ABSTRACT
Cholestatic liver disease is a common disease that causes bile flow dysfunction due to various reasons. The etiology of cholestatic liver disease is complexed, and therapeutic drugs are extremely limited. To date, ursodeoxycholic acid is the only FDA-approved drug for treating primary biliary cirrhosis, whereas its efficacy is limited to early stage of the disease, therefore novel drugs are urgently needed. Nuclear receptors become therapeutic hotspot target in cholestasis since these receptors play a key role in regulating bile acid homeostasis. Peroxisome proliferator-activated receptor (PPAR) is an important nuclear receptor involved in regulating multiple mechanisms of cholestasis in vivo. It can improve intrahepatic cholestasis by inhibiting bile acid synthesis, reducing bile acid toxicity, affecting the expression of bile acid metabolic enzymes and transporters, and can play an anti-inflammatory, anti-oxidation and anti-fibrosis role. A number of studies have shown that PPAR agonists represented by fibrates alone or in combination can improve liver function indexes, inflammatory factors and fibrosis markers in patients with cholestasis. This review analyzes and summarizes the lastest advances in the molecular mechanism of PPAR as a therapeutic target for cholestasis and drug treatment in development or have been used in clinical.
ABSTRACT
Resveratrol (3, 5, 4'-trihydroxy-trans-stilbene) was first identified from white hellebore (Veratrum grandiflorum) root and began to attract interest when its presence in red wine and cardiovascular activities were reported, leading to speculation of its contribution to the 'French paradox'. Besides the cardiovascular protection, potential health benefits of resveratrol include calorie restriction-like effects, cancer prevention and adjunctive therapy, and neuroprotection. In order to achieve translational applications of these potential benefits, pharmacokinetic research was performed for plasma pharmacokinetics and related disposition of orally dosed resveratrol. This paper summarizes the known human pharmacokinetic characteristics of resveratrol after oral administration and various attempts to improve its systemic exposure level from the perspectives of systemic exposure and in vivo process. However, available pharmacokinetic data of resveratrol has raised conundrums that limit translating potential benefits to clinics: (1) differences between the unchanged resveratrol used in bioactivity studies and its major circulating forms (i.e., metabolites) after dosing; (2) resveratrol's test concentrations used to exert in vitro bioactivities related to the benefits significantly higher than the compound's clinically achievable concentrations; (3) resveratrol's concentrations achievable (estimated from the pharmacokinetics) from doses used to produce in vivo efficacy significantly lower than the effective concentrations found in studies of related action mechanism (suggesting unreliability of test mechanism). In the last part of this review, we provide recommendations for future pharmacokinetic investigations of resveratrol, including a more systematic investigation of systemic exposure to resveratrol metabolites, their access to in vivo loci responsible for the benefits, and their disposition in target cells; an investigation of colon-luminal exposure to resveratrol and its metabolites for accessing colonic microbiota; and a multi-compound pharmacokinetic investigation of red wine.
ABSTRACT
Managing the dysregulated host response to infection remains a major challenge in sepsis care. Chinese treatment guideline recommends adding XueBiJing, a five-herb medicine, to antibiotic-based sepsis care. Although adding XueBiJing further reduced 28-day mortality modulating the host response, pharmacokinetic herb-drug interaction is a widely recognized issue that needs to be studied. Building on our earlier systematic chemical and human pharmacokinetic investigations of XueBiJing, we evaluated the degree of pharmacokinetic compatibility for XueBiJing/antibiotic combination based on mechanistic evidence of interaction risk. Considering both XueBiJing‒antibiotic and antibiotic‒XueBiJing interaction potential, we integrated informatics-based approach with experimental approach and developed a compound pair-based method for data processing. To reflect clinical reality, we selected for study XueBiJing compounds bioavailable for drug interactions and 45 antibiotics commonly used in sepsis care in China. Based on the data of interacting with drug metabolizing enzymes and transporters, no XueBiJing compound could pair, as perpetrator, with the antibiotics. Although some antibiotics could, due to their inhibition of uridine 5'-diphosphoglucuronosyltransferase 2B15, organic anion transporters 1/2 and/or organic anion-transporting polypeptide 1B3, pair with senkyunolide I, tanshinol and salvianolic acid B, the potential interactions (resulting in increased exposure) are likely desirable due to these XueBiJing compounds' low baseline exposure levels. Inhibition of aldehyde dehydrogenase by 7 antibiotics probably results in undesirable reduction of exposure to protocatechuic acid from XueBiJing. Collectively, XueBiJing/antibiotic combination exhibited a high degree of pharmacokinetic compatibility at clinically relevant doses. The methodology developed can be applied to investigate other drug combinations.
