Serotonin receptor type 7 (5-HT7) displays immunomodulatory functions and is overexpressed in individuals with Crohn's disease. Here, we set out to determine 5-HT7 mode of interaction with its cognate proteins Gs and G12. A unique type of coupling, termed 'inverse coupling' is known to occur between the 5-HT7 receptor and the Gs protein. The aim of our research was to determine whether G12 can also undergo this kind of coupling. We found that the G12 protein has a surprisingly lower mobility than Gs implying a specific interaction with a membrane domain or another membrane-localized protein. For both G proteins, we were unable to detect their inverse coupling with the 5-HT7 receptor at room temperature. Our findings indicate peculiar differences in G protein mobility and emphasize the importance of temperature for studies of interactions between G proteins and G protein-coupled receptors.
Annotation in English
Serotonin receptor type 7 (5-HT7) displays immunomodulatory functions and is overexpressed in individuals with Crohn's disease. Here, we set out to determine 5-HT7 mode of interaction with its cognate proteins Gs and G12. A unique type of coupling, termed 'inverse coupling' is known to occur between the 5-HT7 receptor and the Gs protein. The aim of our research was to determine whether G12 can also undergo this kind of coupling. We found that the G12 protein has a surprisingly lower mobility than Gs implying a specific interaction with a membrane domain or another membrane-localized protein. For both G proteins, we were unable to detect their inverse coupling with the 5-HT7 receptor at room temperature. Our findings indicate peculiar differences in G protein mobility and emphasize the importance of temperature for studies of interactions between G proteins and G protein-coupled receptors.
Serotonin receptor type 7 (5-HT7) displays immunomodulatory functions and is overexpressed in individuals with Crohn's disease. Here, we set out to determine 5-HT7 mode of interaction with its cognate proteins Gs and G12. A unique type of coupling, termed 'inverse coupling' is known to occur between the 5-HT7 receptor and the Gs protein. The aim of our research was to determine whether G12 can also undergo this kind of coupling. We found that the G12 protein has a surprisingly lower mobility than Gs implying a specific interaction with a membrane domain or another membrane-localized protein. For both G proteins, we were unable to detect their inverse coupling with the 5-HT7 receptor at room temperature. Our findings indicate peculiar differences in G protein mobility and emphasize the importance of temperature for studies of interactions between G proteins and G protein-coupled receptors.
Annotation in English
Serotonin receptor type 7 (5-HT7) displays immunomodulatory functions and is overexpressed in individuals with Crohn's disease. Here, we set out to determine 5-HT7 mode of interaction with its cognate proteins Gs and G12. A unique type of coupling, termed 'inverse coupling' is known to occur between the 5-HT7 receptor and the Gs protein. The aim of our research was to determine whether G12 can also undergo this kind of coupling. We found that the G12 protein has a surprisingly lower mobility than Gs implying a specific interaction with a membrane domain or another membrane-localized protein. For both G proteins, we were unable to detect their inverse coupling with the 5-HT7 receptor at room temperature. Our findings indicate peculiar differences in G protein mobility and emphasize the importance of temperature for studies of interactions between G proteins and G protein-coupled receptors.
Prof Grubhoffer welcomed the student and commission members; all commission members were present. The student presented the theoretical background of GPCRs, the goals, the experimental part and the results. The supervisor and opponent presented their reviews. The student answered all the questions of the opponent and also questions from the commission members on the kinetics and binding in dependence of temperature, the used cells, the effect of endogenous GPRC complexes, and transfection of cells.
Votes: 6x 1
Final grade: excellent
Points: 145
The commission suggests this thesis for the Outstanding bachelor theses award by the head of the Department of Chemistry.