Models of drug-induced liver injury for evaluation of phytotherapeutics and other natural products

Abstract: Extracts from medicinal plants, many of which have been used for centuries, are increasingly tested in models of hepatotoxicity. One of the most popular models to evaluate the hepatoprotective potential of natural products is acetaminophen (APAP)-induced liver injury, although other hepatotoxicity models such as carbon tetrachloride, thioacetamide, ethanol and endotoxin are occasionally used. APAP overdose is a clinically relevant model of drug-induced liver injury. Critical mechanisms and signaling pathways, … Show more

“…The large discrepancy in scientific interest is likely based on several important and advantageous properties of M. oleifera; of which the most important and well known is probably the coagulation ability of specific seed proteins (Olsen, 1987;Gassenschmidt et al, 1995;Muyibi & Evison, 1995;Ndabigengesere, Narasiah, & Talbot, 1995;Ndabigengesere & Narasiah, 1998). Other reasons that M. oleifera has been the focus of study are the potential utilization of the seeds as a feed additive (Ben Salem & Makkar, 2009;Hlophe & Moyo, 2014; T. P. Singh, P. Singh, & Kumar, 2015) or insecticide (Benelli, 2015); the importance of the leaves for human nutrition (Subadra, Monica, & Dhabhai, 1997;Babu, 2000;Fahey, 2005;Thurber & Fahey, 2009); including its potential use as a human famine food (Sena et al, 1998) and as animal feed (Richter et al, 2003;Negesse, Makkar, & Becker, 2009;Abbas, 2013) and the medical potential of all plant parts (Anwar et al, 2007;Jaeschke, Williams, McGill, Xie, & Ramachandran, 2013); including the antibiotic activity of pods, flowers and leaves (Brilhante et al, 2015).…”

Proximate Composition, Amino and Fatty Acid Profiles and Element Compositions of Four Different Moringa Species

“…The large discrepancy in scientific interest is likely based on several important and advantageous properties of M. oleifera; of which the most important and well known is probably the coagulation ability of specific seed proteins (Olsen, 1987;Gassenschmidt et al, 1995;Muyibi & Evison, 1995;Ndabigengesere, Narasiah, & Talbot, 1995;Ndabigengesere & Narasiah, 1998). Other reasons that M. oleifera has been the focus of study are the potential utilization of the seeds as a feed additive (Ben Salem & Makkar, 2009;Hlophe & Moyo, 2014; T. P. Singh, P. Singh, & Kumar, 2015) or insecticide (Benelli, 2015); the importance of the leaves for human nutrition (Subadra, Monica, & Dhabhai, 1997;Babu, 2000;Fahey, 2005;Thurber & Fahey, 2009); including its potential use as a human famine food (Sena et al, 1998) and as animal feed (Richter et al, 2003;Negesse, Makkar, & Becker, 2009;Abbas, 2013) and the medical potential of all plant parts (Anwar et al, 2007;Jaeschke, Williams, McGill, Xie, & Ramachandran, 2013); including the antibiotic activity of pods, flowers and leaves (Brilhante et al, 2015).…”

Proximate Composition, Amino and Fatty Acid Profiles and Element Compositions of Four Different Moringa Species

“…The increase in MDA level in liver, which can be induced by PCM intake, suggests enhanced lipid peroxidation and is an indicator of hepatic tissue damage [14,15]. Beside the depletion of glutathione, NAPQI can exert initial cell stress through a wide range of mechanisms including binding to enzymes, lipids, nucleic acids, and other cell structures [16].…”

Hepatoprotective and antioxidant effects of <i>Cymbopogon citratus</i> Stapf (Lemon grass) extract in paracetamolinduced hepatotoxicity in rats

“…Assuming hepatocyte injury being the crucial KE without which fibrosis could not occur via this AOP, then simple investigation of in vitro hepatotoxicity could provide relevant information for potential fibrosis prediction without the need of highly elaborated cell models. The initial AOP case study was based on data of two prototypic fibrogenic chemicals, namely Carbon Tetrachloride (CCl4) (Basu, 2003;Brattin et al, 1985;Calabrese and Mehendale, 1996;Calabrese et al, 1993;Clawson, 1989Dalu and Mehendale, 1996;EPA, 2010;Feng et al, 2011;Jaeschke et al, 2013;Jang et al, 2008;Lee et al, 2004;Li L. et al, 2012;Li X. et al, 2013;Luster et al, 2000;2001;Lv et al, 2012;Masuda, 2006;Morio et al, 2001;Nagano et al, 2007;Natsume et al, 1999;Neubauer et al, 1998;Nissar et al,2013;Park et al, 2004;Recknagel, 1976;Simeonova et al, 2001;Tipoe et al, 2006;Weber et al, 2003;Zhu and Fung, 2000) and Allyl…”

Adverse Outcome Pathway on Protein Alkylation Leading to Liver Fibrosis