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5. Contributors

Author

Aggarwal, Manoj, Akingbasote, James, Anadón, Arturo, Anger, Gregory J., Archibong, Anthony E., Ares, Irma, Aschner, Michael, Avila, Daiana S., Bailey, Denise C., Barlow, Norman J., Beedanagari, Sudheer, Beltyukov, P.P., Bischoff, Karyn, Boeck, Carina Rodrigues, Bracken, William M., Brehm, Emily, Breyer, Richard M., Bright-Ponte, Susan, Brockett, Mirjana Milosevic, Campagnolo, Luisa, Carney, Edward W., Charrette, Andrew, Chebekoue, Sandrine Fleur, Chiang, Catheryne, Chou, Wei-Chun, Cleal, Jane K., Cole, Toby B., Cook, Daniel, Coppock, Robert W., Costa, Lucio G., Curras-Collazo, Margarita, Dai, Wanying, Dao, Khoi, Da Silva, Rosane Souza, Davis, T. Zane, Dominguez, Francisco, Doss, Robin B., Dziwenka, Margitta M., Enright, Brian, Estevan, Carmen, Evans, Timothy J., Fan, Anna M., Farina, Marcelo, Fenton, Suzanne E., Filazi, Ayhan, Fitsanakis, Vanessa A., FitzGerald, Rex, Flaskos, John, Flaws, Jodi A., Flora, S.J.S., Ganjam, Vekataseshu K., Gardner, Dale R., Garg, Ramesh C., Garrick, Jacqueline M., Garry, Vincent F., Gelineau-van Waes, Janee, Godfrey, Keith M., Golubentseva, Yu V., González-Martín, Roberto, Green, Benedict T., Guerri, Consuelo, Gulati, Kavita, Gupta, P.K., Gupta, Ramesh C., Gupta, Rekha K., Guthrie, Najla, Hall, Jeffery O., Hargreaves, Alan J., Harris, Kenneth J., Hill, Bridgett N., Hilmas, Corey J., Hoberman, Alan M., Hougaard, Karin S., Ince, Sinan, Iyer, Poorni R., Jacobsen, Nicklas R., Kalpana, Starling, Kandimalla, Ramesh, Kanthasamy, Arthi, Kanthasamy, Anumantha, Khlebnikova, N.S., Klüver, Nils, Kodavanti, Prasada Rao S., Krishnan, Kannan, Kulkarni, Shaila, Kuzukiran, Ozgur, Lall, Rajiv, Legradi, Jessica, Lewis, Rohan M., Lewis, Elise M., Li, Xin, Lin, Pinpin, Loganathan, Bommanna G., Machado, Ivo F., Mahadevan, Brinda, Makris, Susan L., Malik, Jitendra K., Marreilha dos Santos, Ana Paula, Marsillach, Judit, Martínez-Larrañaga, María Rosa, Martínez, María Aránzazu, Matouskova, Klara, McClellan, Roger O., Milatovic, Dejan, Mohammed, Ali Mustafa, Montine, Thomas J., Møller, Peter, Multani, Pushpinder Kaur, Ni, Mingwei, Nikolaidis, Efstathios, Novilla, Meliton N., Padilla, Stephanie, Palmeira, Carlos M., Pamies, David, Panner Selvam, Manesh Kumar, Pascual, María, Patwa, Jayant, Phillips, Ashley, Piquette-Miller, Micheline, Popov, V.B., Pratt, M. Margaret, Protasova, G.A., Rai, Nishant, Ramalho-Santos, João, Ramesh, Aramandla, Ray, Kausik, Ray, Arunabha, Ren, Aiguo, Renaud, Stephen J., Roberts, Drucilla J., Rongzhu, Lu, Sachana, Magdalini, Sahlman, Heidi, Saini, Nitin, Saini, Vandna, Shabasheva, L.V., Sharma, Abha, Sikka, Suresh C., Silva, Marilyn Helen, Simsek, Ilker, Singh Kalra, Rajkumar, Sinha, Anita, Sogorb, Miguel A., Soldin, Offie P., Song, Chunjuan, Srivastava, Ajay, Stice, Szabina A., Stoker, Tammy E., Stonecipher, Clinton A., Szlapinski, Sandra, Tanabe, Shihori, Tatiparthi, Arun, Teixeira da Rocha, João Batista, Thokchom, Suresh Kumar, Tornesi, Belen, Torous, Vanda, Truran, Peter, Valdez, Matthew C., Vandenberg, Laura N., Vargesson, Neil, Vilanova, Eugenio, Vähäkangas, Kirsi H., Vulimiri, Suryanarayana V., Warner, Genoa R., Welch, Kevin D., Williams, Daniel C., Woldemeskel, Moges, Yang, Jae-Ho, Yin, Zhaobao, Ying, Xiaoyou, Yurdakok-Dikmen, Begum, Zaja-Milatovic, Snjezana, and Zhou, Changqing

