Frizzled as a G protein-coupled receptor : the role of disheveled and G proteins for signal specification
Author: Kilander, Michaela
Date: 2013-09-06
Location: Farmakologens föreläsningssal, Nanna Svartz väg 2, Stockholm
Time: 09.00
Department: Inst för fysiologi och farmakologi / Dept of Physiology and Pharmacology
Abstract
Cell communication governed and coordinated by the WNT family of lipoglycoproteins comprises essential physiological processes active throughout the life-span of metazoan organisms. In humans, severe diseases and congenital birth defects have been directly linked to disturbances in WNT signaling. In line with the general scheme of cell signaling transduction, WNT proteins bind and activate cell surface receptors in order to relay signaling to intracellular effector molecules which subsequently acts to execute changes in cell fates; such as proliferation, differentiation, migration and polarization. Thus far, a variety of structurally and functionally different proteins are identified as WNT receptors and/or co-receptors.
The ten members of the Frizzled (FZD) family of seven transmembrane-spanning proteins are the preponderant receptors of WNTs and are shown to interact with heterotrimeric G proteins and the scaffold phosphoprotein Dishevelled (DVL) to activate downstream signaling events. Due to homology in secondary structure, FZDs are classified as G protein coupled receptors (GPCRs), but display unconventional constitution and signaling properties in respect to e.g. the well-studied Class A 7TMRs. This fact generated the generally accepted notion that FZDs in fact are not GPCRs. The work presented in this thesis investigates the functional and molecular relationship between WNTs, FZDs, G proteins and DVL from a pharmacological point of view.
The link between WNTs and G proteins has been established mainly through epigenetic studies and in genetically manipulated systems. Using the [-35S]GTP method to assay G protein activity we demonstrated that WNTs are able to activate G proteins of the PTX-sensitive Gi/o family even at endogenous protein levels, thus providing evidence that the WNT-G protein connection indeed is not an artifact imposed by alterations in protein stochiometry.
Functional selectivity or biased agonism is a recently established feature of ligand activity at GPCRs and have provided important insights into the pharmacological aspects of 7TMR signaling. By assessment of downstream WNT signaling events and FRAP analysis of FZD6 lateral diffusion we find that WNT isoforms are not homologous in signaling pathway activation at a specific receptor or in a defined cellular milieu. Thus, our conclusion suggests that WNTs might be able to act as endogenous biased agonists at FZDs.
Even though recent biochemical and bioinformatics data provides the definite evidence of FZDs as true GPCRs, signal transduction mechanisms and selectivity in the interactions of FZDs, G proteins and DVL are largely unknown. Here we report, using a double fluorophores FRAP and cell surface cross-linking approach, that FZD6 protein precouples to Gi1 and Gq and that the interaction is sensitive and dynamic to WNT stimulation. We also demonstrate that DVL is an essential component in the FZD6-G protein precoupled complex. Interestingly, we find that the effect of DVL is concentration-dependent: a low as well as a high concentration of DVL destabilizes the receptor-G protein complex. Additionally, we establish that a point mutation, R511C, in the FZD6 C-terminal region gives rise to autosomal recessive nail dysplasia and renders the receptor dysfunctional in G protein precoupling.
The ten members of the Frizzled (FZD) family of seven transmembrane-spanning proteins are the preponderant receptors of WNTs and are shown to interact with heterotrimeric G proteins and the scaffold phosphoprotein Dishevelled (DVL) to activate downstream signaling events. Due to homology in secondary structure, FZDs are classified as G protein coupled receptors (GPCRs), but display unconventional constitution and signaling properties in respect to e.g. the well-studied Class A 7TMRs. This fact generated the generally accepted notion that FZDs in fact are not GPCRs. The work presented in this thesis investigates the functional and molecular relationship between WNTs, FZDs, G proteins and DVL from a pharmacological point of view.
The link between WNTs and G proteins has been established mainly through epigenetic studies and in genetically manipulated systems. Using the [-35S]GTP method to assay G protein activity we demonstrated that WNTs are able to activate G proteins of the PTX-sensitive Gi/o family even at endogenous protein levels, thus providing evidence that the WNT-G protein connection indeed is not an artifact imposed by alterations in protein stochiometry.
