Your search keyword '"species difference"' showing total 918 results

1. Pharmacological differences between human and mouse P2X4 receptor explored using old and new tools.

Author

Fortuny-Gomez, Anna and Fountain, Samuel J.

Abstract

There is growing interest in the P2X4 receptor as a therapeutic target for several cardiovascular, inflammatory and neurological conditions. Key to exploring the physiological and pathophysiological roles of P2X4 is access to selective compounds to probe function in cells, tissues and animal models. There has been a recent growth in selective antagonists for P2X4, though agonist selectivity is less well studied. As there are some known pharmacological differences between P2X receptors from different species, it is important to understand these differences when designing a pharmacological strategy to probe P2X4 function in human tissue and mouse models. Here, we provide a systematic comparison of agonist and antagonist pharmacology in 1321N1 cells expressing either human or mouse P2X4 orthologues. We identify a rank order of agonist potency of ATP > 2-MeSATP > αβmeATP = BzATP > CTP = γ-[(propargyl)-imido]-ATP for human P2X4 and ATP > 2-MeSATP = CTP > ATPγS = γ-[(propargyl)-imido]-ATP = BzATP for mouse. Human P2X4 is not activated by ATPγS but can be activated by αβmeATP. We identify a rank order of antagonist potency of BAY-1797 = PSB-12062 = BX-430 > 5-BDBD > TNP-ATP = PPADS for human P2X4 and BAY-1797 > PSB-12062 = PPADS > TNP-ATP for mouse. Mouse P2X4 is not antagonised by 5-BDBD or BX-430. The study reveals key pharmacological differences between human and mouse P2X4, highlighting caution when selecting tools for comparative studies between human and mouse and ascribing cellular responses of some commonly used agonists to P2X4. [ABSTRACT FROM AUTHOR]

Published

2024

2. Identification of Genomic Regions Associated with Differences in Flowering Time and Inflorescence Architecture between Melastoma candidum and M. normale.

Author

Chen, Jingfang, Zhong, Yan, Zou, Peishan, Ni, Jianzhong, Liu, Ying, Dai, Seping, and Zhou, Renchao

Subjects

*FLOWERING time, *CHROMOSOMES, *INFLORESCENCES, *GENETIC speciation, *SINGLE nucleotide polymorphisms, *CHROMOSOME inversions

Abstract

Understanding the genetic basis of species differences in flowering time and inflorescence architecture can shed light on speciation and molecular breeding. Melastoma shows rapid speciation, with about 100 species formed in the past few million years, and, meanwhile, possesses high ornamental values. Two largely sympatric and closely related species of this genus, M. candidum and M. normale, differ markedly in flowering time and flower number per inflorescence. Here, we constructed an F2 population between M. candidum and M. normale, and used extreme bulks for flowering time and flower number per inflorescence in this population to identify genomic regions underlying the two traits. We found high differentiation on nearly the whole chromosome 7 plus a few regions on other chromosomes between the two extreme bulks for flowering time. Large chromosomal inversions on chromosome 7 between the two species, which contain flowering-related genes, can explain recombinational suppression on the chromosome. We identified 1872 genes with one or more highly differentiated SNPs between the two bulks for flowering time, including CSTF77, FY, SPA3, CDF3, AGL8, AGL15, FHY1, COL9, CIB1, FKF1 and FAR1, known to be related to flowering. We also identified 680 genes with one or more highly differentiated SNPs between the two bulks for flower number per inflorescence, including PNF, FIL and LAS, knows to play important roles in inflorescence development. These large inversions on chromosome 7 prevent us from narrowing down the genomic region(s) associated with flowering time differences between the two species. Flower number per inflorescence in Melastoma appears to be controlled by multiple genes, without any gene of major effect. Our study indicates that large chromosomal inversions can hamper the identification of the genetic basis of important traits, and the inflorescence architecture of Melastoma species may have a complex genetic basis. [ABSTRACT FROM AUTHOR]

Published

2024

3. Evaluation of Metabolism-Dependent Drug Toxicity

Author

Li, Albert P., Pugsley, Michael K., Section editor, Hock, Franz J., Section editor, Hock, Franz J., editor, and Pugsley, Michael K., editor

Published

2024

4. Mouse Type-I Interferon-Mannosylated Albumin Fusion Protein for the Treatment of Chronic Hepatitis.

Author

Minayoshi, Yuki, Maeda, Hitoshi, Hamasaki, Keisuke, Nagasaki, Taisei, Takano, Mei, Fukuda, Ryo, Mizuta, Yuki, Tanaka, Motohiko, Sasaki, Yutaka, Otagiri, Masaki, Watanabe, Hiroshi, and Maruyama, Toru

Subjects

*CHRONIC active hepatitis, *CHIMERIC proteins, *HEPATIC fibrosis, *TYPE I interferons, *ALBUMINS, *INTERFERON receptors, *FIBRONECTINS, *MACROPHAGE inflammatory proteins

Abstract

Although a lot of effort has been put into creating drugs and combination therapies against chronic hepatitis, no effective treatment has been established. Type-I interferon is a promising therapeutic for chronic hepatitis due to its excellent anti-inflammatory effects through interferon receptors on hepatic macrophages. To develop a type-I IFN equipped with the ability to target hepatic macrophages through the macrophage mannose receptor, the present study designed a mouse type-I interferon-mannosylated albumin fusion protein using site-specific mutagenesis and albumin fusion technology. This fusion protein exhibited the induction of anti-inflammatory molecules, such as IL-10, IL-1Ra, and PD-1, in RAW264.7 cells, or hepatoprotective effects on carbon tetrachloride-induced chronic hepatitis mice. As expected, such biological and hepatoprotective actions were significantly superior to those of human fusion proteins. Furthermore, the repeated administration of mouse fusion protein to carbon tetrachloride-induced chronic hepatitis mice clearly suppressed the area of liver fibrosis and hepatic hydroxyproline contents, not only with a reduction in the levels of inflammatory cytokine (TNF-α) and fibrosis-related genes (TGF-β, Fibronectin, Snail, and Collagen 1α2), but also with a shift in the hepatic macrophage phenotype from inflammatory to anti-inflammatory. Therefore, type-I interferon-mannosylated albumin fusion protein has the potential as a new therapeutic agent for chronic hepatitis. [ABSTRACT FROM AUTHOR]

Published

2024

5. Indirubin mediates adverse intestinal reactions in guinea pigs by downregulating the expression of AchE through AhR.

Author

Xu, Xiaoting, Taha, Reham, Chu, Chenghan, Xiao, Li, Wang, Tao, Wang, Xinzhi, Huang, Xin, Jiang, Zhenzhou, and Sun, Lixin

Subjects

*GUINEA pigs, *ARYL hydrocarbon receptors, *CHINESE medicine, *INTESTINES, *ULCERATIVE colitis

Abstract

Indirubin is the main component of the traditional Chinese medicine Indigo naturalis (IN), a potent agonist of aryl hydrocarbon receptors (AhRs). In China, IN is used to treat psoriasis and ulcerative colitis, and indirubin is used for the treatment of chronic myelogenous leukaemia. However, IN and indirubin have adverse reactions, such as abdominal pain, diarrhoea, and intussusception, and their specific mechanism is unclear. The purpose of our research was to determine the specific mechanism underlying the adverse effects of IN and indirubin. By tracking the modifications in guinea pigs after the intragastric administration of indirubin for 28 days. The results demonstrate that indirubin could accelerate bowel movements and decrease intestinal acetylcholinesterase (AchE) expression. Experiments with NCM460 cells revealed that indirubin significantly reduced the expression of AchE, and the AchE levels were increased after the silencing of AhR and re-exposure to indirubin. This study showed that the inhibition of AchE expression by indirubin plays a key role in the occurrence of adverse reactions to indirubin and that the underlying mechanism is related to AhR-mediated AchE downregulation. [ABSTRACT FROM AUTHOR]

Published

2024

6. Species-specific, size-dependent, and environmentally modulated growth resilience to drought in conifer forests on the Eastern Tibetan Plateau.

Author

Yin, Dingcai, Gou, Xiaohua, Yang, Haijiang, Wang, Kai, and Zhang, Dingyun

Subjects

*CONIFEROUS forests, *DROUGHTS, *TREE growth, *SOIL moisture, *CLIMATE change, *CONIFERS, *FOREST management, *PINACEAE

Abstract

Global climate change is expected to increase the frequency and intensity of extreme droughts. Researching tree growth responses to drought helps assess the potential of forest adaptation and ecological stability under changing climate conditions. Here, we investigated tree growth resilience components (resistance, recovery, and resilience) to extreme drought events of two mainly distributed species, Pinus tabulaeformis and Picea wilsonii, on the Gannan Plateau, the Eastern Tibetan Plateau. Tree-ring width data from 510 trees at 20 plots along the elevation gradients were employed to analyze the tree resilience components at the individual tree level. The results showed that P. tabulaeformis had a lower growth resistance and a higher recovery capacity to drought than P. wilsonii, which might be related to the different strategies for combating drought of the two species. In addition, the tree growth response of P. tabulaeformis to drought changed significantly along the elevation gradient due to its higher drought sensitivity than that of P. wilsonii. Overall, the long-term correlation between tree growth and drought index, tree size, and soil water content had implications for tree growth resistance, recovery, and resilience. Given the observed differences in tree growth resistance to drought among different species and environmental conditions, a well-thought-out and tailored strategy would better support forest management on the Gannan Plateau. [ABSTRACT FROM AUTHOR]

Published

2024

7. Identification of Bromophenols' glucuronidation and its induction on UDP- glucuronosyltransferases isoforms

Author

Haoqian Zhang, Li Yang, Dandan Shen, Yuanhang Zhu, and Lihua Zhang

Subjects

Bromophenols (BPs), UDP-glucuronosyltransferases (UGTs), Glucuronidation, Species difference, Induction, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Bromophenols (BPs) are prominent environmental pollutants extensively utilized in aquaculture, pharmaceuticals, and chemical manufacturing. This study aims to identify UDP- glucuronosyltransferases (UGTs) isoforms involved in the metabolic elimination of BPs. Mono-glucuronides of BPs were detected in human liver microsomes (HLMs) incubated with the co-factor uridine-diphosphate glucuronic acid (UDPGA). The glucuronidation metabolism reactions catalyzed by HLMs followed Michaelis-Menten or substrate inhibition kinetics. Recombinant enzymes and inhibition experiments with chemical reagents were employed to phenotype the principal UGT isoforms participating in BP glucuronidation. UGT1A6 emerged as the major enzyme in the glucuronidation of 4-Bromophenol (4-BP), while UGT1A1, UGT1A6, and UGT1A8 were identified as the most essential isoforms for metabolizing 2,4-dibromophenol (2,4-DBP). UGT1A1, UGT1A8, and UGT2B4 were deemed the most critical isoforms in the catalysis of 2,4,6-tribromophenol (2,4,6-TBP) glucuronidation. Species differences were investigated using the liver microsomes of pig (PLM), rat (RLM), monkey (MyLM), and dog (DLM). Additionally, 2,4,6-TBP effects on the expression of UGT1A1 and UGT2B7 in HepG2 cells were evaluated. The results demonstrated potential induction of UGT1A1 and UGT2B7 upon exposure to 2,4,6-TBP at a concentration of 50 μM. Collectively, these findings contribute to elucidating the metabolic elimination and toxicity of BPs.

