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Psoraleae Fructus (PF) is a non-toxic Chinese herbal medicine, while the liver injury caused by PF has aroused wide concern in recent years. At present, animal experiments and in vitro studies have been carried out to explore the mechanism, targets, and toxic components of PF in inducing liver injury, which, however, have differences compared with the actual conditions in clinical practice, and there are still some potential hepatotoxic components and targets of PF that have not been discovered. With the continuous progress in systems biology, establishing the drug-induced liver injury model and the liver injury prediction model based on network toxicology can reduce the cost of animal experiments, improve the toxicity prediction efficiency, and provide new tools for predicting toxic components and targets. To systematically explain the characteristics of liver injury in the application of PF and explore the potential hepatotoxic components and targets of PF, we reviewed the related articles published by China National Knowledge Infrastructure (CNKI), Wanfang Data, VIP, and PubMed from 1962 to 2021 and analyzed the characteristics and influencing factors of liver injury caused by PF in the patients. Furthermore, we summarized the chemical components of PF and the components entering blood. By reviewing the mechanism, targets, and components of PF in inducing liver injury that were discovered by in vivo and in vitro experiments, we summarized the known compounds in PF that may cause liver injury. Finally, the current methods for building the prediction model of PF-induced liver injury were summarized, and the predicted toxic components and targets were introduced. The possible factors of PF in causing liver injury were explained from three aspects: clinical characteristics, preclinical studies, and computer-assisted network prediction, which provide a reference for predicting the risk of PF-induced liver injury.
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Magnesium-doped calcium silicate (CS) bioceramic scaffolds have unique advantages in mandibular defect repair; however, they lack antibacterial properties to cope with the complex oral microbiome. Herein, for the first time, the CS scaffold was functionally modified with a novel copper-containing polydopamine (PDA(Cu2+)) rapid deposition method, to construct internally modified (*P), externally modified (@PDA), and dually modified (*P@PDA) scaffolds. The morphology, degradation behavior, and mechanical properties of the obtained scaffolds were evaluated in vitro. The results showed that the CS*P@PDA had a unique micro-/nano-structural surface and appreciable mechanical resistance. During the prolonged immersion stage, the release of copper ions from the CS*P@PDA scaffolds was rapid in the early stage and exhibited long-term sustained release. The in vitro evaluation revealed that the release behavior of copper ions ascribed an excellent antibacterial effect to the CS*P@PDA, while the scaffolds retained good cytocompatibility with improved osteogenesis and angiogenesis effects. Finally, the PDA(Cu2+)-modified scaffolds showed effective early bone regeneration in a critical-size rabbit mandibular defect model. Overall, it was indicated that considerable antibacterial property along with the enhancement of alveolar bone regeneration can be imparted to the scaffold by the two-step PDA(Cu2+) modification, and the convenience and wide applicability of this technique make it a promising strategy to avoid bacterial infections on implants.