Published
2022
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6. List of contributors

Author

Ahmad, Abul H., Akingbasote, James, Anadón, Arturo, Anand, Rashmi, Anantharam, Vellareddy, András, Csaba, Ares, Irma, Avdonin, Pavel V., Ay, Muhammet, Banerjee, Aryamitra, Barnett, Reid E., Belinskaia, Daria A., Bertero, Alessia, Bharti, Vijay K., Bian, Wan-Ping, Bischoff, Karyn L., Caloni, Francesca, Castela, Ana Catarina, Chand, Naresh, Chanderbhan, Ronald F., Charli, Adhithiya, Charrette, Andrew, Chen, Si, Chen, Tao, Choudhuri, Supratim, Choudhury, Soumen, Coccini, Teresa, Cope, Rhian B., Coppock, Robert W., Costa, Lucio G., Damodaran, Tirupapuliyur, Darvesh, Altaf S., Dhruw, Leena, Dormán, György, Doss, Robin B., DuBourdieu, Dan, Dziwenka, Margitta, Eades, Joshua, Esch, Harald L., Filazi, Ayhan, Fitsanakis, Vanessa A., Flachner, Beáta, Fossati, Paola, Gambaryan, Stepan P., Garg, Ramesh C., Garg, Satish K., Gil, Fernando, Goncharov, Nikolay V., Gulati, Kavita, Guo, Lei, Guo, Xiaoqing, Gupta, Bhanushree, Gupta, Ramesh C., Guthrie, Najla, Gwaltney-Brant, Sharon M., Hajdú, István, Hartsel, Joshua A., Hazzah, Trina, Hernández, Antonio F., Hickory, Brian, Hilmas, Corey J., Hoeng, Julia, Jain, Amul, Jenkins, Richard O., Jin, Huajun, Joshi, Jagdish Chandra, Kalinovsky, Tatiana, Kalpana, Starling, Kalidindi, Sanyasi R., Kanthasamy, Anumantha G., Kanthasamy, Arthi, Kaore, Navinchandra M., Kaore, Shilpa N., Kapoor, Vijay Kumar, Kaur, Gurjot, Kolanos, Renata, Korf, Ekaterina A., Krishna, Gopala, Krishna, Mayur, Kuča, Kamil, Kudryavtsev, Igor V., Kumar, Amit, Kumar, Dinesh, Kumar, Prafull, Lall, Rajiv, La Mesa, Camillo, Latino, Diogo A.R.S., Lehmann, Leane, Li, Xilin, Machado, Ivo F., Makriyannis, Alexandros, Malik, Jitendra K., Martín-Domingo, M. Concepción, Martínez, María-Aránzazu, Martínez-Larrañaga, María-Rosa, Mei, Nan, Messinis, Dimitris E., Mindukshev, Igor V., Negi, Poonam, Niedzwiecki, Aleksandra, Ning, Baitang, Novozhilov, Artem V., Palmeira, Carlos Marques, Papas, Andreas M., Pei, De-Sheng, Peitsch, Manuel C., Peterson, Jeffrey D., Pistollato, Francesca, Pitt, Jason, Pitt, Yiuka, Pospisil, Pavel, Poussin, Carine, Pradhan, Aanchal, Prakash, Atul, Prasad, Sahdeo, Rahal, Anu, Rai, Nishant, Raina, Rajinder, Rath, Matthias, Ray, Arunabha, Rehman, Sana, Richter, Gary, Risuleo, Gianfranco, Roberts, Ashley, Rolo, Anabela Pinto, Roomi, M. Waheed, Sachana, Magdalini, Satoh, Tetsuo, Serebriakova, Maria K., Sharma, Rahul, Shukla, Amit, Sinha, Anita, Sinha, Priynak, Spicer, Leon J, Srivastava, Ajay, Stice, Szabina A., Sudnitsyna, Julia S., Taku, Ila, Talukder, Jamil, Teodoro, João Soeiro, Thokchom, Suresh Kumar, Trulioff, Andrey S., Ukolov, Anton I., Umegaki, Keizo, Verma, Pankaj, Verma, Pawan K., Wan, Dan, Wilson-Frank, Christina, Woldemeskel, Moges, Wu, Qinghua, Yang, Mildred S., Yurdakok-Dikmen, Begum, Zaja-Milatovic, Snjezana, and Zoltani, Csaba K.

Published
2021
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7. Efferocytic Defects in Early Atherosclerosis Are Driven by GATA2 Overexpression in Macrophages.

