|
|
The role of macrophages in the regulation of systemic metabolism in Drosophila
KREJČOVÁ, Gabriela
Macrophages are immensely versatile cells in the mammalian body, fulfilling roles ranging from protection against pathogenic intruders and engulfing apoptotic cells to morphogenesis and maintenance of tissue homeostasis. This impressive functional versatility may be achieved due to plasticity of macrophage cellular metabolism called metabolic polarization. The adoption of different polarization phenotypes by macrophages determines their function and is essential for the health of the organism. Nonetheless, if the cells lose their metabolic plasticity or polarize inadequately to a particular situation, it can lead to the development of chronic pathological states such as metabolic syndrome. Metabolic polarization of immune cells is thus a key factor in determining whether macrophage function within the organism will be adaptive or pathological. Despite Drosophila melanogaster represents a major model organism for immunological studies, the metabolic setup of activated immune cells has not been addressed up to now. The results of this thesis document that Drosophila immune cells undergo metabolic polarization toward aerobic glycolysis when challenged by extracellular bacteria. Mammals alike, this cellular metabolic switch is regulated by the transcription factor HIF1, thus documenting the conservation of this process between insects and vertebrates. Furthermore, we show that the adoption of aerobic glycolysis is directly linked to the production of the signaling factor IMPL2, which induces the mobilization of lipid stores from the fat body via the silencing of insulin signaling. By this mechanism, immune cells secure sufficient nutrients for successful elimination of the pathogen. Moreover, the mammalian ImpL2 homolog IGFBP7 appears to act analogously in the mammalian liver not only during severe infectious states but also in the liver of obese individuals. While such macrophage activity in regulating systemic metabolism is beneficial to the host during bacterial infection, it becomes maladaptive when chronically activated. Further evidence for a metabolism-regulatory role of immune cells has been found during insect metamorphosis and early post-metamorphic development. This thesis documents that during this period, macrophages infiltrate and engulf the histolyzing larval fat body and convert nutrients into storage peptides and lipoproteins. Subsequently, these nutrients are exploited by the maturing adult structures.
|
|
|
Wingless/Notch crosstalk in Drosophila melanogaster
Hajšmanová, Hana ; Mašek, Jan (vedoucí práce) ; Macůrková, Marie (oponent)
Základním kamenem existence mnohobuněčných organismů je přítomností signalizačních drah, komplexních biochemických kaskád umožňujících vzájemnou komunikaci mezi buňkami. Dráhy Notch a Wnt jsou klíčové pro správný embryonální vývoj, a jejich deregulace vede k vzniku mnoha závažných onemocnění. Mnohaletý výzkum postavený z velké míry na poznatcích z pokusů v modelovém organismu D. melanogaster ukázal, že komponenty těchto drah nepůsobí striktně odděleně, ale naopak vstupují do vzájemné interakce (crosstalk). Tento fenomén je však u savců prozkoumán jen v omezené míře. Tato bakalářská práce má za cíl shrnout dosavadní poznatky o spolupůsobení drah Wnt a Notch u D. melanogaster a nastínit, kde by mohl crosstalk hrát roli u savců.
|
host ::
RSS.