55 research outputs found
HochwÀrmeleitfÀhige Polymer-Compounds
Nach dem aktuellen Stand der Technik werden wĂ€rmeleitfĂ€hige thermoplastische Compounds vermehrt fĂŒr Bauteile mit EntwĂ€rmungsaufgaben eingesetzt und haben somit metallische Bauteile zum Teil verdrĂ€ngt. Einsatzbereiche finden sich in der Elektronik, Mechatronik aber auch in technischen Teilen in der Automobilindustrie, da bspw. die Verarbeitbarkeit im SpritzgieĂverfahren mehr Freiheiten bei der Formgebung ermöglicht. Weiterhin besitzen wĂ€rmeleitfĂ€hige Kunststoff-Compounds gegenĂŒber metallischen Materialien eine wesentlich geringere Dichte und sie erlauben eine gezielte Einstellung der Materialeigenschaften durch die Variation der FĂŒllstoffe und des FĂŒllstoffanteils. Als FĂŒllstoffe fĂŒr wĂ€rmeleitfĂ€hige Kunststoffe haben sich organi-sche FĂŒllstoffe (z.B. Graphit), metallische FĂŒllstoffe (z.B. Kupfer) und keramische FĂŒllstoffe (z.B. Bornitrid) durchgesetzt. Die WĂ€rmeleitfĂ€higkeitswerte von kommerziell erhĂ€ltlichen Compounds liegen laut den Herstellerangaben zwischen 1 W/mK und 20 W/mK und somit um den Faktor 10 bis 100 ĂŒber dem von ungefĂŒllten Polymeren. Diese Werte konnten jedoch im Rahmen der hier vorgestellten Untersuchungen auf bis zu 30 W/mK gesteigert werden. Zum Erreichen solch hoher thermischen LeitfĂ€higkeiten wurden bis zu 80 Gew.% an FĂŒllstoffen in verschiedene Polymere eingebracht. Mittels einer Vielzahl an Versuchsreihen wurden neben der WĂ€rmeleitfĂ€higkeit auch der Einfluss auf die mechanischen Kennwerte sowie die Verarbeitbarkeit der Materialien im Extrusions- und SpritzgieĂprozess betrachtet. Durch den SpritzgieĂprozess kommt es bei gefĂŒllten Compounds zur einer strömungsinduzierten Orientierung der FĂŒllstoffpartikel im Bauteil. Mittels Raster-Elektronen- Mikroskop-Aufnahmen von verschiedenen Probekörpern konnte eine anisotrope Schichtstruktur nachgewiesen werden, die die WĂ€rmeleitfĂ€higkeit signifikant beeinflusst und eine Differenzierung der WĂ€rmeleitfĂ€higkeit in âthrough-planeâ und âin-planeâ-Richtung erfordert
Novel strategies to target the survivin pathway in cancer â interference with nuclear export prevents the tumor promoting activites of survivin : meeting abstract
Survivin functions as an apoptosis inhibitor and a regulator of cell division during development and tumorigenesis. Since survivin is a highly relevant target for tumor therapy, we investigated whether interference with itâs dynamic cellular localization represents a novel strategy to inhibit survivinâs cancer promoting functions. We confirmed survivin overexpression in head and neck as well as in colorectal cancers and identified an evolutionary conserved Crm1-dependent nuclear export signal (NES) in survivin. Importantly, nuclear export was required for survivin mediated protection against chemo- and radiotherapy-induced apoptosis by securing efficient interference with cytoplasmic caspases. In dividing cells, the NES was required for tethering of survivin and of the survivin/Aurora-B kinase complex to the mitotic machinery, which was inevitable for proper cell division. The clinical relevance of our findings was supported by showing that preferential nuclear localization of survivin correlated with enhanced survival in a cohort of colorectal cancer patients. Targeting survivinâs nuclear export by the application of NES-specific antibodies promoted its nuclear accumulation and inhibited its cytoprotective function. We here show that nuclear export is essential for the tumor promoting activities of survivin and encourage the identification of chemical inhibitors to specifically interfere with survivinâs nuclear export as a novel class of anticancer therapeutics
SIAH2 antagonizes TYK2-STAT3 signaling in lung carcinoma cells
The Janus tyrosine kinases JAK1-3 and tyrosine kinase-2 (TYK2) are frequently hyperactivated in tumors. In lung cancers JAK1 and JAK2 induce oncogenic signaling through STAT3. A putative role of TYK2 in these tumors has not been reported. Here, we show a previously not recognized TYK2-STAT3 signaling node in lung cancer cells. We reveal that the E3 ubiquitin ligase seven-in-absentia-2 (SIAH2) accelerates the proteasomal degradation of TYK2. This mechanism consequently suppresses the activation of STAT3. In agreement with these data the analysis of primary non-small-cell lung cancer (NSCLC) samples from three patient cohorts revealed that compared to lung adenocarcinoma (ADC), lung squamous cell carcinoma (SCC) show significantly higher levels of SIAH2 and reduced STAT3 phosphorylation levels. Thus, SIAH2 is a novel molecular marker for SCC. We further demonstrate that an activation of the oncologically relevant transcription factor p53 in lung cancer cells induces SIAH2, depletes TYK2, and abrogates the tyrosine phosphorylation of STAT1 and STAT3. This mechanism appears to be different from the inhibition of phosphorylated JAKs through the suppressor of cytokine signaling (SOCS) proteins. Our study may help to identify molecular mechanisms affecting lung carcinogenesis and potential therapeutic targets
Mechanistic insights into p53-regulated cytotoxicity of combined entinostat and irinotecan against colorectal cancer cells