Published

2024

8. Sex and interspecies differences in ESR2-expressing cell distributions in mouse and rat brains.

Author

Morishita, Masahiro, Higo, Shimpei, Iwata, Kinuyo, and Ishii, Hirotaka

Subjects

*PREOPTIC area, *ESTROGEN receptors, *MICE, *ONE-way analysis of variance, *RATS, *CEREBRAL cortex

Abstract

Background: ESR2, a nuclear estrogen receptor also known as estrogen receptor β, is expressed in the brain and contributes to the actions of estrogen in various physiological phenomena. However, its expression profiles in the brain have long been debated because of difficulties in detecting ESR2-expressing cells. In the present study, we aimed to determine the distribution of ESR2 in rodent brains, as well as its sex and interspecies differences, using immunohistochemical detection with a well-validated anti-ESR2 antibody (PPZ0506). Methods: To determine the expression profiles of ESR2 protein in rodent brains, whole brain sections from mice and rats of both sexes were subjected to immunostaining for ESR2. In addition, to evaluate the effects of circulating estrogen on ESR2 expression profiles, ovariectomized female mice and rats were treated with low or high doses of estrogen, and the resulting numbers of ESR2-immunopositive cells were analyzed. Welch's t-test was used for comparisons between two groups for sex differences, and one-way analysis of variance followed by the Tukey–Kramer test were used for comparisons among multiple groups with different estrogen treatments. Results: ESR2-immunopositive cells were observed in several subregions of mouse and rat brains, including the preoptic area, extended amygdala, hypothalamus, mesencephalon, and cerebral cortex. Their distribution profiles exhibited sex and interspecies differences. In addition, low-dose estrogen treatment in ovariectomized female mice and rats tended to increase the numbers of ESR2-immunopositive cells, whereas high-dose estrogen treatment tended to decrease these numbers. Conclusions: Immunohistochemistry using the well-validated PPZ0506 antibody revealed a more localized expression of ESR2 protein in rodent brains than has previously been reported. Furthermore, there were marked sex and interspecies differences in its distribution. Our histological analyses also revealed estrogen-dependent changes in ESR2 expression levels in female brains. These findings will be helpful for understanding the ESR2-mediated actions of estrogen in the brain. Plain Language Summary: Although the brain is a major target organ of estrogens, the distribution of estrogen receptors in the brain is not fully understood. ESR2, also known as estrogen receptor β, is an estrogen receptor subtype; its localization in the brain has long been controversial because it has traditionally been difficult to detect. In the present study, we analyzed the expression sites of ESR2 in mouse and rat brains using immunohistochemistry with a well-validated antibody, PPZ0506. The immunohistochemical analysis revealed a more localized expression of ESR2 protein in brain subregions than has previously been reported. Additionally, there were clear sex and interspecies differences in the distribution of this protein. We also observed changes in ESR2 expression in the female brain in response to circulating estrogen levels. Our results, which show the precise expression profiles of ESR2 protein in rodent brains, will be helpful for understanding the ESR2-mediated actions of estrogen. Highlights: Immunohistochemical analyses using a well-validated antibody revealed that ESR2 is localized to subregions of the preoptic area, extended amygdala, hypothalamus, mesencephalon, and cerebral cortex in mouse and rat brains. Sex and interspecies differences in ESR2 expression were observed in some brain subregions. Circulating estrogen levels affected ESR2 expression in the brains of female mice and rats. [ABSTRACT FROM AUTHOR]

Published

2023

9. Is the β 3 -Adrenoceptor a Valid Target for the Treatment of Obesity and/or Type 2 Diabetes?

Author

Dwaib, Haneen S. and Michel, Martin C.

Subjects

*WEIGHT loss, *TYPE 2 diabetes, *RATS, *BROWN adipose tissue, *BODY weight, *OBESITY, *ALPHA adrenoceptors

Abstract

β3-Adrenoceptors mediate several functions in rodents that could be beneficial for the treatment of obesity and type 2 diabetes. This includes promotion of insulin release from the pancreas, cellular glucose uptake, lipolysis, and thermogenesis in brown adipose tissue. In combination, they lead to a reduction of body weight in several rodent models including ob/ob mice and Zucker diabetic fatty rats. These findings stimulated drug development programs in various pharmaceutical companies, and at least nine β3-adrenoceptor agonists have been tested in clinical trials. However, all of these projects were discontinued due to the lack of clinically relevant changes in body weight. Following a concise historical account of discoveries leading to such drug development programs we discuss species differences that explain why β3-adrenoceptors are not a meaningful drug target for the treatment of obesity and type 2 diabetes in humans. [ABSTRACT FROM AUTHOR]

Published

2023

10. Canine, mouse, and human transient receptor potential ankyrin 1 (TRPA1) channels show different sensitivity to menthol or cold stimulation.

Author

Takuya YAMAGUCHI, Kunitoshi UCHIDA, and Jun YAMAZAKI

Subjects

MENTHOL, MICE, HUMAN beings, HIGH temperatures

Abstract

Transient receptor potential ankyrin 1 (TRPA1) is a nonselective cation channel that is activated by a variety of stimuli and acts as a nociceptor. Mouse and human TRPA1 exhibit different reactivity to some stimuli, including chemicals such as menthol as well as cold stimuli. The cold sensitivity of TRPA1 in mammalian species is controversial. Here, we analyzed the reactivity of heterologously expressed canine TRPA1 as well as the mouse and human orthologs to menthol or cold stimulation in Ca2+-imaging experiments. Canine and human TRPA1 exhibited a similar response to menthol, that is, activation in a concentration-dependent manner, even at the high concentration range in contrast to the mouse ortholog, which did not respond to high concentration of menthol. In addition, the response during the removal of menthol was different; mouse TRPA1-expressing cells exhibited a typical response with a rapid and clear increase in [Ca2+]i (“off-response”), whereas [Ca2+]i in human TRPA1-expressing cells was dramatically decreased by the washout of menthol and [Ca2+]i in canine TRPA1-expressing cells was slightly decreased. Finally, canine TRPA1 as well as mouse and human TRPA1 were activated by cold stimulation (below 19–20°C). The sensitivity to cold stimulation differed between these species, that is, human TRPA1 activated at higher temperatures compared with the canine and mouse orthologs. All of the above responses were suppressed by the selective TRPA1 inhibitor HC-030031. Because the concentration-dependency and “off-response” of menthol as well as the cold sensitivity were not uniform among these species, studies of canine TRPA1 might be useful for understanding the species-specific functional properties of mammalian TRPA1. [ABSTRACT FROM AUTHOR]

Published

2023

11. Bisphenol A Analogues Inhibit Human and Rat 11β-Hydroxysteroid Dehydrogenase 1 Depending on Its Lipophilicity.

Author

Wang, Hong, Sang, Jianmin, Ji, Zhongyao, Yu, Yang, Wang, Shaowei, Zhu, Yang, Li, Huitao, Wang, Yiyan, Zhu, Qiqi, and Ge, Renshan

Subjects

*MOLECULAR volume, *LIPOPHILICITY, *RATS, *MOLECULAR weights, *BINDING energy, *MOLECULAR docking

Abstract

Bisphenol A (BPA) analogues substituted on the benzene ring are widely used in a variety of industrial and consumer materials. However, their effects on the glucocorticoid-metabolizing enzyme 11β-hydroxysteroid dehydrogenase 1 (11β-HSD1) remain unclear. The inhibitory effects of 6 BPA analogues on the inhibition of human and rat 11β-HSD1 were investigated. The potencies of inhibition on human 11β-HSD1 were bisphenol H (IC50, 0.75 µM) > bisphenol G (IC50, 5.06 µM) > diallyl bisphenol A (IC50, 13.36 µM) > dimethyl bisphenol A (IC50, 30.18 µM) > bisphenol A dimethyl ether (IC50, 33.08 µM) > tetramethyl bisphenol A (>100 µM). The inhibitory strength of these chemicals on rat 11β-HSD1 was much weaker than that on the human enzyme, ranging from 74.22 to 205.7 µM. All BPA analogues are mixed/competitive inhibitors of both human and rat enzymes. Molecular docking studies predict that bisphenol H and bisphenol G both bind to the active site of human 11β-HSD1, forming a hydrogen bond with catalytic residue Ser170. The bivariate correlation of IC50 values with LogP (lipophilicity), molecular weight, heavy atoms, and molecular volume revealed a significant inverse regression and the correlation of IC50 values with ΔG (low binding energy) revealed a positive regression. In conclusion, the lipophilicity, molecular weight, heavy atoms, molecular volume, and binding affinity of a BPA analogue determine the inhibitory strength of human and rat 11β-HSD isoforms. [ABSTRACT FROM AUTHOR]

Published

2023

12. Blood-Arachnoid Barrier as a Dynamic Physiological and Pharmacological Interface Between Cerebrospinal Fluid and Blood

Author

Uchida, Yasuo, Goto, Ryohei, Usui, Takuya, Tachikawa, Masanori, Terasaki, Tetsuya, Perrie, Yvonne, Series Editor, de Lange, Elizabeth C.M., editor, Hammarlund-Udenaes, Margareta, editor, and Thorne, Robert G., editor

Published

2022

13. In vitro differences in toddalolactone metabolism in various species and its effect on cytochrome P450 expression

Author

Lina Shan, Xianbao Shi, Tingting Hu, Jiayin Hu, Zhe Guo, Yonggui Song, Dan Su, and Xiaoyong Zhang

Subjects

Liver microsomes, species difference, enzyme kinetics, pharmacokinetics, LC-MS/MS, Therapeutics. Pharmacology, RM1-950

Abstract

Context Toddalolactone, the main component of Toddalia asiatica (L.) Lam. (Rutaceae), has anticancer, antihypertension, anti-inflammatory, and antifungal activities.Objective This study investigated the metabolic characteristics of toddalolactone.Materials and methods Toddalolactone metabolic stabilities were investigated by incubating toddalolactone (20 μM) with liver microsomes from humans, rabbits, mice, rats, dogs, minipigs, and monkeys for 0, 30, 60, and 90 min. The CYP isoforms involved in toddalolactone metabolism were characterized based on chemical inhibition studies and screening assays. The effects of toddalolactone (0, 10, and 50 µM) on CYP1A1 and CYP3A5 protein expression were investigated by immunoblotting. After injecting toddalolactone (10 mg/kg), in vivo pharmacokinetic profiles using six Sprague–Dawley rats were investigated by taking 9-time points, including 0, 0.25, 0.5, 0.75, 1, 2, 4, 6 and 8 h.Results Monkeys showed the greatest metabolic capacity in CYP-mediated and UGT-mediated reaction systems with short half-lives (T1/2) of 245 and 66 min, respectively, while T1/2 of humans in two reaction systems were 673 and 83 min, respectively. CYP1A1 and CYP3A5 were the major CYP isoforms involved in toddalolactone biotransformation. Induction of CYP1A1 protein expression by 50 μM toddalolactone was approximately 50% greater than that of the control (0 μM). Peak plasma concentration (Cmax) for toddalolactone was 0.42 μg/mL, and Tmax occurred at 0.25 h post-dosing. The elimination t1/2 was 1.05 h, and the AUC0–t was 0.46 μg/mL/h.Conclusions These findings demonstrated the significant species differences of toddalolactone metabolic profiles, which will promote appropriate species selection in further toddalolactone studies.

