Butyrateffekte auf die Adenom-Karzinom-Sequenz beim Kolonkarzinom - HDGF ("hepatoma derived growth factor") / Effects of butyrate on adenom-carcinom-sequence in colon cancer - HDGF "hepatoma-derived growth factor")

Neun, Tilmann Alexander

January 2006

Untersuchung der Butyrateffekte auf die Genexpression von Zellkulturen während der Adenom-Karzinom-Sequenz mit Hilfe von Microarrays. Analyse des HDGF-Genclusters. Verwendete Zellkulturen Geki2, HT29 und SW620 / Examination of butyrate effects on genexpression of cellculteres during adenom-carcinom-sequence by use of microarrays. Analysis of hdgf-gencluster. USed cellcultures Geki2, HT29 und SW620.

Butyrat

Kolonkarzinom

Adenom-Karzinom-Sequenz

Wachstumsfaktoren

HDGF

Hepatoma-derived growth factor

ddc:610

Inaktivierung von HDGF in HT29-Zellen durch siRNA / Gene silencing of HDGF in HT29-cells by means of RNA interference

Grell, Anika

January 2010

Im Rahmen dieser Arbeit wurde die Expression des putativen Onkogens HDGF (Hepatoma Derived Growth Factor) in der humanen Kolonkarzinomzelllinie HT29 mittels RNA Interferenz herunterreguliert. Zwei unterschiedliche, für das Zielgen HDGF spezifische siRNAs wurden hierzu jeweils in einen Plasmidvektor kloniert. Zellen der Kolonkarzinomzelllinie HT29 wurden zunächst transient und stabil mit den beiden resultierenden Plasmidvektoren transfiziert, die Expression von HDGF in den transfizierten Zellen mittels Realtime-PCR quantifiziert und mit der Expression in mit Lipofektamin behandelten Kontrollzellen verglichen. Durch die stabile Transfektion beider Plasmidvektoren konnte die HDGF-Expression fast komplett supprimiert werden. Im Rahmen eines cDNA-Array konnten außer einer Expressionsverminderung von HDGF noch multiple Expressionsveränderungen anderer Gene identifiziert werden. Dies ist zum einen durch unspezifische, durch den Plasmidvektor bedingte Effekte erklärbar. Zum anderen aber ist die Deregulation vieler dieser Gene ein Effekt der Inaktivierung von HDGF. / In this thesis the expression of the putative oncogene HDGF (Hepatoma Derived Growth Factor) in a colorectal cancer cell-line was down-regulated by means of RNA interference. The expression of HDGF was almost completely suppressed. The expression of various other genes was also influenced. This is on the one hand due to unspecific effects caused by the plasmidvector. On the other hand it is also an effect of the gene silencing of HDGF.

