Regulation und Funktion des Enzyms 11beta-Hydroxysteroid-Dehydrogenase Typ 1 im Skelettmuskelmetabolismus
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Mathematisch-Naturwissenschaftliche Fakultät I
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Abstract
Das Enzym 11beta-HSD1 stellt im intrazellulären Glucocorticoidstoffwechsel eine wichtige Prärezeptorkontrolle dar. Es reguliert die intrazelluläre Cortisolkonzentration durch die enzymatische Umwandlung des aus dem Blutkreislauf aufgenommenen und hormonell inaktiven Cortisons zum aktiven Cortisol. Die Bedeutung einer erhöhten 11beta-HSD1 Expression und Aktivität bei der Entstehung von Übergewicht und Insulinresistenz wurde bisher vorwiegend in Leber und Fettgewebe untersucht und nachgewiesen. Wenig erforscht sind die Funktionen der 11beta-HSD1 im Muskelgewebe. In dieser Arbeit wurde die Funktion und Regulation der 11beta-HSD1 im Skelettmuskel mithilfe der murinen Skelettmuskelzelllinie C2C12 und primärer humaner Myoblasten untersucht. Es konnte demonstriert werden, dass die 11beta-HSD1 in Abhängigkeit des Differenzierungsgrades exprimiert wird und als Oxo-Reduktase aktiv ist, sowie selbst einen Regulator der Differenzierung darstellt. Es zeigte sich ein Feed-Forward-Mechanismus des Cortisons, das die 11beta-HSD1 in den Skelettmuskelzellen akut und chronisch induzierte, sowie eine gleichzeitige Veränderung der GRalpha- und MRalpha-Expressionen gegenregulatorisch zur 11beta-HSD1. Die Daten aus der Mauszelllinie konnten zum größten Teil in primären humanen Myoblasten bestätigt werden. Zudem konnten mehrere Transkriptionsfaktoren wie CREB, Myogenin und MEF-2c identifiziert werden, die in den verschiedenen Phasen der Differenzierung unterschiedliche Relevanz für die Regulation der 11beta-HSD1 Promotoraktivität hatten. Des Weiteren wurden die Proteolyserate und die Expression der E3-Ubiquitin-Ligasen Atrogin-1 und MuRF-1 11beta-HSD1-abhängig durch Cortison induziert. Trotz alledem führte eine Langzeit-Stimulation mit Cortison zu einer 11beta-HSD1-abhängigen Induktion der Differenzierung mit einer Veränderung der Muskelfasertypen in Richtung langsam-zuckender Muskelfasern, was eine Bedeutung für das klinische Bild der glucocorticoid-induzierten Muskelatrophie haben kann.
The enzyme 11beta-HSD1 functions as an important pre-receptor control of intracellular glucocorticoid action regulating the intracellular cortisol concentration by enzymatic conversion of the hormonal inactive cortisone up-taken from blood circulation to the active cortisol. A pivotal role of an increased 11beta-HSD1 expression and activity for the development of overweight and insulin resistance has been analysed and demonstrated particularly in liver and adipose tissue. However, the functions of 11beta-HSD1 in skeletal muscle tissue are rarely investigated. For analysis of function and regulation of the 11beta-HSD1 in skeletal muscle the murine skeletal muscle cell line C2C12 as well as primary human myoblasts from healthy volunteers were used. 11beta-HSD1 was shown to be expressed and functionally active as oxo-reductase in human and murine skeletal muscle cells dependent on the differentiation but as well to function as a regulator of differentiation itself. The stimulation experiments revealed a feed-forward-mechanism of cortisone that induced 11beta-HSD1 acutely and chronically. Concurrently, GRalpha and MRalpha were expressed contra-regulatory to 11beta-HSD1. For the most part these data were confirmed in human primary myoblasts. Several transcription factors as CREB, Myogenin and MEF-2c were identified having different relevance for regulation of 11beta-HSD1 promoter activity during the different phases of differentiation. Furthermore, treatment with cortisone increased protein degradation and expression of the two E3-ubiquitin-ligases Atrogin-1 and MuRF-1 in an 11beta-HSD1-dependent way. Nonetheless, a long-term stimulation by cortisone revealed an 11beta-HSD1-dependent induction of differentiation accompanied by modification of muscle fiber type composition towards slow-twitch muscle fibers that may play a role for the clinical picture of glucocorticoid-induced muscle atrophy.
The enzyme 11beta-HSD1 functions as an important pre-receptor control of intracellular glucocorticoid action regulating the intracellular cortisol concentration by enzymatic conversion of the hormonal inactive cortisone up-taken from blood circulation to the active cortisol. A pivotal role of an increased 11beta-HSD1 expression and activity for the development of overweight and insulin resistance has been analysed and demonstrated particularly in liver and adipose tissue. However, the functions of 11beta-HSD1 in skeletal muscle tissue are rarely investigated. For analysis of function and regulation of the 11beta-HSD1 in skeletal muscle the murine skeletal muscle cell line C2C12 as well as primary human myoblasts from healthy volunteers were used. 11beta-HSD1 was shown to be expressed and functionally active as oxo-reductase in human and murine skeletal muscle cells dependent on the differentiation but as well to function as a regulator of differentiation itself. The stimulation experiments revealed a feed-forward-mechanism of cortisone that induced 11beta-HSD1 acutely and chronically. Concurrently, GRalpha and MRalpha were expressed contra-regulatory to 11beta-HSD1. For the most part these data were confirmed in human primary myoblasts. Several transcription factors as CREB, Myogenin and MEF-2c were identified having different relevance for regulation of 11beta-HSD1 promoter activity during the different phases of differentiation. Furthermore, treatment with cortisone increased protein degradation and expression of the two E3-ubiquitin-ligases Atrogin-1 and MuRF-1 in an 11beta-HSD1-dependent way. Nonetheless, a long-term stimulation by cortisone revealed an 11beta-HSD1-dependent induction of differentiation accompanied by modification of muscle fiber type composition towards slow-twitch muscle fibers that may play a role for the clinical picture of glucocorticoid-induced muscle atrophy.
Description
Keywords
Proteolyse, Regulation, Differenzierung, 11beta-HSD1, 11beta-Hydroxysteroid-Dehydrogenase Typ 1, Skelettmuskel, regulation, differentiation, proteolysis, 11beta-HSD1, 11beta-hydroxysteroid-dehydrogenase type 1, skeletal muscle
Dewey Decimal Classification
570 Biologie
Citation
Biedasek, Katrin.(2013). Regulation und Funktion des Enzyms 11beta-Hydroxysteroid-Dehydrogenase Typ 1 im Skelettmuskelmetabolismus. 10.18452/16747