Published

2022

14. Mouse Type-I Interferon-Mannosylated Albumin Fusion Protein for the Treatment of Chronic Hepatitis

Author

Yuki Minayoshi, Hitoshi Maeda, Keisuke Hamasaki, Taisei Nagasaki, Mei Takano, Ryo Fukuda, Yuki Mizuta, Motohiko Tanaka, Yutaka Sasaki, Masaki Otagiri, Hiroshi Watanabe, and Toru Maruyama

Subjects

type-I interferon, mannose receptor, Kupffer cells, albumin fusion technology, site-specific mutagenesis, species difference, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Although a lot of effort has been put into creating drugs and combination therapies against chronic hepatitis, no effective treatment has been established. Type-I interferon is a promising therapeutic for chronic hepatitis due to its excellent anti-inflammatory effects through interferon receptors on hepatic macrophages. To develop a type-I IFN equipped with the ability to target hepatic macrophages through the macrophage mannose receptor, the present study designed a mouse type-I interferon-mannosylated albumin fusion protein using site-specific mutagenesis and albumin fusion technology. This fusion protein exhibited the induction of anti-inflammatory molecules, such as IL-10, IL-1Ra, and PD-1, in RAW264.7 cells, or hepatoprotective effects on carbon tetrachloride-induced chronic hepatitis mice. As expected, such biological and hepatoprotective actions were significantly superior to those of human fusion proteins. Furthermore, the repeated administration of mouse fusion protein to carbon tetrachloride-induced chronic hepatitis mice clearly suppressed the area of liver fibrosis and hepatic hydroxyproline contents, not only with a reduction in the levels of inflammatory cytokine (TNF-α) and fibrosis-related genes (TGF-β, Fibronectin, Snail, and Collagen 1α2), but also with a shift in the hepatic macrophage phenotype from inflammatory to anti-inflammatory. Therefore, type-I interferon-mannosylated albumin fusion protein has the potential as a new therapeutic agent for chronic hepatitis.

Published

2024

15. Editorial: Model organisms in predictive toxicology 2022

Author

Yuhei Nishimura, Tetsuhiro Kudoh, and Munekazu Komada

Subjects

in vivo modeling, phenotype, adverse outcome pathways, context-dependency, species difference, Therapeutics. Pharmacology, RM1-950

Published

2023

16. Different gene expression patterns between mouse and human brain pericytes revealed by single-cell/nucleus RNA sequencing.

Author

Miao, Yuyang, Li, Weihan, Jeansson, Marie, Mäe, Maarja Andaloussi, Muhl, Lars, and He, Liqun

Subjects

*GENE expression, *RNA sequencing, *ENDOTHELIAL cells, *GENE ontology, *NEURODEGENERATION

Abstract

Pericytes in the brain play important roles for microvascular physiology and pathology and are affected in neurological disorders and neurodegenerative diseases. Mouse models are often utilized for pathophysiology studies of the role of pericytes in disease; however, the translatability is unclear as brain pericytes from mouse and human have not been systematically compared. In this study, we investigate the similarities and differences of brain pericyte gene expression between mouse and human. Our analysis provides a comprehensive resource for translational studies of brain pericytes. We integrated and compared four mouse and human adult brain pericyte single-cell/nucleus RNA-sequencing datasets derived using two single-cell RNA sequencing platforms: Smart-seq and 10x. Gene expression abundance and specificity were analyzed. Pericyte-specific/enriched genes were assigned by comparison with endothelial cells present in the same datasets, and mouse and human pericyte transcriptomes were subsequently compared to identify species-specific genes. An overall concordance between pericyte transcriptomes was found in both Smart-seq and 10x data. 206 orthologous genes were consistently differentially expressed between human and mouse from both platforms, 91 genes were specific/up-regulated in human and 115 in mouse. Gene ontology analysis revealed differences in transporter categories in mouse and human brain pericytes. Importantly, several genes implicated in human disease were expressed in human but not in mouse brain pericytes, including SLC6A1 , CACNA2D3 , and SLC20A2. This study provides a systematic illustration of the similarities and differences between mouse and human adult brain pericytes. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

17. Identification of human-specific amino acid residues governing atenolol transport via organic cation transporter 2.

Author

Hosooka, Akira, Yasujima, Tomoya, Murata, Ayano, Yamashiro, Takahiro, and Yuasa, Hiroaki

Subjects

*ORGANIC cation transporters, *AMINO acid residues, *ION transport (Biology), *SITE-specific mutagenesis, *ATENOLOL

Abstract

[Display omitted] Organic cation transporter 2 (OCT2/SLC22A2) is predominantly localized on the basolateral membranes of renal tubular epithelial cells and plays a crucial role in the renal secretion of various cationic drugs. Although variations in substrate selectivity among renal organic cation transport systems across species have been reported, the characteristics of OCT2 remain unclear. In this study, we demonstrated that atenolol, a β1-selective adrenergic antagonist, is transported almost exclusively by human OCT2, contrasting with OCT2s from other selected species. Using chimeric constructs between human OCT2 (hOCT2) and the highly homologous monkey OCT2 (monOCT2), along with site-directed mutagenesis, we identified non-conserved amino acids Val8, Ala31, Ala34, Tyr222, Tyr245, Ala270, Ile394, and Leu503 as pivotal for hOCT2-mediated atenolol transport. Kinetic analysis revealed that atenolol was transported by hOCT2 with a 12-fold lower affinity than MPP+, a typical OCT2 substrate. The inhibitory effect of atenolol on MPP+ transport was 6200-fold lower than that observed for MPP+ on atenolol transport. Additionally, we observed weaker inhibitory effects on MPP+ transport compared to atenolol transport with ten different OCT2 substrates. Altogether, this study suggests that eight hOCT2-specific amino acids constitute the low-affinity recognition site for atenolol transport, indicating differences in OCT2-mediated drug elimination between humans and highly homologous monkeys. Our findings underscore the importance of understanding species-specific differences in drug transport mechanisms, shedding light on potential variations in drug disposition and aiding in drug development. [ABSTRACT FROM AUTHOR]

Published

2024

18. Is the β3-Adrenoceptor a Valid Target for the Treatment of Obesity and/or Type 2 Diabetes?

Author

Haneen S. Dwaib and Martin C. Michel

Subjects

β3-adrenoceptor, obesity, type 2 diabetes, species difference, insulin release, glucose uptake, Microbiology, QR1-502

Abstract

β3-Adrenoceptors mediate several functions in rodents that could be beneficial for the treatment of obesity and type 2 diabetes. This includes promotion of insulin release from the pancreas, cellular glucose uptake, lipolysis, and thermogenesis in brown adipose tissue. In combination, they lead to a reduction of body weight in several rodent models including ob/ob mice and Zucker diabetic fatty rats. These findings stimulated drug development programs in various pharmaceutical companies, and at least nine β3-adrenoceptor agonists have been tested in clinical trials. However, all of these projects were discontinued due to the lack of clinically relevant changes in body weight. Following a concise historical account of discoveries leading to such drug development programs we discuss species differences that explain why β3-adrenoceptors are not a meaningful drug target for the treatment of obesity and type 2 diabetes in humans.

Published

2023

19. Morphological change and migration of revegetated dunes in the Ketu Sandy Land of the Qinghai Lake, China

Author

Wu, Wangyang, Zhang, Dengshan, Tian, Lihui, Shen, Tingting, Gao, Bin, and Yang, Dehui

Published

2023

20. Elucidation of clearance mechanism of TP0463518, a novel hypoxia-inducible factor prolyl hydroxylase inhibitor: does a species difference in excretion routes exist between humans and animals?

Author

Takano, Hiroki, Mizuno-Yasuhira, Akiko, Yamaguchi, Jun-ichi, and Endo, Hiromi

Subjects

*HYPOXIA-inducible factors, *EXCRETION, *KIDNEY tubules, *SPECIES, *HUMAN beings

Abstract

1. TP0463518, a novel hypoxia-inducible factor prolyl hydroxylase inhibitor, is reportedly excreted predominantly through urinary excretion in an unchanged form in humans, with partial biliary excretion also possible. However, the clearance mechanisms remain unclear. The aim of this study was to investigate the clearance mechanisms in humans and to assess species differences in the excretion routes. 2. TP0463518 was not metabolised in rat, dog, or human hepatocytes. TP0463518 is a substrate for human BCRP, OATP1B1, OATP1B3, and OAT3, suggesting that renal uptake by OAT3 is probably the predominant clearance route, with hepatic uptake by OATP1B1 and OATP1B3 contributing partially to clearance in humans. 3. A species difference in excretion routes was observed. The unchanged urinary excretion rates in humans, male rats, female rats, dogs, and monkeys were 80.7%, 0.1%, 40.9%, 15.2%, and 72.6%, respectively. Urinary excretion was predominant in humans and monkeys, while only biliary excretion was observed in male rats. Uptake studies using hepatocytes showed that the hepatic uptake clearance in rats was 13.6-fold higher than that in humans. Therefore, not only reabsorption via renal tubules, but also hepatic uptake seems to be involved in the species differences in excretion routes between rats and humans. [ABSTRACT FROM AUTHOR]

Published

2022

21. In vivo degradation and endothelialization of an iron bioresorbable scaffold

Author

Wenjiao Lin, Hongjie Zhang, Wanqian Zhang, Haiping Qi, Gui Zhang, Jie Qian, Xin Li, Li Qin, Haifeng Li, Xiang Wang, Hong Qiu, Xiaoli Shi, Wei Zheng, Deyuan Zhang, Runlin Gao, and Jiandong Ding

Subjects

Iron bioresorbable scaffold, Species difference, Endothelialization, In vivo biodegradation, Optical coherence tomography, Materials of engineering and construction. Mechanics of materials, TA401-492, Biology (General), QH301-705.5

Abstract

Detection of in vivo biodegradation is critical for development of next-generation medical devices such as bioresorbable stents or scaffolds (BRSs). In particular, it is urgent to establish a nondestructive approach to examine in vivo degradation of a new-generation coronary stent for interventional treatment based on mammal experiments; otherwise it is not available to semi-quantitatively monitor biodegradation in any clinical trial. Herein, we put forward a semi-quantitative approach to measure degradation of a sirolimus-eluting iron bioresorbable scaffold (IBS) based on optical coherence tomography (OCT) images; this approach was confirmed to be consistent with the present weight-loss measurements, which is, however, a destructive approach. The IBS was fabricated by a metal-polymer composite technique with a polylactide coating on an iron stent. The efficacy as a coronary stent of this new bioresorbable scaffold was compared with that of a permanent metal stent with the name of trade mark Xience, which has been widely used in clinic. The endothelial coverage on IBS was found to be greater than on Xience after implantation in a rabbit model; and our well-designed ultrathin stent exhibited less individual variation. We further examined degradation of the IBSs in both minipig coronary artery and rabbit abdominal aorta models. The present result indicated much faster iron degradation of IBS in the rabbit model than in the porcine model. The semi-quantitative approach to detect biodegradation of IBS and the finding of the species difference might be stimulating for fundamental investigation of biodegradable implants and clinical translation of the next-generation coronary stents.

