SummaryPrimary biliary cirrhosis (PBC) is an organ-specific autoimmune liver disease characterized by progressive loss of intrahepatic small bile ducts. Cellular immune mechanisms involving T cell reaction are thought to be involved significantly in the pathogenesis of PBC. Recent studies have independently revealed enhanced T helper type 17 (Th17) response and weakened T regulatory cell (Treg) response in some autoimmune diseases, indicating a role of Th17/Treg imbalance in the pathogenesis of autoimmunity. This prompted us to investigate whether the Th17/Treg balance was broken in the peripheral blood of patients with PBC and, if it was, what cytokine circumstances might contribute to this imbalance. The expression of 11 Th17/Treg differentiation-related genes and serum concentrations of the corresponding cytokines in 36 patients with PBC, 28 patients with chronic hepatitis B and 28 healthy controls were measured by real-time quantitativepolymerase chain reaction and enzyme-linked immunosorbent assay respectively. Peripheral Th17 and Treg cells were analysed by flow cytometry. Th17-related cytokines were increased significantly in patients with PBC. Consistent with the cytokine profile, the Th17 cell population and retinoidrelated orphan receptor gt expression were increased markedly. In contrast, the Treg cell population and forkhead box P3 expression were decreased dramatically in the peripheral blood of patients with PBC. Our study revealed that the Th17/Treg imbalance, both cytokine profile and cell numbers, exists in patients with PBC, suggesting its potential role in the breakdown of immune self-tolerance in PBC. Interleukin-23, which characterized the imbalanced cytokine profile, may play an essential role in Th17-related human autoimmunity.
Excessive oxidative stress in cancer cells can induce cancer cell death. Anticancer activity and drug resistance of chemotherapy are closely related to the redox state of tumor cells. Herein, five lipophilic Pt(IV) prodrugs were synthesized on the basis of the most widely used anticancer drug cisplatin, whose anticancer efficacy and drug resistance are closely related to the intracellular redox state. Subsequently, a series of cisplatin-sensitive and drug-resistant cell lines as well as three patient-derived primary ovarian cancer cells have been selected to screen those prodrugs. To verify if the disruption of redox balance can be combined with these Pt(IV) prodrugs, we then synthesized a polymer with a diselenium bond in the main chain for encapsulating the most effective prodrug to form nanoparticles (NP(Se)s). NP(Se)s can efficiently break the redox balance via simultaneously depleting GSH and augmenting ROS, thereby achieving a synergistic effect with cisplatin. In addition, genome-wide analysis via RNA-seq was employed to provide a comprehensive understanding of the changes in transcriptome and the alterations in redox-related pathways in cells treated with NP(Se)s and cisplatin. Thereafter, patient-derived xenograft models of hepatic carcinoma (PDX HCC ) and multidrugresistant lung cancer (PDX MDR ) were established to evaluate the therapeutic effect of NP(Se)s, and a significant antitumor effect was achieved on both models with NP(Se)s. Overall, this study provides a promising strategy to break the redox balance for maximizing the efficacy of platinum-based cancer therapy.
A major enigma of primary biliary cirrhosis (PBC) is the selective targeting of biliary cells. Our laboratory has reported that following apoptosis human intrahepatic biliary epithelial cells (HiBEC) translocate the E2 subunit of the pyruvate dehydrogenase complex immunologically intact into apoptotic bodies, forming an apotope. However, the cell type and specificity of this reaction has not been fully defined. To address this issue we have investigated whether PDC-E2, BCOADC-E2, OGDC-E2, four additional inner mitochondrial enzymes and four nuclear antigens remain immunologically intact with respect to post-apoptotic translocation in HiBEC and 3 additional control epithelial cells. We report that all three 2-oxo acid dehydrogenase enzymes share the ability to remain intact within the apotope of HiBEC. Interestingly the E2 subunit of the branched chain 2-oxo acid dehydrogenase complex also remained intact in the other cell types tested. We extended the data using 95 AMA+ and 19 AMA- PBC and 76 control sera for reactivity against the 7 mitochondrial proteins studied herein and also the ability of AMA- sera to react with HIBEC apotopes. Sera from 3/95 AMA+ sera, but none of the controls, reacted with 2, 4-dienoyl CoA reductase 1 (DECR1), an enzyme also present intact only in the HiBEC apotope; DECR1 has not been previously associated with any autoimmune disease. Finally the specificity of HIBEC apotope reactivity was confined to AMA+ sera. In conclusion, we submit that the biliary specificity of PBC is secondary to the unique processes of biliary apoptosis.
