Zimmermannoel7447

Background and aims Tri-typing of acute-on-chronic liver failure (ACLF), as proposed by the World Gastroenterology Organization (WGO), has not been validated in patients infected with hepatitis B virus (HBV). We aim to compare the three types of ACLF patients in clinic characteristics. Methods Hospitalized ACLF patients with chronic hepatitis B from 5 hepatology centers were retrospectively selected and grouped according to the WGO classification. For each group, we investigated laboratory tests, precipitating events, organ failure and clinical outcome. Results Compared with type-B (n=262, compensated cirrhosis) and type-C (n=129, decompensated cirrhosis) ACLF, type-A patients (n=195, non-cirrhosis) were associated with a younger age, the highest platelet counts, the highest aminotransferase levels and the most active HBV replications. Hepatitis B virus reactivation were more predominant in type-A, while bacterial infections in type-B and type-C ACLF cases. Liver failure (97.4%) and coagulation failure (86.7%) were most common in type-A compared with type-B or type-C ACLF patients. Kidney failure was predominantly identified in type-C subjects (41.9%), and was highest (23/38, 60.5%) in grade-1 ACLF patients. Furthermore, type-C ACLF showed the highest 28-day (65.2%) and 90-day (75.3%) mortalities, compared with type-A (48.7% and 54.4%, respectively) and type-B (48.4% and 62.8% respectively) ACLF cases. Compared with type-A (11.7%) ACLF patients, the increased mortality from 28-day to 90-day was higher in type-B (31.6%) and type-C (37.5%). Conclusion Tri-typing of HBV-related ACLF in accordance with the WGO definition was able to distinguish clinical characteristics, including precipitating events, organ failure, and short-term prognosis in ACLF patients.As an evolutionarily conserved pathway, Hippo signaling pathway impacts different pathology and physiology processes such as wound healing, tissue repair/size and regeneration. When some components of Hippo signaling dysregulated, it affects cancer cells proliferation. Moreover, the relation Hippo pathway with other signaling including Wnt, TGFβ, Notch, and EGFR signaling leaves effect on the proliferation of cancer cells. Utilizing a number of therapeutic approaches, such as siRNAs and long noncoding RNA (lncRNA) to prevent cancer cells through the targeting of Hippo pathways, can provide new insights into cancer target therapy. The purpose of present review, first of all, is to demonstrate the importance of Hippo signaling and its relation with other signaling pathways in cancer. It also tries to demonstrate targeting Hippo signaling progress in cancer therapy.Aims Nephrotoxicity of calcineurin inhibitors (CNIs) is associated with adverse events in patients undergoing heart transplant (HTx), although studies directly comparing tacrolimus (TAC) versus cyclosporin A (CsA), especially in combination with everolimus and low-dose CNIs approach, are limited. Thus, we sought to investigate the associations of TAC and CsA with clinical outcomes in HTx recipients, with specific focus on renal function. Methods and results From August 2007 to February 2017, 72 consecutive patients (39 treated with TAC vs. 33 with CsA) receiving de novo HTx in a single transplant centre were retrospectively evaluated. We used the instrumental variable method to account for unmeasured confounding. The study outcomes were percentage change in estimated glomerular filtration rates (eGFR) (safety endpoint) and biopsy-proven acute rejection (efficacy endpoint) within the first year after HTx. The enrolled patients (median age 40 years) were predominantly men (68%). There were no significant differences in baseline characteristics, including eGFR (64.8 [45.7-96.4] mL/min/1.73 m2 in TAC vs. 65.6 [57.9-83.0] mL/min/1.73 m2 for CsA; P = 0.48), other than sex (male, 49% for TAC vs. 91% for CsA; P less then 0.001) between the two groups. Within the first year after HTx, 23 (59%) in the TAC group switched mycophenolate mofetil to everolimus, whereas 16 (48%) in the CsA group (P = 0.52). find more At 12 months, the rates of mortality and end-stage renal disease requiring renal replacement therapies were both 0%. In the instrumental variable analysis, no differences in renal function as well as graft rejection for 1 year after HTx existed between the TAC and CsA groups. These results were similar when taking into account of everolimus use. Conclusions Irrespective of everolimus use with low-dose CNIs, our analysis using the instrumental variable method showed no differences in renal function as well as graft rejection during the first year after HTx between HTx recipients who received TAC or CsA.Background and aim Hepatocellular carcinoma (HCC) is a malignant disease worldwide. It is implicated in high cancer-related mortality rates in humans. β-Arrestin1 (ARRB1) has been demonstrated to be related to the development of several cancers, while the relationship between ARRB1 and metastasis in HCC is unknown. Methods A tissue microarray of 68 tissues from HCC patients with or without metastasis was collected. Wild type and ARRB1-knockout mice were used to examine the role of ARRB1 in metastasis in vivo. The level of ARRB1 in HCC tissues, mouse liver tissues and cell lines were determined by qRT-PCR, Western blot, and immunohistochemistry. Migration, invasion and motility capacities of HCC cells were determined by transwell assay and wound healing assay. Vein injection of nude mice model was used to reveal the metastatic abilities of HCC cell lines. For the mechanism study, we investigated the effects of ARRB1 on the phosphorylation of ERK1/2 and the expression of epithelial-mesenchymal transition (EMT) markers in HCC. Results We reveal that ARRB1 accelerates metastasis in HCC and that ARRB1 deficiency inhibits hepatocarcinogenesis and reverses EMT in mice. ARRB1 regulates HCC cell migration and invasion and suppresses HCC metastasis in vivo. Furthermore, we show that ARRB1 promotes EMT through the phosphorylation of ERK1/2. Conclusions Our data suggest that ARRB1 promotes HCC invasion and metastasis through p-ERK1/2-mediated EMT, and suppression of ARRB1 or p-ERK1/2 may offer potential therapeutic targets for HCC therapy.