Published

2021

22. Bisphenol A Analogues Inhibit Human and Rat 11β-Hydroxysteroid Dehydrogenase 1 Depending on Its Lipophilicity

Author

Hong Wang, Jianmin Sang, Zhongyao Ji, Yang Yu, Shaowei Wang, Yang Zhu, Huitao Li, Yiyan Wang, Qiqi Zhu, and Renshan Ge

Subjects

bisphenol analog, glucocorticoid, 11β-hydroxysteroid dehydrogenase 1, cortisol, docking analysis, species difference, Organic chemistry, QD241-441

Abstract

Bisphenol A (BPA) analogues substituted on the benzene ring are widely used in a variety of industrial and consumer materials. However, their effects on the glucocorticoid-metabolizing enzyme 11β-hydroxysteroid dehydrogenase 1 (11β-HSD1) remain unclear. The inhibitory effects of 6 BPA analogues on the inhibition of human and rat 11β-HSD1 were investigated. The potencies of inhibition on human 11β-HSD1 were bisphenol H (IC50, 0.75 µM) > bisphenol G (IC50, 5.06 µM) > diallyl bisphenol A (IC50, 13.36 µM) > dimethyl bisphenol A (IC50, 30.18 µM) > bisphenol A dimethyl ether (IC50, 33.08 µM) > tetramethyl bisphenol A (>100 µM). The inhibitory strength of these chemicals on rat 11β-HSD1 was much weaker than that on the human enzyme, ranging from 74.22 to 205.7 µM. All BPA analogues are mixed/competitive inhibitors of both human and rat enzymes. Molecular docking studies predict that bisphenol H and bisphenol G both bind to the active site of human 11β-HSD1, forming a hydrogen bond with catalytic residue Ser170. The bivariate correlation of IC50 values with LogP (lipophilicity), molecular weight, heavy atoms, and molecular volume revealed a significant inverse regression and the correlation of IC50 values with ΔG (low binding energy) revealed a positive regression. In conclusion, the lipophilicity, molecular weight, heavy atoms, molecular volume, and binding affinity of a BPA analogue determine the inhibitory strength of human and rat 11β-HSD isoforms.

Published

2023

23. Species-independent stimulation of osteogenic differentiation induced by osteoclasts.

Author

Zhang, Yang, Polman, Marjolein, Mohammad, Abdullah Faqeer, Hermens, Inge, Zhuang, Zhumei, Wang, Huanan, and van den Beucken, Jeroen JJP.

Subjects

*OSTEOCLASTS, *CELL size, *CELL communication, *BONE resorption, *BONE remodeling, *BONE growth

Abstract

The coupling of bone resorption and bone formation is well-recognized in the bone remodeling process, in which osteoblasts and osteoclasts are key players. However, the anabolic effect of human primary osteoclasts has rarely been reported as mouse and cell line derived osteoclasts were mostly used in previous reports. Therefore, a comprehensive comparison of mouse and human osteoclasts and their corresponding functions is needed to study cell-cell interactions between osteoclasts and osteoblasts. Osteoclasts from mouse and human origin were generated, characterized and compared, after which their anabolic effects on the osteogenic differentiation of mouse and human MSCs were assessed. Both murine RAW264.7 derived osteoclasts (mOCs) and primary human osteoclasts (hOCs) derived from buffy coats characteristically displayed multinuclearity, marked integrin β3 expression and enhanced TRAP activity. Despite comparable cell size, mOCs showed higher osteoclast density (number of osteoclasts per cm2 culture dish) and osteoclast nuclearity (average number of nuclei per osteoclast), but lower TRAP activity compared to hOCs. Culturing primary rat and human bone marrow MSCs with the conditioned medium of mOCs or hOCs showed anabolic effects regarding the osteogenic differentiation of MSCs with superiority of hOCs over mOCs. We conclude that despite morphological and functional differences between mouse and human osteoclasts, their secretory factors evoke similar anabolic effects on MSC osteogenic differentiation. • A comprehensive comparison of mouse and human osteoclasts were conducted. • Murine osteoclasts had higher density and nuclearity than human osteoclasts. • Osteoclasts showed anabolic effects on MSCs irrespective of species. • Human osteoclasts had stronger anabolic effects on MSCs than murine osteoclasts. [ABSTRACT FROM AUTHOR]

Published

2022

24. Lack of human relevance for rat developmental toxicity of flumioxazin is revealed by comparative heme synthesis assay using embryonic erythroid cells derived from human and rat pluripotent stem cells.

Author

Koji Asano, Yasuhiko Takahashi, Manako Ueno, Takako Fukuda, Mitsuhiro Otani, Sachiko Kitamoto, and Yoshitaka Tomigahara

Subjects

*PLURIPOTENT stem cells, *EMBRYONIC stem cells, *HEME, *PROTOPORPHYRINOGEN oxidase, *RATS, *INDUCED pluripotent stem cells, *INHIBITION of cellular proliferation

Abstract

Fetal rat anemia from flumioxazin, an N-phenylimide herbicide, is caused by suppression of heme synthesis resulting from inhibition of protoporphyrinogen oxidase (PPO). A series of studies to investigate the effects of flumioxazin have revealed that developmental toxicity is caused in rats but not in rabbits, and the adverse effects are not likely to occur in humans. In this study, as a final weight-of-evidence approach for assessing the human safety of flumioxazin, we compared the toxic potential of inhibition of heme synthesis leading to anemia between human and rat embryonic erythroid cells, which were degenerated as the target of flumioxazin in the rat developmental toxicity. To obtain embryonic erythroid cells, we established respective differentiation methods for embryonic erythroid cells from both human and rat pluripotent stem cells. Derived human and rat embryonic erythroid cells were treated with flumioxazin or dihydroartemisinin (DHA), an anti-malarial drug that causes reduction of embryonic erythroid cells and leads to anemia without species differences. In the human embryonic erythroid cells, DHA inhibited cell proliferation and heme synthesis, whereas there were no effects on heme content or cell proliferation with flumioxazin. In the rat embryonic erythroid cells, however, a dose-related reduction in heme synthesis occurred with treatment of flumioxazin and of DHA. These results confirmed that flumioxazin has no effect on heme synthesis in human embryonic erythroid cells. The present data were in accordance with the results of previous studies and demonstrated that there are no concerns in humans regarding the developmental toxicity of flumioxazin observed in rats. [ABSTRACT FROM AUTHOR]

Published

2022

25. Comment on: The m6A Reader IGF2BP2 Regulates Macrophage Phenotypic Activation and Inflammatory Diseases by Stabilizing TSC1 and PPARγ.

Author

Schymik, Hanna S., Dahlem, Charlotte, Barghash, Ahmad, and Kiemer, Alexandra K.

Subjects

*MACROPHAGE activation, *RNA-binding proteins, *MACROPHAGES

Abstract

Recently, first insights into the regulation and the role of the RNA‐binding protein IMP2 in macrophage activation have been published by Wang et al. This study addresses differences in the regulation of IMP2 between the human and murine system. While the expression of IMP2 in anti‐inflammatory macrophages is synchronous in mice and men, IMP2 expression is regulated differently in inflammatory macrophages. [ABSTRACT FROM AUTHOR]

Published

2022

26. Validation of the Absorption-Enhancing Ability of Oligoarginines Grafted onto a Backbone of Hyaluronic Acid through Animal Studies from Rodents to Primates.

Author

Yagi H, Tomono T, Abe K, Tsutsumi Y, Makabe M, Mitsuhashi H, Kimura T, Kobayashi H, Miyata K, Shigeno K, and Sakuma S

Subjects

Animals, Mice, Male, Administration, Intranasal, Nasal Mucosa metabolism, Nasal Mucosa drug effects, Macaca fascicularis, Nasal Absorption drug effects, Arginine chemistry, Hyaluronic Acid chemistry

Abstract

The purpose of our research is to develop functional additives that enhance mucosal absorption of biologics, such as peptide/protein and antibody drugs, to provide their non-to-poor invasive dosage forms self-managed by patients. Our previous in vivo and in vitro studies demonstrated that the intranasal absorption of biologics in mice was significantly improved when coadministered with oligoarginines anchored chemically to hyaluronic acid via a glycine spacer, presumably through syndecan-4-mediated macropinocytosis under activation by oligoarginines. The present mouse experiments first revealed that diglycine-L-tetraarginine-linked hyaluronic acid significantly enhanced the intranasal absorption of sulpiride, which is a poor-absorptive organic compound with a low molecular weight. However, similar enhancement was not observed for levofloxacin, which has a similarly low molecular weight but is a well-absorptive organic compound, probably because its absorption was mostly dominated by passive diffusion. The subsequent monkey experiments revealed that there was no species difference in the absorption-enhancing ability of diglycine-L-tetraarginine-linked hyaluronic acid for not only organic compounds but also biologics. This was presumably because the expression levels of endocytosis-associated membrane proteins on the nasal mucosa in monkeys were almost equivalent to those in mice, and poorly membrane-permeable/membrane-impermeable drugs were mainly absorbed via syndecan-4-mediated macropinocytosis, regardless of animal species. Drug concentrations in the brain assessed in mice and monkeys and those in the cerebral spinal fluids (CSFs) assessed in monkeys indicated that drugs would be delivered from the systemic circulation to the central nervous system by crossing the blood-brain and the blood-CSF barriers under coadministration with the hyaluronic acid derivative. In line with our original hypothesis, this new set of data supported that our oligoarginine-linked hyaluronic acid would locally perform on the mucosal surface and enhance the membrane permeation of drugs under its colocalization.

