Jin-Shui Pan

Inflammatory signaling and cellular senescence

Inflammation acts as a double-edged sword in the pathogenesis of cancer. Inflammatory responses play a key role in eliminating potentially cancerous cells; however, an inflammatory microenvironment also promotes the development of cancer. Proinflammatory cytokines, the key mediators of inflammation, also play a dual role in oncogenesis. While they can promote neoplastic progression, recent studies have revealed an unexpected function of the inflammatory pathways in inhibiting cancer development. These studies demonstrate that cells undergoing senescence, a cellular program serving as a barrier to cancer development, produce increased amount of inflammatory cytokines. These inflammatory cytokines play an essential role in the initiation and maintenance of cellular senescence, and are responsible for triggering an innate immune response that clears the senescent tumor cells in vivo. The purpose of the present review is to discuss the dual roles of the inflammatory cytokines produced by senescent cells in the pathogenesis of cancer, and the signaling pathway mediating their role in cellular senescence.

MicroRNA-17~92 inhibits colorectal cancer progression by targeting angiogenesis.

The miR-17~92 microRNA (miRNA) cluster host gene is upregulated in a broad spectrum of human cancers including colorectal cancer (CRC). Previous studies have shown that miR-17~92 promotes tumorigenesis and cancer angiogenesis in some tumor models. However, its role in the initiation and progression of CRC remains unknown. In this study, we found that transgenic mice overexpressing miR-17~92 specifically in epithelial cells of the small and large intestines exhibited decreased tumor size and tumor angiogenesis in azoxymethane and dextran sulfate sodium salt (AOM-DSS)-induced CRC model as compared to their littermates control. Further study showed that miR-17~92 inhibited the progression of CRC via suppressing tumor angiogenesis through targeting multiple tumor angiogenesis-inducing genes, TGFBR2, HIF1α, and VEGFA in vivo and in vitro. Collectively, we demonstrated that miR-17~92 suppressed tumor progression by inhibiting tumor angiogenesis in a genetically engineered mouse model, indicating the presence of cellular context-dependent pro- and anti-cancer effects of miR-17~92.

Fecal microbiota transplantation induces hepatitis B virus e-antigen (HBeAg) clearance in patients with positive HBeAg after long-term antiviral therapy

For hepatitis B virus (HBV) e-antigen (HBeAg)-positive chronic hepatitis B (CHB) patients, HBeAg seroconversion is a prerequisite for a definite course of antiviral treatment. Unfortunately, for both entecavir (ETV) and tenofovir disoproxil fumarate (TDF), HBeAg clearance or seroconversion only occurs in a minority of patients even after multiple years of antiviral therapy. The gut microbiota appears to play a critical role in age-related immune clearance of HBV. Several studies have indicated that CHB patients with liver cirrhosis have different microbiota compared to healthy people. The “leakage hypothesis” has linked gut microbiota to the onset and progression of liver diseases. Thus, we reported on a case-controlled, open-label pilot trial of fecal microbiota transplantation (FMT) for CHB patients. Methods and Results

Interacting with HBsAg compromises resistance of jumping translocation breakpoint protein to ultraviolet radiation-induced apoptosis in 293FT cells

Jumping translocation breakpoint protein (JTB) is suppressed in many cancers, implying it plays a role in the neoplastic transformation of cells. In order to explore the role of JTB in the carcinogenesis of liver, we used mammalian two-hybrid, co-immunoprecipitation, GST pull-down and laser scanning confocal to verify the interaction between HBs and JTB. According to the results, HBs interacts with JTB. In addition, we further determined that S region within HBs is sufficient for binding JTB. Overexpression of JTB conferred resistance to apoptosis induced by ultraviolet radiation, whereas this effect was compromised by the co-overexpression of HBs.

Integrated application of uniform design and least-squares support vector machines to transfection optimization.

BackgroundTransfection in mammalian cells based on liposome presents great challenge for biological professionals. To protect themselves from exogenous insults, mammalian cells tend to manifest poor transfection efficiency. In order to gain high efficiency, we have to optimize several conditions of transfection, such as amount of liposome, amount of plasmid, and cell density at transfection. However, this process may be time-consuming and energy-consuming. Fortunately, several mathematical methods, developed in the past decades, may facilitate the resolution of this issue. This study investigates the possibility of optimizing transfection efficiency by using a method referred to as least-squares support vector machine, which requires only a few experiments and maintains fairly high accuracy.ResultsA protocol consists of 15 experiments was performed according to the principle of uniform design. In this protocol, amount of liposome, amount of plasmid, and the number of seeded cells 24 h before transfection were set as independent variables and transfection efficiency was set as dependent variable. A model was deduced from independent variables and their respective dependent variable. Another protocol made up by 10 experiments was performed to test the accuracy of the model. The model manifested a high accuracy. Compared to traditional method, the integrated application of uniform design and least-squares support vector machine greatly reduced the number of required experiments. Whats more, higher transfection efficiency was achieved.ConclusionThe integrated application of uniform design and least-squares support vector machine is a simple technique for obtaining high transfection efficiency. Using this novel method, the number of required experiments would be greatly cut down while higher efficiency would be gained. Least-squares support vector machine may be applicable to many other problems that need to be optimized.

Aldolase A-HBsAg interaction and its effect on ultraviolet radiation induced apoptosis in 293FT cells

Background and Aim:  Hepatitis B virus (HBV) infection poses great challenges to humans, claiming one million lives annually worldwide. Solid data have related HBV to hepatocellular carcinoma.

Noninvasive scoring system for significant inflammation related to chronic hepatitis B.

Although a liver stiffness measurement-based model can precisely predict significant intrahepatic inflammation, transient elastography is not commonly available in a primary care center. Additionally, high body mass index and bilirubinemia have notable effects on the accuracy of transient elastography. The present study aimed to create a noninvasive scoring system for the prediction of intrahepatic inflammatory activity related to chronic hepatitis B, without the aid of transient elastography. A total of 396 patients with chronic hepatitis B were enrolled in the present study. Liver biopsies were performed, liver histology was scored using the Scheuer scoring system, and serum markers and liver function were investigated. Inflammatory activity scoring models were constructed for both hepatitis B envelope antigen (+) and hepatitis B envelope antigen (−) patients. The sensitivity, specificity, positive predictive value, negative predictive value, and area under the curve were 86.00%, 84.80%, 62.32%, 95.39%, and 0.9219, respectively, in the hepatitis B envelope antigen (+) group and 91.89%, 89.86%, 70.83%, 97.64%, and 0.9691, respectively, in the hepatitis B envelope antigen (−) group. Significant inflammation related to chronic hepatitis B can be predicted with satisfactory accuracy by using our logistic regression-based scoring system.