@phdthesis{Elsner2022,
  author    = {Elsner, Clara Dorothea},
  title     = {Ultrastructural analysis of biogenesis and release of endothelial extracellular vesicles},
  doi       = {10.25972/OPUS-28852},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-288526},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {Extracellular vesicle (EV)-mediated intercellular communication through exosomes, microvesicles (MVs) and apoptotic bodies has been shown to be implicated in various physiological as well as pathological processes such as the development and progression of atherosclerosis. While the cellular machinery controlling EV formation and composition has been studied extensively, little is known about the underlying morphological processes. This study focuses on a detailed ultrastructural analysis of the different steps of EV formation and release in Myocardial Endothelial (MyEnd) and Aortic Endothelial (AoEnd) cells cultured under serum starvation and inflammatory stimulation with TNF-α. Detailed morphological analyses were conducted applying and comparing different high- resolution light and electron microscopic methods. In this study, we could depict all steps of MV biogenesis named in literature. However, during the study of exosome biogenesis, we discovered a yet undescribed process: Instead of a direct fusion with the plasma membrane, multivesicular bodies were incorporated into a new distinct cellular compartment bound by fenestrated endothelium first. This may present a novel step in exosome biogenesis and warrants further study. Regarding the conditions of cell cultivation, we observed that the commonly used serum starvation causes MyEnd cells, but not AoEnd cells, to enter apoptosis after 48 hours. When preparing functional EV studies, we therefore recommend assessing the morphological condition of the serum-starved cells at different cultivation points first. When evaluating MV production, a statistical analysis showed that the more time AoEnd cells spent in cultivation under serum starvation, the higher the percentage of MV producing cells. However, additional TNF-α stimulation induced a significantly higher MV production than serum starvation alone. Lastly, our results show that TNF-α stimulation of AoEnd cells in vitro leads to the upregulation of CD44, an adhesion molecule critical in the early stages of atherosclerosis. CD44 was then depicted on the surface of generated MVs and exosomes. We conclude that under inflammatory conditions, EVs can mediate the transfer of CD44 from endothelial cells to target cells. This could be a novel mechanism by which MVs contribute to the development and progression of atherosclerotic disease and should be clarified by further studies.},
  subject      = {Vesikel},
  language  = {en}
}
@phdthesis{Michalska2013,
  author    = {Michalska, Marta},
  title     = {Molecular Imaging of atherosclerosis},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-73243},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2013},
  abstract  = {Atherosklerose ist eine aktive und progressive Erkrankung, bei der vaskul{\"a}re Adh{\"a}sionsmolek{\"u}le wie VCAM-1 eine entscheidende Rolle durch Steuerung der Rekrutierung von Immunzellen in den fr{\"u}hen und fortgeschrittenen Plaques spielen. Ein zielgerichteter Einsatz von VCAM-1-Molek{\"u}len mit spezifischen Kontrastmitteln ist daher eine M{\"o}glichkeit, die VCAM-1-Expression zu kontrollieren, Plaquewachstum ab einem fr{\"u}hen Zeitpunkt zu visualisieren und eine fr{\"u}he Pr{\"a}vention von Atherosklerose vor Beginn der Thrombusbildung zu etablieren. Des Weiteren bietet die nichtinvasive Magnetresonanz (MR)-Bildgebung den Vorteil der Kombination molekularer und morphologischer Daten. Sie erm{\"o}glicht, mithilfe von entwickelten VCAM-1-markierten Eisenoxidpartikeln, den spezifischen Nachweis entz{\"u}ndlicher Prozesse w{\"a}hrend der Atherosklerose. Diese Arbeit belegt, dass mit dem VCAM-1-Konzept eine vielversprechende Herangehensweise gefunden wurde und dass das, mit spezifischen superparamagnetischen Eisenoxid (USPIO) konjugierte VCAM-1-Peptid, gegen{\"u}ber unspezifischer USPIOs ein erh{\"o}htes Potenzial bei der Untersuchung der Atherosklerose in sich tr{\"a}gt. Im ersten Teil der Arbeit konnte im Mausmodell gezeigt werden, dass gerade das VCAM-1-Molek{\"u}l ein