Published

2024

27. A nodal point for brain-state transitions: the mesopontine tegmental anesthesia area (MPTA) in mice.

Author

Yatziv, Shai-lee, Strumza, Noga, Minert, Anne, Baron, Mark, and Devor, Marshall

Subjects

*GABA agents, *RATS, *GENERAL anesthesia, *ANESTHESIA, *MICE, *ANIMAL anesthesia

Abstract

The mesopontine tegmental anesthesia area (MPTA) was identified in rats as a singular brainstem locus at which microinjection of minute quantities of GABAergic agents rapidly and reversibly induces loss-of-consciousness and a state of general anesthesia, while lesioning renders animals insensitive to anesthetics at normal systemic doses. Obtaining similar results in mice has been challenging, however, slowing research progress on how anesthetics trigger brain-state transitions. We have identified roadblocks that impeded translation from rat to mouse and tentatively located the MPTA equivalent in this second species. We describe here a series of modifications to the rat protocol that allowed us to document pro-anesthetic changes in mice following localized stereotactic delivery of minute quantities (20 nL) of the GABAA-receptor agonist muscimol into the brainstem mesopontine tegmentum. The optimal locus identified proved to be homologous to the MPTA in rats, and local neuronal populations in rats and mice were similar in size and shape. This outcome should facilitate application of the many innovative gene-based methodologies available primarily in mice to the study of how activity in brainstem MPTA neurons brings about anesthetic loss-of-consciousness and permits pain-free surgery. [ABSTRACT FROM AUTHOR]

Published

2021

28. Identification of the organic anion transporting polypeptides responsible for the hepatic uptake of the major metabolite of epyrifenacil, S‐3100‐CA, in mice.

Author

Sakurai, Kengo, Kuroda, Tomohiro, Abe, Jun, Toda, Hiroshi, and Kitamoto, Sachiko

Abstract

Epyrifenacil is a novel herbicide that acts as an inhibitor of protoporphyrinogen oxidase (PPO) and produces hepatotoxicity in rodents by inhibiting PPO. Our previous research revealed that the causal substance of hepatotoxicity is S‐3100‐CA, a major metabolite of epyrifenacil, and that human hepatocyte uptake of S‐3100‐CA was significantly lower than rodent one, suggesting less relevant to hepatotoxicity in humans. To clarify the species difference in the uptake of S‐3100‐CA, we focused on organic anion transporting polypeptides (OATPs) and carried out an uptake assay using human, rat, and mouse OATP hepatic isoforms‐expressing 293FT cells. As a result, all the examined OATPs were found to contribute to the S‐3100‐CA uptake, suggesting that the species difference was not due to the differences in selectivity toward OATP isoforms. When [14C]epyrifenacil was administered to mice, the liver concentration of S‐3100‐CA was higher in males than in females. Furthermore, when [14C]epyrifenacil was administered with OATP inhibitors, the liver/plasma ratio of S‐3100‐CA was significantly decreased by rifampicin, an Oatp1a1/Oatp1a4 inhibitor in mice, but not by digoxin, an Oatp1a4‐specific inhibitor. This result indicates that Oatp1a1, the predominant transporter in male mice, is the main contributor to the hepatic transport of S‐3100‐CA, and consequently to the gender difference. Moreover, we conclude that the species difference in the hepatic uptake of S‐3100‐CA observed in our previous research is not due to differences in the selectivity toward OATP isoforms but rather to the significantly higher expression of OATPs which mediate uptake of S‐3100‐CA in rodents than in humans.Epyrifenacilis a novel herbicide and its majormetabolite, S‐3100‐CA, was reported to cause hepatotoxicity in rodents via asignificant level of active uptake into hepatocytes. In this study, we have revealed that various OATPs mediate the uptake ofS‐3100‐CA by using OATP expressing cells. In addition, in vivo hepaticuptake of S‐3100‐CA was inhibited by rifampicin, an Oatp1a1/Oatp1a4 inhibitorin mice but not by digoxin, an Oatp1a4‐specific inhibitor, suggesting Oatp1a1 isthe predominant contributor of active uptake in mouse hepatocytes. Furthermore, from a considerationof the previous literatures, we knew that the expression levels of OATPs inlivers clearly mirror the gender and species difference in hepatic uptake ofS‐3100‐CA. [ABSTRACT FROM AUTHOR]

Published

2021

29. Intrinsic relative activities of κ opioid agonists in activating Gα proteins and internalizing receptor: Differences between human and mouse receptors

Author

DiMattio, Kelly M, Ehlert, Frederick J, and Liu-Chen, Lee-Yuan

Subjects

Pediatric, Neurosciences, Animals, Arrestins, Cell Line, Tumor, Dose-Response Relationship, Drug, Endocytosis, GTP-Binding Protein alpha Subunits, Guanosine 5'-O-(3-Thiotriphosphate), Humans, Ligands, Mice, Models, Biological, Neurotransmitter Agents, Protein Binding, Receptors, Opioid, kappa, Signal Transduction, Species Specificity, Transfection, beta-Arrestins, Ligand bias, Kappa opioid receptor, Species difference, Artificial Intelligence and Image Processing, Pharmacology and Pharmaceutical Sciences, Psychology, Cognitive Sciences, Behavioral Science & Comparative Psychology, Pharmacology & Pharmacy

Abstract

Several investigators recently identified biased κ opioid receptor (KOP receptor) agonists. However, no comprehensive study of the functional selectivity of available KOP receptor agonists at the human and mouse KOP receptors (hKOP receptor and mKOP receptor, respectively) has been published. Here we examined the ability of over 20 KOP receptor agonists to activate G proteins and to internalize the receptor. Clonal neuro-2a mouse neuroblastoma (N2a) cells stably transfected with the hKOP receptor or mKOP receptor were used. We employed agonist-induced [(35)S]GTPγS binding and KOP receptor internalization as measures of activation of G protein and β-arrestin pathways, respectively. The method of Ehlert and colleagues was used to quantify intrinsic relative activities at G protein activation (RAi-G) and receptor internalization (RAi-I) and the degree of functional selectivity between the two [Log RAi-G - logRAi-I, RAi-G/RAi-I and bias factor]. The parameter, RAi, represents a relative estimate of agonist affinity for the active receptor state that elicits a given response. The endogenous ligand dynorphin A (1-17) was designated as the balanced ligand with a bias factor of 1. Interestingly, we found that there were species differences in functional selectivity. The most striking differences were for 12-epi-salvinorin A, U69,593, and ICI-199,441. 12-Epi-salvinorin A was highly internalization-biased at the mKOP receptor, but apparently G protein-biased at hKOP receptor. U69,593 was much more internalization-biased at mKOP receptor than hKOP receptor. ICI199,441 showed internalization-biased at the mKOP receptor and G protein-biased at the hKOP receptor. Possible mechanisms for the observed species differences are discussed.

Published

2015

30. Identification of the organic anion transporting polypeptides responsible for the hepatic uptake of the major metabolite of epyrifenacil, S‐3100‐CA, in mice

Author

Kengo Sakurai, Tomohiro Kuroda, Jun Abe, Hiroshi Toda, and Sachiko Kitamoto

Subjects

active hepatic uptake, epyrifenacil, gender difference, herbicide, species difference, OATP, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Epyrifenacil is a novel herbicide that acts as an inhibitor of protoporphyrinogen oxidase (PPO) and produces hepatotoxicity in rodents by inhibiting PPO. Our previous research revealed that the causal substance of hepatotoxicity is S‐3100‐CA, a major metabolite of epyrifenacil, and that human hepatocyte uptake of S‐3100‐CA was significantly lower than rodent one, suggesting less relevant to hepatotoxicity in humans. To clarify the species difference in the uptake of S‐3100‐CA, we focused on organic anion transporting polypeptides (OATPs) and carried out an uptake assay using human, rat, and mouse OATP hepatic isoforms‐expressing 293FT cells. As a result, all the examined OATPs were found to contribute to the S‐3100‐CA uptake, suggesting that the species difference was not due to the differences in selectivity toward OATP isoforms. When [14C]epyrifenacil was administered to mice, the liver concentration of S‐3100‐CA was higher in males than in females. Furthermore, when [14C]epyrifenacil was administered with OATP inhibitors, the liver/plasma ratio of S‐3100‐CA was significantly decreased by rifampicin, an Oatp1a1/Oatp1a4 inhibitor in mice, but not by digoxin, an Oatp1a4‐specific inhibitor. This result indicates that Oatp1a1, the predominant transporter in male mice, is the main contributor to the hepatic transport of S‐3100‐CA, and consequently to the gender difference. Moreover, we conclude that the species difference in the hepatic uptake of S‐3100‐CA observed in our previous research is not due to differences in the selectivity toward OATP isoforms but rather to the significantly higher expression of OATPs which mediate uptake of S‐3100‐CA in rodents than in humans.

Published

2021

31. Diminished Hepatocarcinogenesis by a Potent, High-Affinity Human PPARα Agonist in PPARA-Humanized Mice.

Author

Foreman, Jennifer E, Koga, Takayuki, Kosyk, Oksana, Kang, Boo-Hyon, Zhu, Xiaoyang, Cohen, Samuel M, Billy, Laura J, Sharma, Arun K, Amin, Shantu, Gonzalez, Frank J, Rusyn, Ivan, and Peters, Jeffrey M

Subjects

*PEROXISOME proliferator-activated receptors, *THROMBOPOIETIN receptors, *MICE, *LABORATORY mice, *LIVER cancer

Abstract

Ppara -null and PPARA -humanized mice are refractory to hepatocarcinogenesis caused by the peroxisome proliferator-activated receptor-α (PPARα) agonist Wy-14,643. However, the duration of these earlier studies was limited to approximately 1 year of treatment, and the ligand used has a higher affinity for the mouse PPARα compared to the human PPARα. Thus, the present study examined the effect of long-term administration of a potent, high-affinity human PPARα agonist (GW7647) on hepatocarcinogenesis in wild-type, Ppara -null, or PPARA -humanized mice. In wild-type mice, GW7647 caused hepatic expression of known PPARα target genes, hepatomegaly, hepatic MYC expression, hepatic cytotoxicity, and a high incidence of hepatocarcinogenesis. By contrast, these effects were essentially absent in Ppara -null mice or diminished in PPARA -humanized mice, although hepatocarcinogenesis was observed in both genotypes. Enhanced fatty change (steatosis) was also observed in both Ppara -null and PPARA -humanized mice independent of GW7647. PPARA -humanized mice administered GW7647 also exhibited increased necrosis after 5 weeks of treatment. Results from these studies demonstrate that the mouse PPARα is required for hepatocarcinogenesis induced by GW7647 administered throughout adulthood. Results also indicate that a species difference exists between rodents and human PPARα in the response to ligand activation of PPARα. The hepatocarcinogenesis observed in control and treated Ppara -null mice is likely mediated in part by increased hepatic fatty change, whereas the hepatocarcinogenesis observed in PPARA -humanized mice may also be due to enhanced fatty change and cytotoxicity that could be influenced by the minimal activity of the human PPARα in this mouse line on downstream mouse PPARα target genes. The Ppara -null and PPARA -humanized mouse models are valuable tools for examining the mechanisms of PPARα-induced hepatocarcinogenesis, but the background level of liver cancer must be controlled for in the design and interpretation of studies that use these mice. [ABSTRACT FROM AUTHOR]

Published

2021

32. Time- and area-dependent macrophage/microglial responses after focal infarction of the macaque internal capsule.

Author

Kato, Junpei, Murata, Yumi, Takashima, Ichiro, and Higo, Noriyuki

Subjects

*MICROGLIA, *INFARCTION, *MACAQUES, *MOTOR cortex, *EFFERENT pathways, *PYRAMIDAL tract