Functional selectivity or biased agonism is a recently established feature of ligand activity at GPCRs and have provided important insights into the pharmacological aspects of 7TMR signaling. By assessment of downstream WNT signaling events and FRAP analysis of FZD6 lateral diffusion we find that WNT isoforms are not homologous in signaling pathway activation at a specific receptor or in a defined cellular milieu. Thus, our conclusion suggests that WNTs might be able to act as endogenous biased agonists at FZDs.
Even though recent biochemical and bioinformatics data provides the definite evidence of FZDs as true GPCRs, signal transduction mechanisms and selectivity in the interactions of FZDs, G proteins and DVL are largely unknown. Here we report, using a double fluorophores FRAP and cell surface cross-linking approach, that FZD6 protein precouples to Gi1 and Gq and that the interaction is sensitive and dynamic to WNT stimulation. We also demonstrate that DVL is an essential component in the FZD6-G protein precoupled complex. Interestingly, we find that the effect of DVL is concentration-dependent: a low as well as a high concentration of DVL destabilizes the receptor-G protein complex. Additionally, we establish that a point mutation, R511C, in the FZD6 C-terminal region gives rise to autosomal recessive nail dysplasia and renders the receptor dysfunctional in G protein precoupling.
List of papers:
I. Kilander, M.B., Dijksterhuis, J.P., Ganji, R.S., Bryja, V., and Schulte, G. (2011). WNT-5A stimulates the GDP/GTP exchange at pertussis toxin-sensitive heterotrimeric G proteins. Cellular signalling. 23, 550-4.
Fulltext (DOI)
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II. Kilander, M.B., Halleskog, C., and Schulte, G. (2011). Recombinant WNTs differentially activate beta-catenin-dependent and -independent signalling in mouse microglia-like cells. Acta physiologica. 203, 363-72.
Fulltext (DOI)
Pubmed
View record in Web of Science®
III. Fröjmark, A.S., Schuster, J., Sobol, M., Entesarian, M., Kilander, M.B., Gabrikova, D., Nawaz, S., Baig, S.M., Schulte, G., Klar, J., et al. (2011). Mutations in Frizzled 6 cause isolated autosomal- recessive nail dysplasia. American journal of human genetics. 88, 852-60.
Fulltext (DOI)
Pubmed
View record in Web of Science®
IV. Kilander, M.B., Dahlström, J., Schulte, G. Assessment of FZD6 membrane mobility reveals WNT-FZD selectivity. [Manuscript]
V. Kilander, M.B., Petersen, J., Wessel Andressen, K., Ganji, S.R., Levy, F-O., Schuster, J., Dahl, N., Bryja, V., Schulte, G. Disheveled regulates precoupling of heterotrimeric G proteins to Frizzled 6. [Manuscript]
I. Kilander, M.B., Dijksterhuis, J.P., Ganji, R.S., Bryja, V., and Schulte, G. (2011). WNT-5A stimulates the GDP/GTP exchange at pertussis toxin-sensitive heterotrimeric G proteins. Cellular signalling. 23, 550-4.
Fulltext (DOI)
Pubmed
View record in Web of Science®
II. Kilander, M.B., Halleskog, C., and Schulte, G. (2011). Recombinant WNTs differentially activate beta-catenin-dependent and -independent signalling in mouse microglia-like cells. Acta physiologica. 203, 363-72.
Fulltext (DOI)
Pubmed
View record in Web of Science®
III. Fröjmark, A.S., Schuster, J., Sobol, M., Entesarian, M., Kilander, M.B., Gabrikova, D., Nawaz, S., Baig, S.M., Schulte, G., Klar, J., et al. (2011). Mutations in Frizzled 6 cause isolated autosomal- recessive nail dysplasia. American journal of human genetics. 88, 852-60.
Fulltext (DOI)
Pubmed
View record in Web of Science®
IV. Kilander, M.B., Dahlström, J., Schulte, G. Assessment of FZD6 membrane mobility reveals WNT-FZD selectivity. [Manuscript]
V. Kilander, M.B., Petersen, J., Wessel Andressen, K., Ganji, S.R., Levy, F-O., Schuster, J., Dahl, N., Bryja, V., Schulte, G. Disheveled regulates precoupling of heterotrimeric G proteins to Frizzled 6. [Manuscript]
Institution: Karolinska Institutet
Supervisor: Schulte, Gunnar
Issue date: 2013-08-16
Rights:
Publication year: 2013
ISBN: 978-91-7549-256-8
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