Author

Yin, Charles, Vrieze, Angela M., Rosoga, Mara, Akingbasote, James, Pawlak, Emily N., Jacob, Rajesh Abraham, Hu, Jonathan, Sharma, Neha, Dikeakos, Jimmy D., Barra, Lillian, Nagpal, A. Dave, and Heit, Bryan

Subjects
MACROPHAGES, ATHEROSCLEROTIC plaque, ATHEROSCLEROSIS, NADPH oxidase, TRANSCRIPTION factors
Abstract

The loss of efferocytosis—the phagocytic clearance of apoptotic cells—is an initiating event in atherosclerotic plaque formation. While the loss of macrophage efferocytosis is a prerequisite for advanced plaque formation, the transcriptional and cellular events in the pre-lesion site that drive these defects are poorly defined. Transcriptomic analysis of macrophages recovered from early-stage human atherosclerotic lesions identified a 50-fold increase in the expression of GATA2, a transcription factor whose expression is normally restricted to the hematopoietic compartment. GATA2 overexpression in vitro recapitulated many of the functional defects reported in patient macrophages, including deficits at multiple stages in the efferocytic process. These findings included defects in the uptake of apoptotic cells, efferosome maturation, and in phagolysosome function. These efferocytic defects were a product of GATA2-driven alterations in the expression of key regulatory proteins, including Src-family kinases, Rab7 and components of both the vacuolar ATPase and NADPH oxidase complexes. In summary, these data identify a mechanism by which efferocytic capacity is lost in the early stages of plaque formation, thus setting the stage for the accumulation of uncleared apoptotic cells that comprise the bulk of atherosclerotic plaques. [ABSTRACT FROM AUTHOR]

Published
2020
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8. Improved hepatic physiology in hepatic cytochrome P450 reductase null (HRN™) mice dosed orally with fenclozic acid.

Author

Akingbasote, James A., Foster, Alison J., Jones, Huw B., David, Rhiannon, Gooderham, Nigel J., Wilson, Ian D., and Kenna, J. Gerry

Subjects
NICOTINAMIDE adenine dinucleotide phosphate, CYTOCHROME P-450, CYTOCHROME reductase, BIOTRANSFORMATION (Metabolism), HISTOPATHOLOGY, MICROSOMES
Abstract

Hepatic NADPH-cytochrome P450 oxidoreductase null (HRN™) mice exhibit no functional expression of hepatic cytochrome P450 (P450) when compared to wild type (WT) mice, but have normal hepatic and extrahepatic expression of other biotransformation enzymes. We have assessed the utility of HRN™ mice for investigation of the role of metabolic bioactivation in liver toxicity caused by the nonsteroidal anti-inflammatory drug (NSAID) fenclozic acid. In vitro studies revealed significant NADPH-dependent (i.e. P450-mediated) covalent binding of [14C]-fenclozic acid to liver microsomes from WT mice and HRN™ mice, whereas no in vitro covalent binding was observed in the presence of the UDP-glucuronyltransferase cofactor UDPGA. Oral fenclozic acid administration did not alter the liver histopathology or elevate the plasma liver enzyme activities of WT mice, or affect their hepatic miRNA contents. Livers from HRN™ mice exhibited abnormal liver histopathology (enhanced lipid accumulation, bile duct proliferation, hepatocellular degeneration, necrosis, inflammatory cell infiltration) and plasma clinical chemistry (elevated alanine aminotransferase, glutamate dehydrogenase and alkaline phosphatase activities). Modest apparent improvements in these abnormalities were observed when HRN™ mice were dosed orally with fenclozic acid for 7 days at 100 mg kg−1 day−1. Previously we observed more marked effects on liver histopathology and integrity in HRN™ mice dosed orally with the NSAID diclofenac for 7 days at 30 mg kg−1 day−1. We conclude that HRN™ mice are valuable for assessing P450-related hepatic drug biotransformation, but not for drug toxicity studies due to underlying liver dysfunction. Nonetheless, HRN™ mice may provide novel insights into the role of inflammation in liver injury, thereby aiding its treatment. [ABSTRACT FROM AUTHOR]

Published
2017
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10. THE HEMATOPOIETIC TRANSCRIPTION FACTOR GATA2 IS A NOVEL REGULATOR OF APOPTOTIC CELL CLEARANCE BY MACROPHAGES IN ATHEROSCLEROSIS.