Abstract

• Iba1-immunoreactivity increased after infarction of the macaque internal capsule. • Increased Iba1-positive MΦ/MG persisted in the periinfarct core at least 6 months. • Iba1-positive MΦ/MG transiently increased in M1 layer V during several weeks. • Analyses using functional phenotype markers suggested their anti-inflammatory roles. • The time course of proliferation and the function may differ from those in rodents. We quantitatively investigated temporal changes of macrophages and microglia (MΦ/MG) after focal infarction of the internal capsule using a macaque model we recently established. Immunoreactivity for Iba1, a general marker for MΦ/MG, in the periinfarct core gradually increased from 0 days to 2–3 weeks after infarction, and the increased immunoreactivity continued at least until 6 months; no study in rodents has reported increased Iba1-immunoreactive cells for so long. Retrograde atrophy or degeneration of neurons in layer V of the primary motor cortex, where the descending motor tract originates, was seen as secondary damage. Here we found that Iba1-positive MΦ/MG transiently increased in layer V during several weeks after the infarction. Therefore, the time course of MΦ/MG activation differs between the perilesional area and the remote brain area where secondary damage occurs to tissue initially preserved after the infarct. Detailed analyses using the functional phenotype markers CD68, CD86, and CD206, as well as cytokines released by cells with each phenotype, suggest an anti-inflammatory role for activated MΦ/MG both in the periinfarct core during the chronic phase and in the primary motor cortex. [ABSTRACT FROM AUTHOR]

Published

2021

33. Identification of Bromophenols' glucuronidation and its induction on UDP- glucuronosyltransferases isoforms.

Author

Zhang, Haoqian, Yang, Li, Shen, Dandan, Zhu, Yuanhang, and Zhang, Lihua

Subjects

GLUCURONIDATION, BROMOPHENOLS, POLLUTANTS, LIVER microsomes, CHEMICAL reagents, RATS

Abstract

Bromophenols (BPs) are prominent environmental pollutants extensively utilized in aquaculture, pharmaceuticals, and chemical manufacturing. This study aims to identify UDP- glucuronosyltransferases (UGTs) isoforms involved in the metabolic elimination of BPs. Mono-glucuronides of BPs were detected in human liver microsomes (HLMs) incubated with the co-factor uridine-diphosphate glucuronic acid (UDPGA). The glucuronidation metabolism reactions catalyzed by HLMs followed Michaelis-Menten or substrate inhibition kinetics. Recombinant enzymes and inhibition experiments with chemical reagents were employed to phenotype the principal UGT isoforms participating in BP glucuronidation. UGT1A6 emerged as the major enzyme in the glucuronidation of 4-Bromophenol (4-BP), while UGT1A1, UGT1A6, and UGT1A8 were identified as the most essential isoforms for metabolizing 2,4-dibromophenol (2,4-DBP). UGT1A1, UGT1A8, and UGT2B4 were deemed the most critical isoforms in the catalysis of 2,4,6-tribromophenol (2,4,6-TBP) glucuronidation. Species differences were investigated using the liver microsomes of pig (PLM), rat (RLM), monkey (MyLM), and dog (DLM). Additionally, 2,4,6-TBP effects on the expression of UGT1A1 and UGT2B7 in HepG2 cells were evaluated. The results demonstrated potential induction of UGT1A1 and UGT2B7 upon exposure to 2,4,6-TBP at a concentration of 50 μM. Collectively, these findings contribute to elucidating the metabolic elimination and toxicity of BPs. [Display omitted] • In vitro, UGT1A6 predominately catalyzes the glucuronidation of 4-BP. • In vitro, UGT1A1, 1A6, 1A8 predominately catalyzes the glucuronidation of 2,4-DBP. • In vitro, UGT1A1, 1A8, 2B4 predominately catalyzes the glucuronidation of 2,4,6-TBP. • Monkeys, dogs, rats, and pigs manifested glucuronidation activity towards 2,4,6-TBP, 2,4-DBP and 4-BP. • Dogs exhibited the closest similarity in 2,4,6-TBP glucuronidation to humans. • Monkeys exhibited the closest similarity in 2,4-DBP and 4-BP glucuronidation to humans. [ABSTRACT FROM AUTHOR]

Published

2024

34. Retinoic Acid Biosynthesis Is Impaired in Human and Murine Endometriosis1

Author

Pierzchalski, Keely, Taylor, Robert N, Nezhat, Ceana, Jones, Jace W, Napoli, Joseph L, Yang, Guixiang, Kane, Maureen A, and Sidell, Neil

Subjects

Reproductive Medicine, Biomedical and Clinical Sciences, Endometriosis, Clinical Research, Aetiology, 2.1 Biological and endogenous factors, Animals, Female, Gene Expression Regulation, Humans, Mice, Knockout, Retinol-Binding Proteins, Cellular, Species Specificity, Tretinoin, endometriosis, RBP1, retinoic acid, Retinoic acid, cellular retinol binding protein 1, retinol, retinol ester, cellular retinol binding protein, RBP1 protein, human, Rbp1 protein, mouse, animal experiment, animal model, animal tissue, Article, biosynthesis, clinical article, controlled study, correlational study, endometrium biopsy, endometrium cell, female, high performance liquid chromatography, human, human cell, human tissue, in vitro study, liquid chromatography, mouse, nonhuman, priority journal, protein expression, stroma cell, tandem mass spectrometry, tissue level, animal, gene expression regulation, genetics, knockout mouse, metabolism, species difference, Murinae, Mus, Biological Sciences, Medical and Health Sciences, Obstetrics & Reproductive Medicine, Animal production, Zoology, Reproductive medicine

Abstract

Endometriosis is characterized by the presence of endometrial glands and stroma in extrauterine sites. Our objective was to determine whether endometriotic lesions (ELs) from women with endometriosis have altered retinoid levels compared with their eutopic endometrium, and to test the hypothesis that defects in all-trans retinoic acid (ATRA) biosynthesis in EL is related to reduced expression of cellular retinol-binding protein type 1 (RBP1). Retinoids were evaluated by liquid chromatography-tandem mass spectrometry and high-performance liquid chromatography in eutopic endometrial biopsies (EBs) and ELs from 42 patients with pathologically confirmed endometriosis. The ATRA levels were reduced, whereas the retinol and retinyl ester concentrations were elevated in EL compared with EB tissue. Similar results were found in a mouse model of endometriosis that used green fluorescent protein-positive endometrial tissue injected into the peritoneum of syngeneic hosts to mimic retrograde menses. The ATRA biosynthesis in vitro in retinol-treated primary human endometrial stromal cell (ESC) cultures derived from ELs was reduced compared with that of ESCs derived from patient-matched EBs. Correspondingly, RBP1 expression was reduced in tissue and ESCs derived from EL versus EB. Rbp1(-/-) mice showed reduced endometrial ATRA concentrations compared with wild type, associated with loss of tissue organization and hypercellularity. These findings provide the first quantitative measurements of ATRA in human endometrium and endometriosis, demonstrating reduced ATRA in ectopic tissue and corresponding ESC cultures. Quantitation of retinoids in murine endometriosis and in Rbp1(-/-) mice supports the contention that impaired ATRA synthesis caused by reduced RBP1 promotes an "endometriosis phenotype" that enables cells to implant and grow at ectopic sites.

Published

2014

35. Research on the Species Difference of the Hepatotoxicity of Medicine Based on Transcriptome

Author

Ziying Xu, Qianjun Kang, Zihui Yu, Lichun Tian, Jingxuan Zhang, and Ting Wang

Subjects

hepatotoxicity, drug induced liver injury, species difference, oxidative stress, steatosis, Therapeutics. Pharmacology, RM1-950

Abstract

In recent years, several drugs have been withdrawn from use by regulatory bodies owing to hepatotoxicity; therefore, studies on drug-induced liver injury (DILI) are being actively pursued. Most studies evaluating DILI use rats or mice as animal models to determine drug toxicity; however, the toxicity of a drug can vary between rats or mice. These inconsistencies in in vivo studies among different animal models affect the extrapolation of experimental results to humans. Thus, it is particularly important to choose the most suitable animal model to determine drug hepatotoxicity owing to the genomic differences between rats and mice resulting from evolution. In this study, genome-wide transcriptome analysis was used to explore hepatotoxicity caused by differences in species. Our findings provide the preclinical basis to further study the mechanisms of drug hepatotoxicity and aid in the selection of animal models to determine drug safety. We used murine models (Sprague-Dawley and Wistar rats, ICR and Kunming mice) in this study and by using transcriptome sequencing with the differentially expressed genes in rat and mouse livers as the entry point, we explored the mechanism of oxidative stress and the difference in gene expression in the lipid-metabolism pathway between rats and mice. The clinically established hepatotoxic drugs, fructus psoraleae and acetaminophen were used to validate our study. Using pathological studies, we confirmed that oxidative stress in mice was more serious than that in rats, and that Kunming mice were more suited for the study of oxidative stress-related DILI. The validity of our findings was further verified based on gene expression. Thus, our study could serve as a valuable reference for the evaluation of potential preclinical hepatotoxicity. Moreover, it could be used in the prediction and early diagnosis of drug-induced liver injury caused by traditional Chinese medicine or synthetic drugs, thereby providing a new avenue for drug-toxicity studies.

Published

2021

36. Effects of Nitrogen Load on Asian Trees

Author

Nakaji, Tatsuro, Izuta, Takeshi, and Izuta, Takeshi, editor

Published

2017

37. Identification of the metabolites of tofacitinib in liver microsomes by liquid chromatography combined with high resolution mass spectrometry.

Author

Liu, Ping, Wu, Shuang, and Dong, Zhaoqin

Abstract

Tofacitinib is an orally available Janus kinase inhibitor. The aim of this study was to investigate the metabolism of tofacitinib in mouse, rat, monkey, and human liver microsomes fortified with β‐nicotinamide adenine dinucleotide phosphate tetrasodium salt and uridine diphosphate glucuronic acid. The biotransformation was executed at a temperature of 37°C for 60 min, and the samples were analyzed by ultra‐high performance liquid chromatography combined with high‐resolution mass spectrometry (UHPLC–HRMS) operated in positive electrospray ionization mode. The structures of the metabolites were elucidated according to their retention times, accurate masses, and MS/MS spectra. Under the current conditions, a total of 13 metabolites, including 1 glucuronide conjugate, were detected and structurally proposed. Oxygenation of the pyrrolopyrimidine ring, oxygenation of piperidine ring, N‐demethylation, oxygenation of piperidine ring side chain, and glucuronidation were the primary metabolic pathways of tofacitinib. Among the tested species, tofacitinib showed significant species difference. Compared with other species, rat showed similar metabolic profiles to those of humans. The present study provides some new information regarding the metabolism of tofacitinib in animals and humans, which would bring us considerable benefits for the subsequent studies focusing on the pharmacological effect and toxicity of this drug. [ABSTRACT FROM AUTHOR]

Published

2021

38. 基于种属差异性利用 XRF 对塑钢窗的分类研究.