Hepatoma Derived Growth Factor

HDGF

Kolorektales Karzinom

RNA Interferenz

Kolonkarzinom

ddc:610

Signaling and mechanism of HDGF in liver carcinogenesis

Kuo, Hsiao-Mei

30 August 2010

Hepatocellular carcinoma (HCC) is one of the most prevalent cancers worldwide. An extensive array of growth factors and their receptors have been identified and may act as positive and negative modulators in different stages of liver carcinogenesis. Hepatoma-derived growth factor (HDGF) is a novel growth factor identified from conditioned medium of Huh-7 hepatoma cell line. HDGF has growth stimulating activity for various types of cells. Recent evidence indicates that HDGF upregulation is associated with poor survival outcome and tumor progression in HCC, non-small cell lung carcinoma and melanoma. However, the exact function and molecular mechanism of HDGF overexpression during HCC progression remain largely unknown. In the first project (Chapter 2) of this thesis study, we started with characterizing in HDGF release and response to exogenous HDGF between benign HepG2 and malignant SK-Hep-1 hepatoma cells. It was found that serum deprivation significantly stimulated the HDGF secretion in SK-Hep-1 cells but not HepG2 cells. Interestingly, SK-Hep-1 cells did not increase the secretion of vascular endothelial growth factor (VEGF), a potent angiogenic factor, during serum deprivation. Besides, SK-Hep-1 cells were more responsive to the growth- and migration-promoting effect of exogenous HDGF. We also validated the angiogenic functions of recombinant HDGF protein in vitro and in vivo. In the second project (Chapter 3), we investigated the influence of cellular HDGF level on the neoplastic potential of hepatoma cells. Adenovirus vectors encoding HDGF, Ad-HDGF, and antisense HDGF, Ad-HDGF (-), were generated to modulate the cellular HDGF levels in SK-Hep-1 cells. Adenovirus-mediated HDGF gene delivery increased the HDGF expression and release, and stimulated the proliferation, migration and anchorage-independent growth of SK-Hep-1 cells. In contrast, infection with Ad-HDGF (-) reduced the HDGF expression and secretion, and attenuated the oncogenic behaviors of SK-Hep-1 cells. Implanting HDGF-overexpressing SK-Hep-1 cells led to the accelerated growth of xenografted hepatoma in SCID mice while implantation of HDGF-downregulated SK-Hep-1 cells caused retarded tumor growth. Histological analysis revealed the increased proliferation and neovascularization in HDGF-overexpressing tumors. This could be attributed to elevated VEGF expression and activation of the nuclear factor kappa B (NF£eB) activities by HDGF upregulation in SK-Hep-1 cells. In the third project (Chapter 4), we delineated the mechanism underlying HDGF-induced VEGF secretion and activation of NFB pathway in SK-Hep-1 cells. Adding recombinant HDGF protein enhanced the VEGF release by SK-Hep-1 cells particularly during serum starvation. This was associated with a concomitant increment in VEGF protein and mRNA levels in SK-Hep-1 cells. Like many mitogens, HDGF increased the production of reactive oxygen species (ROS) including superoxide anion and hydrogen peroxide in a dose-dependent manner. Pretreatment with antioxidants abolished the HDGF-induced VEGF secretion. NF£eB is a pivotal transcription factor for regulation of pro-inflammatory cytokines and genes such as VEGF and cycloxygenase¡V2 (COX-2). Application of HDGF stimulated NF£eB-driven luciferase activities. This was correlated with a dose- and time-depedent increment of NF£eB (p65) by HDGF. HDGF treatment also elevated the COX-2 protein levels and activities in SK-Hep-1 cells. In addition, blockade of COX-2 by NS-398 attenuated the HDGF-induced VEGF secretion, suggesting the involvement of COX-2. Finally, it was found that HDGF stimulated the phosphorylation of Akt, Erk1/2, and p38 MAPK. Inhibition of Akt by LY294002 also diminished the HDGF-induced VEGF secretion. These studies suggest that HDGF induces oxidative stress to activate NF£eB/COX-2/Akt pathway, thereby stimulating VEGF expression and release. In summary, this thesis study brings functional and mechanistic insights on how aberrant HDGF expression contributes to angiogenesis and tumorigenesis during liver carcinogenesis.

migration

hepatocellular carcinoma

liver carcinogenesis

hepatoma derived growth factor

HCC

HDGF

FUNCTIONAL CHARACTERIZATION OF PUTATIVE MITOTIC BOOKMARKING FACTORS IN PLURIPOTENCY MAINTENANCE

Deng, Xiaoxiao (Daisy)

January 2018

Pluripotent stem cells are a special population of stem cell with indefinitely self-renewal and unlimited differentiation capability, which makes them an attractive avenue for regenerative medicine and disease modeling. Therefore, it is important to understanding the fundamental mechanisms that govern and maintain their pluripotent state. A phenomenon termed mitotic bookmarking has recently been suggested as a potential mechanism involved in the stable propagation of cellular identity through the cell cycles. Candidate-based studies have identified mitotic bookmarking factors that are retained on the mitotic chromatin and preserve the transcriptional memory of the cell. Nevertheless, there is a poor understanding of which proteins can serve as mitotic bookmarks, as well as the chromatin dynamics of bookmarked sites during mitosis and the start of the G1 phase. We have previously identified a list of putative mitotic bookmarking factors in pluripotent stem cells, from which we tested the role of PARP1, HDGF, and PSIP1 as potential bookmarks for the propagation of the pluripotent state through mitosis. Here we showed that the absence of PARP1 at the M-G1 transition impairs self-renewal capability of pluripotent stem cells without affecting the proliferation and cell cycle progression. Conclusive evidence that establishes a role for HDGF or PSIP1 in mitotic bookmarking of pluripotent stem cells has yet to emerge. However, our work provides a new avenue for exploring the functional importance of mitotic bookmarks in pluripotent maintenance. / Thesis / Master of Science (MSc)

Mitotic Bookmarking

Hdgf

Parp1

Psip1

Pluripotent Stem Cells

Cell Fate Regulation