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Animais , Coelhos , Cobre/farmacologia , Alicerces Teciduais/química , Regeneração Óssea , Antibacterianos/farmacologia , Osteogênese , Cálcio , Íons/farmacologiaRESUMO
ObjectiveBased on ultra performance liquid chromatography-quadrupole-time-of-flight mass spectrometry(UPLC-Q-TOF-MSE) technique, we identified qualitatively the metabolites of aristolochic acid(AAs) in rat in order to analyze the metabolic differences between water extract of Aristolochiae fructus(AFE) and Aristolochic acid Ⅰ(AAⅠ). MethodSD rats were selected and administered AFE(110 g·kg-1·d-1) or AAⅠ(5 mg·kg-1·d-1) by oral for 5 days, respectively. Serum, urine and feces were collected after administration. Through sample pretreatment, ACQUITY UPLC BEH C18 column(2.1 mm×100 mm, 1.7 μm) was used with the mobile phase of 0.01% formic acid methanol(A)-0.01% formic acid water(B, containing 5 mmol·L-1 ammonium acetate) for gradient elution(0-1 min, 10%B; 1-7 min, 10%-75%B; 7-7.2 min, 75%-95%B; 7.2-10.2 min, 95%B; 10.2-10.3 min, 95%-10%B; 10.3-12 min, 10%B) at a flow rate of 0.3 mL·min-1. Positive ion mode of electrospray ionization(ESI+) was performed in the scanning range of m/z 100-1 200. In combination with UNIFI 1.9.4.053 system, the Pathway-MSE was used to qualitatively analyze and identify the AAs prototype and related metabolites in biological samples(serum, urine and feces), and to compare the similarities and differences of metabolites in rats in the subacute toxicity test between AFE group and AAⅠ group. ResultCompared with AAⅠ group, 6, 10, 13 common metabolites and 14, 20, 30 unique metabolites were identified in biological samples(serum, urine and feces) of AFE group, respectively. Moreover, the main AAs components always followed the metabolic processes of demethylation, nitrate reduction and conjugation. Compared with common metabolites in AAⅠ group, prototype components of AAⅠ in serum and most metabolic derivatives of AAⅠ[AAⅠa, aristolochic lactam Ⅰ(ALⅠ)a, 7-OHALⅠ and its conjugated derivatives] in biological samples were significantly increased in AFE group(P<0.05, P<0.01), except that the metabolic amount of ALⅠ in feces of AFE group was remarkably lowed than that of AAⅠ group(P<0.01). In addition, a variety of special ALⅠ efflux derivatives were also identified in the urine and feces of the AFE group. ConclusionAlthough major AAs components in AFE all show similar metabolic rules as AAⅠ components in vivo, the coexistence of multiple AAs components in Aristolochiae Fructus may affect the metabolism of AAⅠ, and achieve the attenuating effect by increasing the metabolic effection of AAⅠ and ALⅠ.
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The purpose of this study is to evaluate the embryotoxicity of alkaloids in Senecionis Scandentis Hebra on in vitro cultured mouse embryos. Mouse whole embryo culture (WEC) was applied in this study. Post-implantation (8.5 d) mouse embryos were isolated from their mothers, and cultured in medium of immediately centrifuged serum (ICS) with different concentrations of seneciphylline (target concentrations were 100, 50, 25 and 12.5 μg x mL(-1)) or senkirkine (target concentrations were 50, 25 and 12.5 μg x mL(-1)) for 48 h. After culturing completed, the development and organic morphodifferentiation of the cultured embryos were evaluated microscopically. Treatment with seneciphylline and senkirkine had adverse effects on the development and organic morphodifferentiation of embryos. The effect also had clear dose-response. Alkaloidals in Senecionis Scandentis Hebra had embryotoxicity on cultured embryos, which indicated that pregnant people exposed to Senecionis Scandentis Hebra may get potential risk on fetus.
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Reproductive toxicity research takes an important place in traditional Chinese medicine pre-clinical safety evaluation. Modern reproductive toxicity experiment includes drug-related miscarriage, fetal death, teratism, and adverse effects on fertility, genital system, embryonic development and fetus, which is different from contraindicated in pregnancy in traditional Chinese medicine theory. Now the three-phases reproductive toxicity study is the method mainly applied in traditional Chinese medicine reproductive toxicity evaluation. Besides that, alternative methods of whole embryos culture and embryonic stem cell test are also used in traditional Chinese medicine embryo toxicity evaluation. This article reviews research progress and pre-clinical evaluation on reproductive toxicity of traditional Chinese medicine.
