Research Group “Molecular Mechanisms of Behavior” (Prof. Lutz)

We would like to understand how we learn and forget, how we are able to cope with stress (“stress resilience”) and why chronic stress can strongly affect our behavior (e.g. memory, social behavior, pain perception, eating behavior, energy metabolism). These behaviors are mainly controlled by the brain, but also by neuronal and hormonal interactions between the brain and peripheral organs. Behavioral patterns can also imprinted during development of the nervous system or by metabolic processes. Under pathophysiological conditions, changes in behavior and in cellular processes can be observed. Under certain circumstances, these changes can lead to psychiatric or neurological diseases. A detailed understanding of these neurobiological processes should aid to achieve better therapies or to prevent disease outbreak. We use a multidisciplinary approach to get new insights in these complex behavioral processes in the mouse animal model system. This includes genetic, pharmacological and biochemical methods as well as methods of cellular and molecular biology, histology and electrophysiology.

What are the functions of the endocannabinoid-system? How does THC act?

The discovery of endogenous binding proteins (the cannabinoid receptors) to Δ9-tetrahydrocannabinol (THC), isolated from Cannabis sativa, enabled the identification of endogenous cannabinoids (called endocannabinoids). Endocannabinoids are lipids, that mediate the communication between cells in the body and inside the cell. A central research topic deals with different physiological functions of this so-called endocannabinoid system. This recently described regulatory system seems to be important for the maintenance of the physical balance of the body (“homeostasis”). Furthermore, the system is critical to keep the organism resistant to stress and high demands (“stress resilience”).

We investigate this endogenous regulatory system

  • in the processing of fearful memories, anxiety and stress
  • in the regulation of eating behavior and energy metabolism
  • in relation to a protective mechanism against chronic stress
  • in the influence of chronic stress on pain perception
  • in the regulation of proliferation, migration and differentiation of neuronal precursor cells in the embryo and in the adult animal brain
  • in the signal transduction processes at the CB1 receptor, and
  • in the control of the excitability of neuronal networks.


Pharmacological interventions, which influence the activity of the endocannabinoid system, should evaluate a possible therapeutic use of cannabinoids in the behaviors mentioned above. In addition, we analyze how THC changes cellular processes during development and in the adult and thereby affects behavior.

Epigenetic changes and regulation of behavior

We study how the environment can influence behaviors. Regarding anxiety- or stress coping (“stress resilience”), memory formation or energy metabolism, genetic programs induce general behavioral reactions, which might be influenced by the individual life story. Here, covalent modifications of DNA (e.g. methylation) and chromatin (e.g. acetylation) play an important role. Therefore, we analyze epigenetic changes of genes which regulate behaviors, e.g. genes of the endocannabinoid system, and genes known to catalyze epigenetic processes.

Development of the nervous system, stem cells, stem cell therapy

Numerous signaling pathways are active in the embryo as well as in the adult, including the endocannabinoid system and neurotrophins (amongst others BDNF, brain derived neurotrophic factor). Part of our research deals with the functional interaction of both systems during the generation of new neurons in the adult mammalian brain. Furthermore, we perform transplantation experiments with cells derived from embryonic stem cells to establish therapeutic interventions for neuropsychiatric/neurodegenerative malfunctions, for example in Chorea Huntington and in spinal cord injury.

Further information about the Research Group

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