@phdthesis{Messerschmidt2022, author = {Messerschmidt, Konstantin Felix}, title = {Einfluss der PSMA-Expression auf die Docetaxel-Sensitivit{\"a}t sowie systemischer Medikamente auf die Expression von PSMA, CXCR4 und SSTR2}, doi = {10.25972/OPUS-28336}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-283364}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2022}, abstract = {F{\"u}r das klinische Management des Prostatakarzinoms werden nuklearmedizinische Verfahren zunehmend relevant. Bildgebung und Therapie, welche gegen das Prostataspezifische Membranantigen (PSMA) gerichtet sind, werden bereits im klinischen Alltag angewendet. Weitere potenzielle Biomarker des Prostatakarzinoms, wie beispielsweise der CXC-Motiv-Chemokinrezeptor 4 (CXCR4) und der Somatostatinrezeptor Typ 2 (SSTR2), werden zudem als nuklearmedizinische Zielstrukturen diskutiert. Vorangegangene Arbeiten legten einen Zusammenhang zwischen dem Ausmaß der PSMA-Expression und der Sensitivit{\"a}t gegen{\"u}ber Docetaxel in Prostatakarzinomzellen nahe. Ein Ziel der vorliegenden Arbeit war, diesen Mechanismus genauer zu untersuchen. Dabei wurden die Aktivit{\"a}t onkogener Signalwege, die Proliferation und die CXCR4- sowie die Androgenrezeptor (AR)- Expression in Prostatakarzinomzelllinien mit unterschiedlicher PSMA-Expression durchflusszytometrisch quantifiziert. Im zweiten Projektteil sollte der Einfluss von Metformin und verschiedener, bereits in der Prostatakarzinomtherapie angewandter Medikamente (Docetaxel, Dexamethason, Abirateron und Enzalutamid), auf die Expression von PSMA, CXCR4 und SSTR2 untersucht werden. Die Quantifizierung der Expression erfolgte mittels Durchflusszytometrie. Ein kausaler Mechanismus f{\"u}r den Zusammenhang zwischen PSMA-Expression und Docetaxel-Sensitivit{\"a}t konnte in dieser Arbeit schließlich nicht hergestellt werden. Es zeigten sich jedoch vor allem Expressionsmodulationen von PSMA und CXCR4. Mittels Docetaxel konnte z.B. bei C4-2 Zellen eine Verdopplung der PSMA-Expression und eine Verdreifachung der CXCR4-Expression erreicht werden. Dar{\"u}ber hinaus zeigte die Behandlung mit Abirateron eine deutliche Heraufregulation der PSMA- Expression bei LNCaP und C4-2 Zellen, sowie eine Zunahme der CXCR4- Expression bei allen untersuchten Zelllinien. Sollte sich der Einfluss der medikament{\"o}sen Behandlung auf die Expression von PSMA und CXCR4 best{\"a}tigen, kann dies zuk{\"u}nftig zur verbesserten und individualisierten Diagnostik und Therapie von Prostatakarzinompatienten beitragen.}, subject = {Prostatakrebs}, language = {de} } @phdthesis{Dirimanov2019, author = {Dirimanov, Stoyan Dinkov}, title = {Molecular Effects of Polyphenols in Experimental Type 2 Diabetes Mellitus and Metabolic Syndrome}, doi = {10.25972/OPUS-18570}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-185701}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2019}, abstract = {The growing prevalence of type 2 diabetes mellitus (T2DM) demands novel therapeutic and adjuvant strategies. Polyphenols (PPs) are plant secondary metabolites. Epidemiological studies demonstrate an inverse relationship between their increased intake and the risk of development of T2DM and cardiovascular complications. However, the PPs' mechanism of action remains largely unknown. The present work aimed to expand knowledge regarding the effects of PPs on diabetes relevant molecular targets. Pycnogenol® (PYC) is a standardized pine bark extract which consists of oligomeric and monomeric PPs. Its anti-diabetic effects have been demonstrated in clinical trials. As a part of a human study involving 20 healthy volunteers, the extract's effects on dipeptidyl peptidase IV (DPP IV) were investigated. This protease terminates the insulin secretagogue action of incretins. Its inhibition is a promising strategy in T2DM treatment. This study uncovered that PYC-intake of 100 mg daily over 14 days statistically significantly reduced DPP IV serum concentrations by 8.2 \% (n= 38, p= 0.032). Contrary to expectations, this decrease was not paralleled by a reduction in the serum DPP IV enzymatic activity. To the best of our knowledge, the present study was the first investigating the effects of PPs on DPP IV serum concentrations and activities in humans. The finding that PYC is capable of reducing DPP IV serum concentrations might be important with regard to diabetes, where DPP IV levels are increased. Screenings for PPs' in vitro effects on DPP IV activity were performed