Author

姜红, 张岚泽, 刘津彤, and 苑志豪

Abstract

Copyright of China Plastics / Zhongguo Suliao is the property of Journal Office of CHINA PLASTICS and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

39. Methyl-hydroxylation and subsequent oxidation to produce carboxylic acid is the major metabolic pathway of tolbutamide in chimeric TK-NOG mice transplanted with human hepatocytes.

Author

Uehara, Shotaro, Yoneda, Nao, Higuchi, Yuichiro, Yamazaki, Hiroshi, and Suemizu, Hiroshi

Subjects

*TOLBUTAMIDE, *CARBOXYLIC acids, *LIVER cells, *ALDEHYDE dehydrogenase, *TYPE 2 diabetes

Abstract

Tolbutamide is an oral anti-hyperglycaemic agent used to treat non-insulin–dependent diabetes mellitus with species-dependent metabolic profiles. In this study, we investigated tolbutamide metabolism in chimeric TK-NOG mice transplanted with human hepatocytes (humanised-liver mice). Substantial 4-hydroxytolbutamide and 4-carboxytolbutamide production was observed in hepatocytes from humanised-liver mice (Hu-Liver cells) and humans, whereas 4-carboxytolbutamide production was not detected in mouse hepatocytes. In Hu-Liver cells, 4-hydroxytolbutamide formation was inhibited by sulfaphenazole (CYP2C9 inhibitor), whereas 4-carboxytolbutamide formation was inhibited by raloxifene/ethinyloestradiol (aldehyde oxidase inhibitor) and disulfiram (aldehyde dehydrogenase inhibitor). After a single oral dose of tolbutamide (10 mg/kg), the plasma levels of 4-carboxytolbutamide and p-tolylsulfonylurea were higher in humanised-liver mice than in TK-NOG mice. Urinary excretion was the predominant route (>99% of unchanged drug and metabolites detected in excreta) of elimination in both groups. 4-Carboxytolbutamide was the most abundant metabolite in humanised-liver mouse urine, as similarly reported for humans, whereas 4-hydroxytolbutamide was predominantly excreted in TK-NOG mouse urine. These results suggest that humanised-liver mice might represent a suitable animal model for studying the successive oxidative metabolism of tolbutamide by multiple drug-metabolising enzymes. Future work is warranted to study the general nature of primary alcohol metabolism using humanised-liver mice. [ABSTRACT FROM AUTHOR]

Published

2021

40. Bile Acids and FXR: Novel Targets for Liver Diseases

Author

Mary Stofan and Grace L. Guo

Subjects

bile acids, FGF15/19, FXR, agonist, non-alcoholic fatty liver disease, species difference, Medicine (General), R5-920

Abstract

Bile acids (BAs) are evolutionally conserved molecules synthesized in the liver from cholesterol and have been shown to be essential for lipid homeostasis. BAs regulate a variety of metabolic functions via modulating nuclear and membrane receptors. Farnesoid X receptor (FXR) is the most important nuclear receptor for maintaining BA homeostasis. FXR plays a tissue-specific role in suppressing BA synthesis and promoting BA enterohepatic circulation. Disruption of FXR in mice have been implicated in liver diseases commonly occurring in humans, including cholestasis, non-alcoholic fatty liver diseases, and hepatocellular carcinoma. Strategically targeting FXR activity has been rapidly used to develop novel therapies for the prevention and/or treatment of cholestasis and non-alcoholic steatohepatitis. This review provides an updated literature review on BA homeostasis and FXR modulator development.

Published

2020

41. Species difference in paclitaxel disposition correlated with poor pharmacological efficacy translation from mice to humans

Author

Li YF, Zhang C, Zhou S, He M, Zhang H, Chen N, Li F, Luan X, Pai M, Yuan H, Sun D, and Li Y

Subjects

paclitaxel, pharmacokinetics, tissue distribution, drug elimination/disposition, species difference, Therapeutics. Pharmacology, RM1-950

Abstract

Ying Fei Li,1 Chengyue Zhang,1 Simon Zhou,1 Miao He,2 Huixia Zhang,2 Nianhang Chen,1 Feng Li,2 Xin Luan,2 Manjunath Pai,3 Hebao Yuan,2 Duxin Sun,2 Yan Li1 1Translational Development and Clinical Pharmacology, Celgene Corporation, Summit, NJ 07901, USA; 2Department of Pharmaceutical Sciences, College of Pharmacy, University of Michigan, Ann Arbor, MI 48109, USA; 3Department of Clinical Pharmacy, College of Pharmacy, University of Michigan, Ann Arbor, MI 48109, USA Background: Paclitaxel (PTX) products currently approved by the Food and Drug Administration include Kolliphor EL-paclitaxel micelles (KoEL-paclitaxel, Taxol) and nanoparticle albumin-bound paclitaxel (nab-paclitaxel, Abraxane). Despite containing the same cytotoxic agent, different PTX formulations have distinct pharmacological responses and indications in patients with cancer. Several novel PTX delivery vehicles that have shown superior efficacy to Taxol in animal models failed to demonstrate efficacy in Phase II/III human clinical trials. Materials and methods: A 10 mg/kg IV dose of KoEL-paclitaxel or nab-paclitaxel was administered to mice, and the pharmacokinetics (PK) profile of PTX in mice was then compared with the human PK profile from clinical studies. Population PK model and simulation was used to delineate the distribution and elimination characteristics in each species. In addition, tumor shrinkage was measured after weekly administration of both formulations in mouse xenograft model. Results: Our pharmacokinetic modeling results suggested that elimination predominates over distribution in driving PTX disposition in mice, hence restricting the PTX tissue accumulation. Moreover, the rapid elimination of PTX in mice minimized the different formulation effects on PTX tissue distribution, which is believed to link to the superior efficacy of nab-paclitaxel over KoEL-paclitaxel seen in human. In contrast to mice, PTX distribution predominates over elimination in human, and the decline in plasma PTX concentration reflected the deeper tissue distribution by nab-paclitaxel.Conclusion: This species difference in PTX distribution and elimination hinders a simple direct extrapolation from animals to humans. Therefore, species difference in drug distribution and elimination should be carefully assessed during translational drug development. Keywords: paclitaxel, pharmacokinetics, tissue distribution, drug elimination, disposition, species difference

Published

2018

42. Contribution of Val/Ile87 residue in the extracellular domain in agonist-induced current responses of the human and rat P2X7 receptors.

Author

Caseley, Emily A, Muench, Stephen P, and Jiang, Lin-Hua

Abstract

The P2X7 receptor (P2X7R) is an ATP-gated cation channel with a critical role in many physiological and pathological processes, and shows prominent functional differences across mammalian species, exemplified by larger current responses of the rat (r) P2X7R to ATP and its analogue BzATP and a greater sensitivity to agonists compared with the human (h) P2X7R. Here, we showed that substitution of Val87 residue in the extracellular domain of the hP2X7R with isoleucine in the rP2X7R increased the current responses of the hP2X7R to both ATP and BzATP. Conversely, introduction of reciprocal I87V mutation in the rP2X7R led to a noticeable but statistically insignificant reduction in the current responses of the rP2X7R to ATP and BzATP. The mutations did not affect the sensitivity of the human and rat P2X7Rs to ATP and BzATP. These results suggest a contribution of Val/Ile87 in agonist-induced current responses of human and rat P2X7Rs, which helps to better understand the molecular determinants for species-dependent function of the mammalian P2X7Rs. [ABSTRACT FROM AUTHOR]

Published

2020

43. Differences in xanthotoxin metabolites in seven mammalian liver microsomes.

Author

Liu, Wenli, Zhi, Dexian, Wang, Lili, Yang, Aihon, Zhang, Lei, Ahiasi-Mensah, Joshua, and He, Xin

Subjects

*LIVER microsomes, *XENOBIOTICS, *FUSARIUM toxins, *SPRAGUE Dawley rats, *METABOLITES, *KRA, *BIOTRANSFORMATION (Metabolism), *BEAGLE (Dog breed)

Abstract

Xanthotoxin, abundantly occurring in fruits, vegetables, grapefruit juice and oils, is widely used in medicine for the treatment of psoriasis and vitiligo. Xanthotoxin possesses the ability to inhibit mechanism-based cytochrome P450 (CYP450)-mediated activities in rats and mice. Furthermore, it time-dependently obstructs a number of CYP450-mediated functions in humans. CYP450 enzymes are most abundant in the liver and induce metabolic activation of numerous xenobiotic compounds. The present study aimed to identify the similarities and differences in xanthotoxin metabolism in liver microsomes of 7 mammalian species, including human liver microsomes (HLM), Rhesus monkey liver microsomes (RMLM), Cynomolgus monkey liver microsomes (CMLM), Sprague Dawley rat liver microsomes (RLM), mouse liver microsomes (MLM), Dunkin Hartley guinea pig liver microsomes (PLM) and Beagle dog liver microsomes (DLM). Ultra-high performance liquid chromatography/quadrupole time-of-flight mass spectrometric analysis was used to determine the metabolites. A total of 3 metabolites were detected in RMLM, CMLM and RLM. Furthermore, two metabolites were observed in MLM, HLM, PLM and DLM. By analyzing the type and quantity of metabolites, the metabolism of xanthotoxin in MLM was indicated to be most similar to that in HLM. The metabolic transformations of xanthotoxin in the liver microsomes of the 7 species were analyzed in further detail. On the whole, the results of the present study provide a deeper understanding of the metabolic patterns of xanthotoxin in liver microsomes of different species, which may prove to be advantageous regarding the metabolic mechanisms of action of xanthotoxin. Further insight into drug metabolism with respect to different species will also aid in the selection of appropriate animal models for further research. [ABSTRACT FROM AUTHOR]

Published

2020

44. Extraction of peroxisome proliferator-activated receptor a agonist-induced lipid metabolism-related and unrelated genes in rat liver and analysis of their genomic location.

Author

Yumiko Mizukawa, Yoko Amagase, and Tetsuro Urushidani

Subjects

*PEROXISOME proliferator-activated receptors, *LIPID metabolism, *LIVER analysis, *LOCATION analysis, *GENES, *LIPIDS

Abstract

Although peroxisome proliferator-activated receptor α (PPARα) agonists are obviously hepatocarcinogenic in rodents, they have been widely used for dyslipidemia and proven to be safe for clinical use without respect to the species difference. It is established that PPARα acts as a part of the transcription factor complex, but its precise mechanism is still unknown. Using the data of Toxicogenomics Database, reliable genes responsive to PPARα agonists, clofibrate, fenofibrate and WY-14,643, in rat liver, were extracted from both in vivo and in vitro data, and sorted by their fold increase. It was found that there were many genes responding to fibrates exclusively in vivo. Most of the in vivo specific genes appear to be unrelated to lipid metabolism and are not upregulated in the kidney. Fifty-seven genes directly related to cell proliferation were extracted from in vivo data, but they were not induced in vitro at all. Analysis of PPAR-responsive elements could not explain the observed difference in induction. To evaluate possible interaction between neighboring genes in gene expression, the correlation of the fold changes of neighboring genes for 22 drugs with various PPARα agonistic potencies were calculated for the genes showing more than 2.5 fold induction by 3 fibrates in vivo, and their genomic location was compared with that of the human orthologue. In the present study, many candidates of genes other than lipid metabolism were selected, and these could be good starting points to elucidate the mechanism of PPARα agonist-induced rodent-specific toxicity. [ABSTRACT FROM AUTHOR]

Published

2020

45. Peroxisome proliferator-activated receptor a agonist-induced histidine decarboxylase gene expression in the rat and mouse liver.

