cells in which both protein kinase A (PKA)-catalytic subunits have been deleted. Thus, it appears that the tolvaptan effect to increase ERK activation is PKA-dependent and is not due to an off-target effect of tolvaptan. We conclude that in cells expressing V2R at endogenous levels: 1) vasopressin decreases ERK1/ERK2 activation; 2) in the presence of vasopressin, tolvaptan increases ERK1/ERK2 activation; and 3) these effects are PKA-dependent. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Vasopressin and oxytocin receptors in GtoPdb v.2023.1

Author

Bichet, Daniel, primary, Bouvier, Michel, primary, Chini, Bice, primary, Gimpl, Gerald, primary, Guillon, Gilles, primary, Kimura, Tadashi, primary, Knepper, Mark, primary, Lolait, Stephen, primary, Manning, Maurice, primary, Mouillac, Bernard, primary, O'Carroll, Anne-Marie, primary, Serradeil-Le Gal, Claudine, primary, Soloff, Melvyn, primary, Verbalis, Joseph G., primary, Wheatley, Mark, primary, and Zingg, Hans H., primary

Published
2023
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33. Circadian gene expression in mouse renal proximal tubule

Author

Bingham, Molly A., primary, Neijman, Kim, additional, Yang, Chin-Rang, additional, Aponte, Angel, additional, Mak, Angela, additional, Kikuchi, Hiroaki, additional, Jung, Hyun Jun, additional, Poll, Brian G., additional, Raghuram, Viswanathan, additional, Park, Euijung, additional, Chou, Chung-Lin, additional, Chen, Lihe, additional, Leipziger, Jens, additional, Knepper, Mark A., additional, and Dona, Margo, additional

Published
2023
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35. HIV viral protein R induces loss of DCT1-type renal tubules

Author

Latt, Khun Zaw, primary, Yoshida, Teruhiko, additional, Shrivastav, Shashi, additional, Abedini, Amin, additional, Reece, Jeff M, additional, Lee, Hewang, additional, Okamoto, Koji, additional, Heymann, Jurgen, additional, Zhao, Yongmei, additional, Chung, Joon-Yong, additional, Hewitt, Stephen, additional, Jose, Pedro A, additional, Winkler, Cheryl A, additional, Knepper, Mark A, additional, Kino, Tomoshige, additional, Rosenberg, Avi Z, additional, Susztak, Katalin, additional, and Kopp, Jeffrey B, additional

Published
2023
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38. Proteomics and AQP2 regulation

Author

Yang, Chin‐Rang, primary, Park, Euijung, additional, Chen, Lihe, additional, Datta, Arnab, additional, Chou, Chung‐Lin, additional, and Knepper, Mark A., additional

Published
2023
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41. HIV-1 Vpr suppresses expression of the thiazide-sensitive sodium chloride co-transporter in the distal convoluted tubule

Author

Shrivastav, Shashi, primary, Lee, Hewang, additional, Okamoto, Koji, additional, Lu, Huiyan, additional, Yoshida, Teruhiko, additional, Latt, Khun Zaw, additional, Wakashin, Hidefumi, additional, Dalgleish, James L. T., additional, Koritzinsky, Erik H., additional, Xu, Peng, additional, Asico, Laureano D., additional, Chung, Joon-Yong, additional, Hewitt, Stephen, additional, Gildea, John J., additional, Felder, Robin A., additional, Jose, Pedro A., additional, Rosenberg, Avi Z., additional, Knepper, Mark A., additional, Kino, Tomoshige, additional, and Kopp, Jeffrey B., additional

Published
2022
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43. Circadian Gene Expression in Mouse Renal Proximal Tubule

Author

Bingham, Molly A., primary, Neijman, Kim, additional, Kikuchi, Hiroaki, additional, Jung, Hyun Jun, additional, Poll, Brian G., additional, Raghuram, Viswanathan, additional, Park, Euijung, additional, Yang, Chin-Rang, additional, Chou, Chung-Lin, additional, Chen, Lihe, additional, Leipziger, Jens, additional, Knepper, Mark A., additional, and Dona, Margo, additional

Published
2022
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44. Signaling mechanisms in renal compensatory hypertrophy revealed by multi-omics.

Author

Kikuchi, Hiroaki, Chou, Chung-Lin, Yang, Chin-Rang, Chen, Lihe, Jung, Hyun Jun, Park, Euijung, Limbutara, Kavee, Carter, Benjamin, Yang, Zhi-Hong, Kun, Julia F., Remaley, Alan T., and Knepper, Mark A.

Subjects
PEROXISOME proliferator-activated receptors, PROXIMAL kidney tubules, MULTIOMICS, HYPERTROPHY, MALE models, CELL size
Abstract

Loss of a kidney results in compensatory growth of the remaining kidney, a phenomenon of considerable clinical importance. However, the mechanisms involved are largely unknown. Here, we use a multi-omic approach in a unilateral nephrectomy model in male mice to identify signaling processes associated with renal compensatory hypertrophy, demonstrating that the lipid-activated transcription factor peroxisome proliferator-activated receptor alpha (PPARα) is an important determinant of proximal tubule cell size and is a likely mediator of compensatory proximal tubule hypertrophy. The authors used a multi-omic approach in a mouse unilateral nephrectomy model to identify signaling processes associated with compensatory hypertrophy of the renal proximal tubule. The results indicate that PPARα is an important determinant of proximal tubule cell size and is a likely mediator of compensatory proximal tubule hypertrophy. [ABSTRACT FROM AUTHOR]

Published
2023
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