employing a purified enzyme. The effects of tested PPs (among which PYC ingredients) at a physiologically relevant concentration of 5 µM were weak (< 10 \%) and too small compared to the reference compound sitagliptin, and thus not likely to be clinically relevant. This result is in discordance with some published data, but consistent with the outcome from the present human study. In addition, fluorescence interactions with the experimental setup were registered: under certain conditions urolithin B exhibited an autofluorescence which might mask eventual inhibitory activity. Quercetin quenched the fluorescence slightly which might contribute to false positive results. No statistically significant effects of selected constituents and metabolites of PYC on the total DPP IV protein expression were observed in 3T3-L1 adipocytes. Thus, the lower DPP IV in vivo concentrations after intake of PYC cannot be explained with down-regulation of the DPP IV expression in adipocytes. Akt kinase is responsible for the transmission of insulin signals and its dysregulation is related to insulin resistance and plays an important role in development of cardiovascular complications in T2DM. Thus, the modulation of the phosphorylation status of endothelial Akt-kinase, respectively its activity, might be a promising strategy in the management of these pathologies. This work aimed to uncover the effects of PPs from different structural subclasses on Akt-phosphorylation (pAkt) in endothelial cells (Ea.hy926). Short-term effects (5 - 30 min) were investigated at a concentration of 10 µM. In a pilot study two model PPs induced a moderate, but reproducible inhibition of pAkt Ser473 of 52.37 ± 21.01 \% (quercetin; p= 0.006, n= 3) and 37.79 ± 7.14 \% (resveratrol; p= 0.021, n= 4) compared to the negative control. A primary screening with Western blot analysis investigated the effects of eight compounds from different subclasses on pAkt Ser473 and Thr308 to reveal whether the observed inhibition PPs a group effect or specific to certain compounds. In addition to resveratrol and quercetin, statistically significant inhibitions of pAkt Ser473 were induced by luteolin (29.96 ± 11.06 \%, p< 0.01, n= 6) and apigenin (22.57 ± 10.30 \%, p< 0.01, n= 6). In contrast, genistein, 3,4,5-trimethoxystilbene, taxifolin and (+)-catechin caused no inhibition. A strong positive and statistically significant correlation between the mean inhibitory effects of the tested PPs on both Akt-residues Ser473 and Thr308 (r= 0.9478, p= 0.0003) was determined. A comprehensive secondary screening via ELISA involving 44 compounds from nine structural groups quantified the effects of PPs on pAkt Ser473 to uncover potential structure-activity features. The most potent inhibitors were luteolin (44.31 ± 17.95 \%), quercetin (35.71 ± 8.33 \%), urolithin A (35.28 ± 11.80 \%), apigenin (31.79 ± 6.16 \%), fisetin (28.09 ± 9.09 \%), and resveratrol (26.04 ± 5.58 \%). These effects were statistically significant (p< 0.01, n= 3 to 6). Further lead structure optimization might be based on the fact that the effects of luteolin and resveratrol also differed statistically significantly from each other (p= 0.008). To the best of our knowledge, the present study is the first to compare quantitatively the short term effects of PPs from different subclasses on pAkt in endothelial cells. Basic structure-activity relationships revealed that for flavones and flavonols the presence of a C2=C3 double bond (ring C) was essential for inhibitory activity and hydroxylation on the m- and p- positions in the ring B contributed to it. For stilbenoids, three free OH-groups appeared to be optimal. The comparison of the inhibitory potentials of ellagic acid and its microbial metabolites showed that urolithin A was statistically significantly more effective than its progenitor compound. Despite their structural similarities, the only active compound among all urolithins tested was urolithin A, hydroxylated at the C3 and C8 positions. This suggested a specific effect for urolithin A. Based on the common structural determinants and molecular geometry of the most active PPs a pharmacophore model regarding Akt-inhibition was proposed. In summary, the effects of a wide variety of PPs from diverse structural subclasses on the in vitro phosphorylation of endothelial Akt were quantitatively analyzed for the first time, the effects of previously undescribed compounds were determined and structure activity relationships were elucidated. The inhibitory potential of individual PPs might be beneficial in cases of sustained over-activation of Akt-kinase and its substrates such as S6 kinase as reported for certain T2DM-related pathological states, such as insulin resistance, endothelial dysfunction, excessive angiogenesis, vascular calcification, and insulin triggered DNA-damage. The results of the present work suggest potential molecular mechanisms of action of PP involving Akt-inhibition and DPP IV-down-regulation and thus contribute to the understanding of anti-diabetic effects of these compounds on the molecular level.