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<p><b>OBJECTIVE</b>To investigate the fetotoxicity of monocrotaline.</p><p><b>METHOD</b>Mouse whole embryo culture (WEC) was applied. Post-implantation (8.5 d) mouse embryos were isolated from their mothers and put into the medium of immediately centrifuged serum (ICS) prepared from rats. Different concentrations of monocrotaline (100, 50, 25, 12.5 mg x L(-1)) were added into the WEC. Development (yolk sac diameter, crown-rump length, head length, somite number) and organic morphodifferentiation (yolk sac circulation, allantois, embryonic flexion, heart, brain, optic-otic-olfactory organ, branchial arch, maxillary, mandible, bud) of embryos were observed at 48 h after treatment.</p><p><b>RESULT</b>Obvious fetotoxicity could be observed in various monocrotaline treatment groups in a dose-dependent manner. Development of embryos was delayed significantly at dose 12.5-100 mg x L(-1). Malformations were shown in all organic morphodifferentiation indice, especially in opti-otic organ, mandible and bud.</p><p><b>CONCLUSION</b>Monocrotaline had obvious fetotoxicity in vitro WEC, indicating that exposure of pregnant mice to monocrotaline may have potential risk on fetus.</p>
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Animais , Feminino , Masculino , Camundongos , Diferenciação Celular , Meios de Cultura , Embrião de Mamíferos , Fisiologia , Monocrotalina , ToxicidadeRESUMO
Pyrrolizidine alkaloids (PAs) are widely distributed in many plants including medicinal herbs. The hepatotoxicity of PAs has been known academically for a long time, however, their reproductive toxicity, mutagenesis and carcinogenicity have been less researched. This article is an overview of the clinical and experimental reports of the reproductive toxicity, mutagenesis and carcinogenicity of PAs, the effective factors and generating mechanism of the toxicity.
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Animais , Humanos , Pesquisa Biomédica , Extratos Vegetais , Toxicidade , Plantas Medicinais , Química , Toxicidade , Alcaloides de Pirrolizidina , ToxicidadeRESUMO
<p><b>OBJECTIVE</b>To investigate the fetotoxicity of retrorsine.</p><p><b>METHOD</b>Mouse whole embryo culture (WEC) was applied. Post-implantation (8.5 d) mouse embryos were isolated from their mothers and put into the medium of immediately centrifuged serum (ICS) prepared from rats. Different concentrations of retrorsine (12.5, 25, 50, 100 mg x L(-1)) were added into the WEC culture. Development (yolk sac diameter, crown-rump length, head length, somite number) and organic morphodifferentiation (yolk sac circulation, allantois, embryonic flexion, heart, brain, optic-otic-olfactory organ, branchial arch, maxillary, mandible, bud) of embryos were observed at 48 h after treatment.</p><p><b>RESULT</b>Obvious fetotoxicity could be observed in various retrorsine treatment groups in a dose-dependent manner. Development of embryos was delayed significantly at dose 12.5-100 mg x L(-1). Malformations were shown in all organic morphodifferentiation indexes, especially in otic-olfactory organ, branchial arch, maxillary, mandible, bud.</p><p><b>CONCLUSION</b>Retrorsine had obvious fetotoxicity in vitro WEC culture, indicating that exposure of pregnant mice to retrorsine may have potential risk on fetals.</p>
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Animais , Feminino , Masculino , Camundongos , Gravidez , Ratos , Relação Dose-Resposta a Droga , Embrião de Mamíferos , Alcaloides de Pirrolizidina , Toxicidade , Testes de Toxicidade , MétodosRESUMO
Whole embryo culture (WEC) is an experimental tool, which is made use of embryos in vitro to replace whole animals to investigate the growth and development of early organs, the embryo toxicity of chemical materials and the mechanism of the occurrence of embryo toxicity. Compared with experiment with whole animals, WEC could reduce the number of experimental animals, shorten experimental time, decrease experimental expenses, eliminate disturbing factors and control dosage more exactly. So it is generally received that WEC tool is a good experimental method to match the principles of replacement, reduction, refinement and responsibility. This article is a review of the WEC tool of rat and mouse, including the development of this tool, announcements, and the application in the development of organs, the embryo toxicity of environmental pollution and heavy metal, safety evaluation of medicine and the embryo toxicity of traditional Chinese medicine and its mechanism. There is also a discussion of the application of this tool in the investigation of the embryo toxicity of traditional Chinese medicine.