Intranet Campus web

Physiological relevance of white adipose tissue plasticity and its relationship to the development of obesity and to thermogenic response (closed project)

Sufficient plasticity of white adipose tissue allows to adjust appropriately various metabolic processes in response to changing environmental conditions. Metabolic plasticity of adipose tissue is linked with changes in the size and content of cells within the tissue. A hypothesis will be verified that adipose tissue plasticity, namely the proliferative potential of adipose tissue cells, represents an important factor counteracting toxic effects of fatty acids that are released during the breakdown of lipid stores. Reduced ability of the organism to activate these processes could contribute to the  development of obesity and its metabolic consequences.

Preliminary  results obtained in a mouse model of obesity resistance (inbred strain A/J) and obesity susceptibility (strain C57BL/6J) suggested the role of adipose tissue plasticity in the prevention of obesity in response to omega-3 fatty acids, as well as fat burning during exposure to cold. Mice of these two strains were subsequently used in new experiments aimed to:

  1. characterize cellular plasticity of adipose tissue during  intake of omega-3 fatty acids or cold exposure;
  2. assess the link between angiogenesis and adipogenesis during adipose tissue remodelling;
  3. analyze the immune response and the role of adipose tissue macrophages during adipose tissue remodelling.
  4. characterize the role of triglyceride/fatty acid cycling in WAT in the whole body effects of the combined treatment using with omega-3 and thiazolidinedione MSDC-0602.
  5. characterize the role of triglyceride/fatty acid cycling in WAT in thermogebnic response of mice with genetic ablation of mitocondrial uncoupling protein 1.

Main publication outputs: Flachs et al. 2018 Int J Obes (Lond), Adamcova et al. 2018 Mar Drugs, Janovska et al. 2020 J Cachexia Sarcopenia Muscle, Bardová et al. 2021 Nutrients


Supported by the CSF projects no. 16-05151S (2016-2018, PI: Jan Kopecky, MD, DSc., IPHYS – Pavel Flachs, PhD. served as the PI on the project at its beginning) and no. 19-02411S (2019-2021, PI: Jan Kopecky, MD, DSc.)