Late-stage colorectal cancer (CRC) is still a clinically challenging problem. The activity of the tumor suppressor p53 is regulated via post-translational modifications (PTMs). While the relevance of p53 C-terminal acetylation for transcriptional regulation is well defined, it is unknown whether this PTM controls mitochondrially mediated apoptosis directly. We used wild-type p53 or p53-negative human CRC cells, cells with acetylation-defective p53, transformation assays, CRC organoids, and xenograft mouse models to assess how p53 acetylation determines cellular stress responses. The topoisomerase-1 inhibitor irinotecan induces acetylation of several lysine residues within p53. Inhibition of histone deacetylases (HDACs) with the class I HDAC inhibitor entinostat synergistically triggers mitochondrial damage and apoptosis in irinotecan-treated p53-positive CRC cells. This specifically relies on the C-terminal acetylation of p53 by CREB-binding protein/p300 and the presence of C-terminally acetylated p53 in complex with the proapoptotic BCL2 antagonist/killer protein. This control of C-terminal acetylation by HDACs can mechanistically explain why combinations of irinotecan and entinostat represent clinically tractable agents for the therapy of p53-proficient CRC
TSA downregulates Wilms tumor gene 1 (Wt1) expression at multiple levels
The Wilms tumor gene WT1 encodes a zinc-finger transcription factor that is inactivated in a subset of pediatric kidney cancers. During embryogenesis, WT1 is expressed in a time- and tissue-specific manner in various organs including gonads and kidney but also in the hematopoietic system. Although widely regarded as a tumor suppressor gene, wild-type WT1 is overexpressed in a variety of hematologic malignancies, most notably in acute lymphoblastic leukemia as well as myelodysplastic syndromes. Reduction of WT1 expression levels leads to decrease of proliferation and apoptosis of leukemic cells, suggesting that in certain contexts WT1 might act as an oncogene. We show here that histone deacetylase inhibitors like Trichostatin A (TSA) can promptly and dramatically downregulate Wt1 expression levels in different cell lines. This effect was mostly due to the cessation of transcription and was mediated by sequences located in intron 3 of Wt1. In addition, TSA also caused enhanced degradation of the Wt1 protein by the proteasome. This was at least in part due to induction of the ubiquitin-conjugating enzyme UBCH8. Thus, downregulation of Wt1 expression might contribute to the beneficial effects of histone deacetylase inhibitors that are currently used in clinical trials as cancer therapeutics
Mechanistic insights into p53âregulated cytotoxicity of combined entinostat and irinotecan against colorectal cancer cells
Lateâstage colorectal cancer (CRC) is still a clinically challenging problem. The activity of the tumor suppressor p53 is regulated via postâtranslational modifications (PTMs). While the relevance of p53 Câterminal acetylation for transcriptional regulation is well defined, it is unknown whether this PTM controls mitochondrially mediated apoptosis directly. We used wildâtype p53 or p53ânegative human CRC cells, cells with acetylationâdefective p53, transformation assays, CRC organoids, and xenograft mouse models to assess how p53 acetylation determines cellular stress responses. The topoisomeraseâ1 inhibitor irinotecan induces acetylation of several lysine residues within p53. Inhibition of histone deacetylases (HDACs) with the class I HDAC inhibitor entinostat synergistically triggers mitochondrial damage and apoptosis in irinotecanâtreated p53âpositive CRC cells. This specifically relies on the Câterminal acetylation of p53 by CREBâbinding protein/p300 and the presence of Câterminally acetylated p53 in complex with the proapoptotic BCL2 antagonist/killer protein. This control of Câterminal acetylation by HDACs can mechanistically explain why combinations of irinotecan and entinostat represent clinically tractable agents for the therapy of p53âproficient CRC
Motor, cognitive and mobility deficits in 1000 geriatric patients : protocol of a quantitative observational study before and after routine clinical geriatric treatment â the ComOn-study
© The Author(s). 2020 Open Access. This article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.Background: Motor and cognitive deficits and consequently mobility problems are common in geriatric patients. The currently available methods for diagnosis and for the evaluation of treatment in this vulnerable cohort are limited. The aims of the ComOn (COgnitive and Motor interactions in the Older populatioN) study are (i) to define quantitative markers with clinical relevance for motor and cognitive deficits, (ii) to investigate the interaction between both motor and cognitive deficits and (iii) to assess health status as well as treatment outcome of 1000 geriatric inpatients in hospitals of Kiel (Germany), Brescia (Italy), Porto (Portugal), Curitiba (Brazil) and Bochum (Germany).
Methods: This is a prospective, explorative observational multi-center study. In addition to the comprehensive geriatric assessment, quantitative measures of reduced mobility and motor and cognitive deficits are performed before and after a two week's inpatient stay. Components of the assessment are mobile technology-based assessments of gait, balance and transfer performance, neuropsychological tests, frailty, sarcopenia, autonomic dysfunction and sensation, and questionnaires to assess behavioral deficits, activities of daily living, quality of life, fear of falling and dysphagia. Structural MRI and an unsupervised 24/7 home assessment of mobility are performed in a subgroup of participants. The study will also investigate the minimal clinically relevant change of the investigated parameters.
Discussion: This study will help form a better understanding of symptoms and their complex interactions and treatment effects in a large geriatric cohort.info:eu-repo/semantics/publishedVersio
2. Vorlesung (13.01.2020): Protein DNA interaction
Vorlesungsinhalt: Lambda Regressor; DNA-Erkennung durch Proteine; Proteine können DNA-Struktur beeinflussen; Die HomeodomÀne; Struktur eukaryotischer Promotoren; DNase-Footprinting; Elektrophorese von Protein-DNA-Kpmplexen; ABCD-Assay; Analyse der Kompetition von GR und NF-kB; ChIP on Chip; ChIP-Se
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