Author

Yin, Charles, Vrieze, Angela M., Akingbasote, James, Pawlak, Emily N., Jacob, Rajesh A., Hu, Jonathan, Sharma, Neha, Blackler, Garth, Dikeakos, Jimmy D., Barra, Lillian, Nagpal, Dave, and Heit, Bryan

Subjects
*TRANSCRIPTION factors, *MACROPHAGES, *GENE expression profiling, *CELLS, *CORONARY artery bypass, *ATHEROSCLEROSIS
Published
2020
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11. Toxicological evaluation of a pumpkin-derived pectin preparation: in vitro genotoxicity studies and a 13-week oral toxicity study in Sprague-Dawley rats.

Author

Kleijn AF, Mutter M, Akingbasote JA, Meetro J, Simon RR, Muntendam P, Frommhagen M, and Schols HA

Abstract

The safety of a rhamnogalacturonan-I-enriched pectin extract (G3P-01) from pumpkin ( Cucurbita moschata var. Dickinson) was evaluated for use as an ingredient in food and dietary supplements. G3P-01 was tested in a battery of genetic toxicity studies including reverse mutagenicity and in vitro micronucleus assay. In addition, Sprague-Dawley rats were randomized and orally dosed with G3P-01 incorporated in animal diet at concentrations of 0, 9000, 18,000, and 36,000 ppm daily for 13-weeks (n=10/sex/group) in line with OECD guidelines (TG 408). The results of the in vitro bacterial reverse mutation assay and micronucleus assay in TK6 cells demonstrated a lack of genotoxicity. The 13-week oral toxicity study in Sprague-Dawley rats demonstrated that the test article, G3P-01 was well tolerated; there were no mortalities and no adverse effects on clinical, gross pathology, hematology, blood chemistry, and histological evaluation of the essential organs of the animals. The present study demonstrates that G3P-01 is non-genotoxic and is safe when ingested in diet at concentrations up to 36, 000 ppm. The subchronic no-observed-adverse-effect level (NOAEL) for G3P-01 was concluded to be 36,000 ppm, equivalent to 1,899 and 2,361 mg/kg/day for male and female rats respectively., Competing Interests: On behalf of all authors, the corresponding author declares the following financial interest/personal relationships that may be considered as potential competing interests: Authors 1 and 8 are employees of Wageningen University Research and have no competing interests/personal relationships which could have influenced the work reported in this paper. Author 2 is an employee and minor shareholder of G3P Inc. Author 6 is founder and major shareholder of G3P Inc. Authors 3, 4 and 5 are employees of Intertek Health Sciences Inc, and are consultants for G3P-01 Inc. Author 7 is employee of Société des Produits Nestlé SA and mainly contributed to this work without competing interests during his former employment at Wageningen University & Research., (© The Author(s) 2024. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published
2024
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12. Improved hepatic physiology in hepatic cytochrome P450 reductase null (HRN™) mice dosed orally with fenclozic acid.

Author

Akingbasote JA, Foster AJ, Jones HB, David R, Gooderham NJ, Wilson ID, and Kenna JG

Abstract

Hepatic NADPH-cytochrome P450 oxidoreductase null (HRN™) mice exhibit no functional expression of hepatic cytochrome P450 (P450) when compared to wild type (WT) mice, but have normal hepatic and extrahepatic expression of other biotransformation enzymes. We have assessed the utility of HRN™ mice for investigation of the role of metabolic bioactivation in liver toxicity caused by the nonsteroidal anti-inflammatory drug (NSAID) fenclozic acid. In vitro studies revealed significant NADPH-dependent ( i.e. P450-mediated) covalent binding of [ 14 C]-fenclozic acid to liver microsomes from WT mice and HRN™ mice, whereas no in vitro covalent binding was observed in the presence of the UDP-glucuronyltransferase cofactor UDPGA. Oral fenclozic acid administration did not alter the liver histopathology or elevate the plasma liver enzyme activities of WT mice, or affect their hepatic miRNA contents. Livers from HRN™ mice exhibited abnormal liver histopathology (enhanced lipid accumulation, bile duct proliferation, hepatocellular degeneration, necrosis, inflammatory cell infiltration) and plasma clinical chemistry (elevated alanine aminotransferase, glutamate dehydrogenase and alkaline phosphatase activities). Modest apparent improvements in these abnormalities were observed when HRN™ mice were dosed orally with fenclozic acid for 7 days at 100 mg kg -1 day -1 . Previously we observed more marked effects on liver histopathology and integrity in HRN™ mice dosed orally with the NSAID diclofenac for 7 days at 30 mg kg -1 day -1 . We conclude that HRN™ mice are valuable for assessing P450-related hepatic drug biotransformation, but not for drug toxicity studies due to underlying liver dysfunction. Nonetheless, HRN™ mice may provide novel insights into the role of inflammation in liver injury, thereby aiding its treatment.

Published
2016
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