Author

Yoko Amagase, Yumiko Mizukawa, and Tetsuro Urushidani

Subjects

*PEROXISOME proliferator-activated receptors, *GENE expression, *LIVER cells, *LIVER, *MICE, *HISTAMINE

Abstract

By analysis of the data from the Toxicogenomics Database (TG-GATEs), histidine decarboxylase gene (Hdc) was identified as largely and commonly upregulated by three fibrates, clofibrate, fenofibrate, and WY-14,643, which are known to induce hepatocellular hypertrophy and proliferation via stimulation of peroxisome proliferator-activated receptor α (PPARα) in rodents. As histamine has been reported to be involved in the proliferation of liver cells, the present study was conducted to focus on Hdc. Among other genes related to histidine and histamine, the expression of the gene of histamine ammonia lyase (Hal) was exclusively mobilized by the three fibrates. The expression of Hdc, which was usually very low in the liver, was increased with the repeated administration of fibrates, and concomitantly, the constitutive expression of Hal was suppressed. An interpretation is that the formation of urocanic acid from histidine under the normal condition switches to the formation of histamine. The mobilization of gene expression of Hdc and Hal by PPARα agonists could not be reproduced in primary cultured hepatocytes. The Hdc mRNA appeared to be translated to a protein which is processed differently from brain but similarly to gastric mucosa. Surprisingly, the fibrates caused hepatic hypertrophy but no induction of Hdc mRNA at all in mice. These results revealed that the changes in the histidine catabolism by PPARα agonists might be partially, but not directly, involved in the hepatocyte proliferation in rats, and there is a large genetic distance even between rat and mouse. [ABSTRACT FROM AUTHOR]

Published

2020

46. Prediction of circulating human metabolites of pemafibrate, a novel antidyslipidemic drug, using chimeric mice with humanized liver.

Author

Ogawa, Shin-ichiro, Uehara, Shotaro, Tsunenari, Yoshihiko, Kawai, Hiroyuki, Suemizu, Hiroshi, and Yamazaki, Hiroshi

Subjects

*FORECASTING, *LIVER, *MICE, *METABOLITES, *BODY weight

Abstract

Pharmacokinetics and metabolism of recently launched antidyslipidemic drug pemafibrate ((2R)-2-[3-({1,3-benzoxazol-2-yl[3-(4-methoxyphenoxy)propyl]amino}methyl)phenoxy]butanoic acid) was investigated in chimeric mice with humanized liver in the present study. The plasma unbound fractions of [14C]pemafibrate in mice (0.0046–0.0048) were higher than those in monkeys and humans (0.0015–0.0022). In chimeric mice with humanized liver intravenously treated with pemafibrate at 1.0 mg/kg body weight, the pharmacokinetic parameters (CLtotal, Vss and AUC0-inf) of unbound pemafibrate in chimeric mice with humanized liver were more similar to those reported in monkeys and humans than those in control mice. High concentrations of N-dealkylated form (M4) and benzoxazole 6-hydroxylated form (M6) of pemafibrate in plasma were observed as the main circulating metabolites in chimeric mice with humanized liver treated with pemafibrate. Moreover, the concentrations of other specified metabolites of pemafibrate were much higher in chimeric mice with humanized liver than in control mice. These results suggest that there are species differences in the pharmacokinetics of pemafibrate in vivo between mice tested and humans reported. Moreover, chimeric mice with humanized liver seem to be a beneficial animal model for further studies to predict the circulating human metabolites of pemafibrate and their pharmacokinetics. [ABSTRACT FROM AUTHOR]

Published

2020

47. Ecotype differences in aggression, neural activity and behaviorally relevant gene expression in cichlid fish.

Author

Baran, Nicole M. and Streelman, J. Todd

Subjects

*CICHLIDS, *GENE expression, *ANIMAL aggression, *FISH spawning, *GENETIC models, *STEROID synthesis, *MIRROR neurons

Abstract

In Lake Malawi, two ecologically distinct lineages of cichlid fishes (rock‐ vs sand‐dwelling ecotypes, each comprised of over 200 species) evolved within the last million years. The rock‐dwelling species (Mbuna) are aggressively territorial year‐round and males court and spawn with females over rocky substrate. In contrast, males of sand‐dwelling species are not territorial and instead aggregate on seasonal breeding leks in which males construct courtship "bowers" in the sand. However, little is known about how phenotypic variation in aggression is produced by the genome. In this study, we first quantify and compare behavior in seven cichlid species, demonstrating substantial ecotype and species differences in unconditioned mirror‐elicited aggression. Second, we compare neural activity in mirror‐elicited aggression in two representative species, Mchenga conophoros (sand‐dwelling) and Petrotilapia chitimba (rock‐dwelling). Finally, we compare gene expression patterns between these two species, specifically within neurons activated during mirror aggression. We identified a large number of genes showing differential expression in mirror‐elicited aggression, as well as many genes that differ between ecotypes. These genes, which may underly species differences in behavior, include several neuropeptides, genes involved in the synthesis of steroid hormones and neurotransmitter activity. This work lays the foundation for future experiments using this emerging genetic model system to investigate the genomic basis of evolved species differences in both brain and behavior. [ABSTRACT FROM AUTHOR]

Published

2020

48. Determination of protein binding for novel 2‐(2‐hydroxypropanamido)‐5‐trifluoromethyl benzoic acid enantiomers to rats, dogs, and humans plasma by UPLC‐MS/MS.

Author

Rong, Rong, Wang, Xin, Dan, Yuhan, Zhang, Ruizhen, Zhao, Yunli, and Yu, Zhiguo

Subjects

*PROTEIN binding, *BENZOATES, *ENANTIOMERS, *BLOOD proteins, *GRADIENT elution (Chromatography), *ELUTION (Chromatography)

Abstract

R‐/S‐2‐(2‐hydroxypropanamido)‐5‐trifluoromethyl benzoic acid (R‐/S‐HFBA) is a novel COX inhibitor with remarkable anti‐inflammatory and antiplatelet aggregation activities, but no gastrointestinal toxicity. In our previous study, the different pharmacokinetic profiles of the two enantiomers in rats were observed after administration of R‐HFBA and S‐HFBA. Stereoselective protein binding of the two enantiomers may be a reason for the different pharmacokinetic behaviors. In this study, we developed and validated an UPLC‐MS/MS method for determining stereoselective binding of HFBA enantiomers to rat, dog, and human plasma in vitro. Chromatographic separation was achieved by gradient elution with a flow rate of 0.4 mL/min. MS/MS detection was operated in positive electrospray using multiple reaction monitoring (MRM) mode. The method was proved to be linear over the concentration range of 0.005 to 10 μg/mL with a lower limit of quantification of 0.005 μg/mL. The developed method was successfully employed to the plasma protein binding study of HFBA enantiomers. Equilibrium dialysis method was applied to assess drug‐plasma protein interactions. The results showed that the enantiomers were both extensively bound to three species plasma and protein binding of R‐/S‐HFBA was concentration dependent. R‐HFBA and S‐HFBA showed significant species difference among rat, dog, and human plasma and stereoselective plasma protein binding. [ABSTRACT FROM AUTHOR]

Published

2020

49. Interspecies metabolic diversity of artocarpin in vitro mammalian liver microsomes.

Author

Jiang, Hua, Meng, Xiangcai, Shi, Xianbao, and Yang, Jingming

Subjects

*LIVER microsomes, *LIQUID chromatography-mass spectrometry, *LIVER analysis, *HIGH performance liquid chromatography, *CYTOCHROME P-450, *ENZYME kinetics

Abstract

Artocarpin has shown anti-inflammation and anticancer activities. However, the metabolism differences among different species have not been reported. In this work, we used liver microsomes to explore the metabolic characteristics and possible metabolites of artocarpin among different species. The structures of six metabolites were characterized by LC-MS/MS, and hydroxylated artocarpin was the main metabolite. Enzyme kinetics and depletion studies of artocarpin among different species proved that artocarpin metabolism exhibited significant species differences; rats and monkeys showed a great metabolic ability to artocarpin, and minipigs showed the highest similarity to humans. The in vivo hepatic clearances of artocarpin in rats and humans were predicted that artocarpin was classified as a high-clearance drug in humans and rats. The glucuronidation assay of artocarpin in different liver microsomes also proved that artocarpin metabolism showed significant species difference. These findings will support further pharmacological or toxicological research on artocarpin. Abbreviations: UGT: UDP-glucuronosyltransferase; CYP: cytochrome P450; LC-MS/MS: liquid chromatography-tandem mass spectrometry; HPLC: high-performance liquid chromatography; HLMs: human liver microsomes; MLMs: monkey liver microsomes; RAMs: rabbit liver microsomes; RLMs: rat liver microsomes; DLMs: dog liver microsomes; PLMs: minipig liver microsomes; Vmax: maximum velocity; Km: Michaelis constant; CLint: intrinsic clearance; CLH: hepatic clearance; QH: hepatic blood flow The metabolism of artocarpin exhibited significant species difference [ABSTRACT FROM AUTHOR]

Published

2020

50. TRPA1 and issues relating to animal model selection for extrapolating toxicity data to humans.

Author

Lindsay, CD and Timperley, CM

Subjects

*ANIMAL models in research, *CHEMICAL detectors, *ANIMAL species, *DRUG efficacy, *ION channels, *CALCIUM channels, *INTRA-aortic balloon counterpulsation

Abstract

The transient receptor potential ankyrin 1 (TRPA1) ion channel is a sensor for irritant chemicals, has ancient lineage, and is distributed across animal species including humans, where it features in many organs. Its activation by a diverse panel of electrophilic molecules (TRPA1 agonists) through electrostatic binding and/or covalent attachment to the protein causes the sensation of pain. This article reviews the species differences between TRPA1 channels and their responses, to assess the suitability of different animals to model the effects of TRPA1-activating electrophiles in humans, referring to common TRPA1 activators (exogenous and endogenous) and possible mechanisms of action relating to their toxicology. It concludes that close matching of in vitro and in vivo models will help optimise the identification of relevant biochemical and physiological responses to benchmark the efficacy of potential therapeutic drugs, including TRPA1 antagonists, to counter the toxic effects of those electrophiles capable of harming humans. The analysis of the species issue provided should aid the development of medical treatments to counter poisoning by such chemicals. [ABSTRACT FROM AUTHOR]

Published

2020