}, subject = {Polyphenole}, language = {en} } @phdthesis{Niederlechner2013, author = {Niederlechner, Stefanie}, title = {Assessment of the basic molecular mechanisms underlying L-glutamine's cytoprotective effects after intestinal injury}, url = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-77399}, school = {Universit{\"a}t W{\"u}rzburg}, year = {2013}, abstract = {Critical illness like sepsis, shock, and intestinal bowel disease are one of the leading causes of morbidity and mortality in the US and around the world. At present, studies to define new therapeutic interventions that can protect tissues and cells against injury and attenuate inflammation are fields of intense investigation. While research over the past decade has clearly identified GLN as a vital stress substrate facilitating cellular survival following injury, the initiation steps in GLN's cytoprotective molecular mechanism still remain elusive. Previously published work suggested that stabilization of ECM proteins and activation of ECM receptor osmosignaling may play a central role in the orchestration of many cellular pathways following stress. Thus, I hypothesized that preservation of ECM protein and EGFR levels as well as ECM receptor signaling play key roles in the molecular mechanisms underlying GLN's protection against thermal injury in the intestine. I was able to confirm via Western blotting and by using silencing RNA against FN, Ntn-1, EGFR, and their negative controls, that GLN-mediated preservation of FN, Ntn-1, and EGFR levels is critical in GLN's protection against hyperthermia in IEC-6 cells. By using a selective FN-Integrin interaction inhibitor GRGDSP, its negative control peptide GRGESP, and Src-kinase inhibitor PP2, I showed that FN-Integrin signaling and Src-kinase activation are essential in GLN-mediated protection in the intestine. This applied to EGFR signaling as demonstrated using the EGFR tyrosine kinase inhibitor AG1478. In addition to GRGDSP and AG1478, ERK1/2 inhibitors PD98059 and UO126 as well as the p38MAPK inhibitor SB203580 revealed that GLN is protective by activating ERK1/2 and dephosphorylating p38MAPK via FN-Integrin and EGFR signaling. However, GLN-mediated PI3-K/Akt/Hsp70 activation seems to occur independently of FN-Integrin and EGFR signaling as indicated by Western blots as well as experiments using the PI3-K inhibitor LY294002, GRGDSP, and AG1478. The results showed that GLN activates cell survival signaling pathways via integrins as well as EGFRs after hyperthermia. Moreover, I found that GLN-mediated preservation of FN expression after HS is regulated via PI3-K signaling. Whether GLN-mediated PI3-K signaling happens simultaneously to FN-Integrin and EGFR signaling or whether PI3-K signaling coordinates FN-Integrin and EGFR signaling needs to be investigated in future studies. Further, experiments with PD98059 and GRGDSP revealed that ERK1/2 assists in mediating transactivation of HSF-1 following HS. This leads to increases in Hsp70 expression via FN-Integrin signaling, which is known to attenuate apoptosis after thermal injury. Fluorescence microscopy results indicated that HS and GLN regulate cell are size changes and the morphology of F-actin via FN-Integrin signaling. Experiments using GRGDSP and GRGESP showed that GLN enhances cellular survival via FN-Integrin signaling in a manner that does not require increased intracellular GLN concentrations (as quantified using LC-MS/MS). In summary, my thesis work gives new and potentially clinically relevant mechanistic insights into GLN-mediated molecular cell survival pathways. These results warrant clinical translation to assess if clinical outcome of critically ill patients suffering from gastrointestinal diseases can be improved by GLN treatment and/or by targeting the molecular pathways found in my studies.}, subject = {Glutamin}, language = {en} }