ABSTRACT
BACKGROUND: It is easy to established human solid tumor nude mouse model, but for leukemia which is difficult. We inhibited immune system further by radioactive ray or CTX, to decrease cost and increase the stability.OBJECTIVE: To establish a human acute myeloblastic leukemia M2 Kasumi-1 models containing AML/ETO positive genes in BALB/c nude mouse. METHODS: Nude mice were randomly divided into three groups: CTX group was injected CTX 2 mg/day in abdominal cavity for two days, and injected 8×10~5/mouse Kasumi-1 cells in caudal vein next day; irradiation group was exposed to total body irradiation, and injected 8×10~5/mouse Kasumi-1 cells in caudal vein that day; untreated group was inoculated with 8×10~5/mouse Kasumi-1 cells by caudal vein injection. Three additional mice were considered as the normal control group. The blood smearing and bone morrow slides were detected, immunity type of BMC was detected using flow cytometry, loading of leukemic cellular tumor was detected using RT-PCR, and positive ratio of AML/ETO fusion gene was detected using FISH method. RESULTS AND CONCLUSION: After inoculated into untreated nude mice by caudal vein injection for 14 days, the ratio of leukemia cell in blood smearing was 3.5%, and over 40% in bone marrow slides, which was equal to the results of FISH and FCM. The increasing of tumor loading was time-dependent. For irradiation group and CTX treated group, the tumor loading was higher that untreated group, and the cells also survived more than 60 days. AML/ETO band was observed by RT-PCR in all experimental groups, for normal mice it was negative. The results indicated that the systemic disseminated leukemia model was established successfully by caudal vein injection 8×10~5/mouse Kasumi-1 cells in the three experimental groups.
ABSTRACT
An HA-1-DC nucleic-acid vaccine was constructed to induce anti-leukemia effect after hematopoietic stem cell transplantation (HSCT). DCs were generated from HSCT donors in vitro, and its immunologic activity was assayed by using flow cytometry and mixed lymphocytes reaction. HA-1 gene was electroporated into the cultured DCs to construct a DC nucleic-acid vaccine. After transfection for 48 h, the expression of HA-1 protein could be detected by using Western blot. The DCs were cultured with syngenic lymphocytes to induce specific cytotoxic T lymphocytes (CTLs). The cytoxicity of the CTLs was detected by LDH assay. The results showed that The DCs derived from peripheral blood monocytes (PBMCs) expressed the phenotype of DCs, and were effective in stimulating proliferation of the allogenic lymphocytes. After electroporating for 48-h, HA-1 protein was detected by using Western blot. The cytotoxicty of inducing CTLs was higher than the control group. It was suggested that minor histocompatibility antigen HA-1 could be considered as a target of immunotherapy against leukemia after HSCT.
ABSTRACT
An HA-1-DC nucleic-acid vaccine was constructed to induce anti-leukemia effect after hematopoietic stem cell transplantation (HSCT). DCs were generated from HSCT donors in vitro, and its immunologic activity was assayed by using flow cytometry and mixed lymphocytes reaction.HA-1 gene was electroporated into the cultured DCs to construct a DC nucleic-acid vaccine. After transfection for 48 h, the expression of HA-1 protein could be detected by using Western blot. The DCs were cultured with syngenic lymphocytes to induce specific cytotoxic T lymphocytes (CTLs).The cytoxicity of the CTLs was detected by LDH assay. The results showed that The DCs derived from peripheral blood monocytes (PBMCs) expressed the phenotype of DCs, and were effective in stimulating proliferation of the allogenic lymphocytes. After electroporating for 48-h, HA-1 protein was detected by using Western blot. The cytotoxity of inducing CTLs was higher than the control group. It was suggested that minor histocompatibility antigen HA-1 could be considered as a target of immunotherapy against leukemia after HSCT.