The incidence, risk factors, and clinical features of hepatocellular carcinoma (HCC) in primary biliary cirrhosis (PBC) have been a long-standing subject of interest. We took advantage of a large cohort of 1865 well-defined Chinese patients with PBC for whom follow-up was conducted for up to 20 years to study the incidence of HCC. Our goal was to address the incidence and prevalence of HCC in PBC and the risk factors, including hepatitis B virus (HBV) infection, and finally to compare the tumor characteristics of PBC-related HCC, including size, location, mortality, and long-term outcomes, to that of HBV-related HCC. In this cohort, HCC occurred in 70 of 1865 PBC patients with a prevalence of 3.75 % and an incidence of 0.66 cases per 100 patient-years. The 5- and 10-year cumulative incidences were 2.6 % (95 % confidence interval (CI) 1.8-3.4) and 8.9 % (95 % CI 5.5-12.3), respectively. Age >54 years (odds ratio [OR] = 5.5, 95 % CI 3.0-10.1, p = 0.001), male sex (OR = 2.2, 95 % CI 1.2-4.0, p = 0.001), co-existence of diabetes mellitus (DM) (OR = 3.1, 95 % CI 1.6-6.2, p = 0.002), and previous HBV infection (OR = 6.6, 95 % CI 3.7-11.9, p = 0.001) were independently associated with the development of HCC. The tumor size, number, location, and 5-year survival were not significantly different in PBC-related HCC compared to HBV-related HCC. Alpha-fetoprotein was elevated in only 20 % of the cases with PBC-related HCC. Although HCC was uncommon, occurring in fewer than 5 % of patients, the risk is significantly increased by age, sex, DM, and past HBV infection.
BackgroundAccumulating evidences have suggested that percutaneous cryoablation could be a valuable alternative ablation therapy for HCC but there has been no large cohort-based analysis on its long-term outcomes.MethodsA series of 866 patients with Child-Pugh class A-B cirrhosis and HCC within Milan criteria who underwent percutaneous cryoablation was long-term followed. The safety, efficacy, 5-year survival, and prognostic factors of percutaneous cryoablation in the treatment of HCC were analyzed.ResultsA total of 1197 HCC lesions were ablated with 1401 cryoablation sessions. Complete response (CR) was achieved in 1163 (97.2%) lesions and 832 (96.1%) patients with 34 (2.8%) major complications, but no treatment-related mortality. After a median of 30.9 months follow-up, 502 (60.3%) patients who achieved CR developed different types of recurrence. The cumulative local tumor recurrence rate was 24.2% at 5-years. Multiple tumor lesions, tumor size > 3 cm, and repeated ablation of same lesion were independent risk factors associated with local recurrence. The 5-year overall survival (OS) rates were 59.5%. Age < 36 years, HCC family history, baseline hepatitis B virus DNA >106 copies/ml, and three HCC lesions were independently and significantly negative predictors to the post-cryoablation OS.ConclusionsPercutaneous cryoablation is an effective therapy for patients with HCC within Milan criteria, with comparable efficacy, safety and long-term survival to the reported outcomes of radiofrequency ablation.
DNA alkylating agents generally kill tumor cells by covalently binding with DNA to form interstrand or intrastrand cross-links. However, in the case of cisplatin, only a few DNA adducts (<1%) are highly toxic irreparable interstrand cross-links. Furthermore, cisplatin is rapidly detoxified by high levels of intracellular thiols such as glutathione (GSH). Since the discovery of its mechanism of action, people have been looking for ways to directly and efficiently remove intracellular GSH and increase interstrand cross-links to improve drug efficacy and overcome resistance, but there has been little breakthrough. Herein, we hypothesized that the anticancer efficiency of cisplatin can be enhanced through iodo-thiol click chemistry mediated GSH depletion and increased formation of DNA interstrand cross-links via mild hyperthermia triggered by near-infrared (NIR) light. This was achieved by preparing an amphiphilic polymer with platinum(IV) (Pt(IV)) prodrugs and pendant iodine atoms (iodides). The polymer was further used to encapsulate IR780 and assembled into Pt−I−IR780 nanoparticles. Induction of mild hyperthermia (43 °C) at the tumor site by NIR light irradiation had three effects: (1) it accelerated the GSH-mediated reduction of Pt(IV) in the polymer main chain to platinum(II) (Pt(II)); (2) it boosted the iodo-thiol substitution click reaction between GSH and iodide, thereby attenuating the GSH-mediated detoxification of cisplatin; (3) it increased the proportion of highly toxic and irreparable Pt-DNA interstrand cross-links. Therefore, we find that mild hyperthermia induced via NIR irradiation can enhance the killing of cancer cells and reduce the tumor burden, thus delivering efficient chemotherapy.
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