16 research outputs found
APC/CCdh1-Mediated Degradation of the F-Box Protein NIPA Is Regulated by Its Association with Skp1
NIPA (Nuclear Interaction Partner of Alk kinase) is an F-box like protein
that targets nuclear Cyclin B1 for degradation. Integrity and therefore activity
of the SCFNIPA E3 ligase is regulated by cell-cycle-dependent phosphorylation
of NIPA, restricting substrate ubiquitination to interphase. Here we show
that phosphorylated NIPA is degraded in late mitosis in an APC/CCdh1-dependent
manner. Binding of the unphosphorylated form of NIPA to Skp1 interferes with
binding to the APC/C-adaptor protein Cdh1 and therefore protects unphosphorylated
NIPA from degradation in interphase. Our data thus define a novel mode of
regulating APC/C-mediated ubiquitination
Vergleich der topographischen Tumorverteilung zwischen Prostatakarzinomen welche in der Erst- oder Wiederholungsbiopsien diagnostiziert werden
Qualität der automatischen Segmentierung bei OCT Angiographie Aufnahmen bei verschiedenen retinalen Erkrankungen
121 Spatial distribution pattern of tumor foci is an independent predictor for biochemical recurrence in organ-confined prostate cancer
Ausprägung von Segmentierungsfehlern und Bewegungsartefakten in OCT-Angiographie Aufnahmen bei verschiedenen retinalen Erkrankungen
NatĂĽrliche Killerzellen und natĂĽrliche Killer-T-Zellen bei Nierentransplantation
Kidney transplantation is a well established procedure in the treatment of patients suffering from chronic renal failure. Despite high standards, post-operative complications are common. In addition to transplant rejection, viral, bacterial and fungal infections are of relevance. Frequently, clinical examination and clinical chemistry cannot establish requested diagnoses in a timely manner. Here, we propose the inclusion of natural killer (INK) cells and natural killer T (NKT) cells into flow cytometric immunomonitoring of patients undergoing kidney transplantation. Patients were followed from the pre-operative to the 28th post-operative day. Using flow cytometry, we investigated NK and NKT cells and their functional markers, NKp30, NKp44, NKp46, CD16 and CXCR3. Both cell populations were influenced by transplantation. Results were independent of the origin of the graft (cadaveric or living donor) and of the immunosuppressive protocol used. However, NKT cells were influenced by induction therapies and indicated organ loss. We conclude that detection of these cell types should be added to immunomonitoring panels in solid organ transplanted patients
The Transcription Factor ATF4 Promotes Expression of Cell Stress Genes and Cardiomyocyte Death in a Cellular Model of Atrial Fibrillation
INTRODUCTION: Cardiomyocyte remodelling in atrial fibrillation (AF) has been associated with both oxidative stress and endoplasmic reticulum (ER) stress and is accompanied by a complex transcriptional regulation. Here, we investigated the role the oxidative stress and ER stress responsive bZIP transcription factor ATF4 plays in atrial cardiomyocyte viability and AF induced gene expression. METHODS: HL-1 cardiomyocytes were subjected to rapid field stimulation. Forced expression of ATF4 was achieved by adenoviral gene transfer. Using global gene expression analysis and chromatin immunoprecipitation, ATF4 dependent transcriptional regulation was studied, and tissue specimen of AF patients was analysed by immunohistochemistry. RESULTS: Oxidative stress and ER stress caused a significant reduction in cardiomyocyte viability and were associated with an induction of ATF4. Accordingly, ATF4 was also induced by rapid field stimulation mimicking AF. Forced expression of wild type ATF4 promoted cardiomyocyte death. ATF4 was demonstrated to bind to the promoters of several cell stress genes and to induce the expression of a number of ATF4 dependent stress responsive genes. Moreover, immunohistochemical analyses showed that ATF4 is expressed in the nuclei of cardiomyocytes of tissue specimen obtained from AF patients. CONCLUSION: ATF4 is expressed in human atrial cardiomyocytes and is induced in response to different types of cell stress. High rate electrical field stimulation seems to result in ATF4 induction, and forced expression of ATF4 reduces cardiomyocyte viability
Histone deacetylase inhibition by Entinostat for the prevention of electrical and structural remodeling in heart failure
BACKGROUND: The development of heart failure is accompanied by complex changes in cardiac electrophysiology and functional properties of cardiomyocytes and fibroblasts. Histone deacetylase (HDAC) inhibitors hold great promise for the pharmaceutical therapy of several malignant diseases. Here, we describe novel effects of the class I HDAC inhibitor Entinostat on electrical and structural remodeling in an in vivo model of pacing induced heart failure. METHODS: Rabbits were implanted a pacemaker system, subjected to rapid ventricular pacing and treated with Entinostat or placebo, respectively. Following stimulation, rabbit hearts were explanted and subsequently subjected to electrophysiological studies and further immunohistological analyses of left ventricles. RESULTS: In vivo, rapid ventricular stimulation caused a significant prolongation of monophasic action potential duration compared to sham hearts (from 173 ± 26 ms to 250 ± 41 ms; cycle length 900 ms; p < 0.05) and an increased incidence of Early afterdepolarisations (+ 150%), while treatment with Entinostat in failing hearts could partially prevent this effect (from 250 ± 41 ms to 170 ± 53 ms, p < 0.05; reduction in EAD by 50%). Entinostat treatment partially restored KCNH2 and Cav1.3 gene expressions in failing hearts, and inhibited the development of cardiac fibrosis in vivo. CONCLUSION: In a rabbit model of heart failure, Entinostat diminishes heart failure related prolongation of repolarization and partially restores KCNH2 and Cav1.3 expression. In addition, Entinostat exerts antifibrotic properties both in vitro and in vivo. Thus, Entinostat might be an interesting candidate for the pharmaceutical therapy of heart failure directed against structural and electrical remodeling