sinnvoller Ansatzpunkt zur Darstellung und Bildgebung von Atherosklerose ist, da in der fr{\"u}hen Phase der Entz{\"u}ndung die vaskul{\"a}ren Zelladh{\"a}sionsmolek{\"u}le {\"u}berexprimiert und auch kontinuierlich, w{\"a}hrend der fortschreitenden Plaquebildung, hochreguliert werden. Weiterhin beschreibt diese Arbeit die Funktionst{\"u}chtigkeit und das Verm{\"o}gen des neu gestalteten USPIO Kontrastmittels mit dem zyklischen Peptid, in seiner Spezialisierung auf die VCAM-1 Erkennung. Experimentelle Studien mit ultra-Hochfeld-MRT erm{\"o}glichten weitere ex vivo und in vivo Nachweise der eingesetzten USPIO-VCAM-1-Partikel innerhalb der Region um die Aortenwurzel in fr{\"u}hen und fortgeschrittenen atherosklerotischen Plaques von 12 und 30 Wochen alten Apolipoprotein E-defizienten (ApoE-/-) M{\"a}usen. Mit ihrer Kombination aus Histologie und Elektronenmikroskopie zeigt diese Studie zum ersten Mal die Verteilung von VCAM-1-markierten USPIO Partikeln nicht nur in luminalem Bereich der Plaques, sondern auch in tieferen Bereichen der medialen Muskelzellen. Dieser spezifische und sensitive Nachweis der fr{\"u}hen und fortgeschrittenen Stadien der Plaquebildung bringt auf molekularer Ebene neue M{\"o}glichkeiten zur Fr{\"u}herkennung von atherosklerotischen Plaques vor dem Entstehen von 8 Rupturen. Im Gegensatz zum USPIO-VCAM-1-Kontrastmittel scheiterten unspezifische USPIO Partikel an der Identifikation fr{\"u}her Plaqueformen und begrenzten die Visualisierung von Atherosklerose auf fortgeschrittene Stadien in ApoE-/- M{\"a}usen.},
  subject      = {VCAM},
  language  = {en}
}
@phdthesis{Padmapriya2008,
  author    = {Padmapriya, Ponnuswamy},
  title     = {Insight into oxidative stress mediated by nitric oxide synthase (NOS) isoforms in atherosclerosis},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-30659},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2008},
  abstract  = {The principle product of each NOS is nitric oxide. However, under conditions of substrate and cofactor deficiency the enzymes directly catalyze superoxide formation. Considering this alternative chemistry of each NOS, the effects of each single enzyme on key events of atherosclerosis are difficult to predict. Here, we evaluate nitric oxide and superoxide production by all three NOS isoforms in atherosclerosis. ESR measurements of circulating and vascular wall nitric oxide production showed significantly reduced nitric oxide levels in apoE/eNOS double knockout (dko) and apoE/iNOS dko animals but not in apoE/nNOS dko animals suggesting that eNOS and iNOS majorly contribute to vascular nitric oxide production in atherosclerosis. Pharmacological inhibition and genetic deletion of eNOS and iNOS reduced vascular superoxide production suggesting that eNOS and iNOS are uncoupled in atherosclerotic vessels. Though genetic deletion of nNOS did not alter superoxide production, acute inhibition of nNOS showed that nNOS contributes significantly to superoxide production. In conclusion, uncoupling of eNOS occurs in apoE ko atherosclerosis but eNOS mediated superoxide production does not outweigh the protective effects of eNOS mediated nitric oxide production. We show that although nNOS is not a major contributor of the vascular nitric oxide formation, it prevents atherosclerosis development. Acute inhibition of nNOS showed a significant reduction of superoxide formation suggesting that nNOS is uncoupled. The exact mechanism of action of nNOS in atheroprotection is yet to be elucidated. Genetic deletion of iNOS reduced NADPH oxidase activity. Thus, iNOS has both direct and indirect proatherosclerotic effects, as it directly generates both nitric oxide and superoxide simultaneously resulting in peroxynitrite formation and indirectly modulates NADPH oxidase activity. We hypothesize that eNOS is coupled in the disease free regions of the vessel and contributes to nitric oxide generation whereas in the diseased region of the vessel it is uncoupled to produce superoxide (Figure 16). nNOS expressed in the smooth muscle cells of the plaque contributes to the local superoxide generation. iNOS expressed in smooth muscle cells and leukocytes of the plaque generates superoxide and nitric oxide simultaneously to produce the strong oxidant peroxynitrite.},
  subject      = {atherosclerosis},
  language  = {en}
}