Project description:Myocardial ischemia (MI) is the most common cause of heart failure (HF) in the United States. G protein‑coupled receptor (GPCR) kinase 5 (GRK5) has been found to be upregulated in failing human myocardium. While the canonical role of GRKs is to desensitize receptors via phosphorylation, GRK5 can also translocate to the nucleus of cardiomyocytes where it exerts GPCR‑independent effects that promote maladaptive cardiac hypertrophy. The role of GRK5 in ischemic heart disease is still unknown

Project description:The strength and duration of extracellular signal-regulated kinases 1/2 (ERK1/2) phosphorylation can define the phenotypic outcome of cells. Stimualtion of the proteinase-activated receptor (Par) triggers a Gi-dependent long-lasting transactivation of the epidermal growth factor receptor and subsequent ERK1/2 phosphorylation. To understand the mechnaisms underlying this signaling cascade, microarray analysis was performed in vascular smooth muscle cells. Experiment Overall Design: Par receptors on neonatal rat aortic smooth muscle cells were stimulated with thrombin or TRAP in presence or abscence of Gi-uncoupling pertussis toxin.

Project description:Gastrointestinal stomal tumors (GIST) are mainly characterised by the presence of activating mutations in either of the two receptor tyrosine kinases c-KIT and Platelet-derived growth factor receptor-a (PDGFRa). Most mechanistic studies dealing with GIST mutations have focused on c-KIT and far less is known about the signalling characteristics of the mutated PDGFRa proteins. Comparative studies of the signal transduction capacities of different mutant proteins cannot be performed in patient cells due to the patient specific background which may influence the signalling behaviour of the investigated mutants. In addition, the lack of a real wild-type signalling control (PDGFRa-WT) hampers comparisons of the signalling of wild-type and mutant proteins. Therefore, we stably and inducibly expressed different PDGFRa mutants as well as wild-type PDGFRa on an isogenic background in 293T cells in order to study the signalling capacities and corresponding transcriptional responses of the different proteins. We found that the constitutive signalling via the oncogenic PDGFRa mutants favours a mislocalisation of the receptors and that this modifies the signalling characteristics of the mutated receptors. We show that signalling via the oncogenic PDGFRa mutants is not solely characterised by a constitutive activation of the conventional PDGFRa signalling pathways.

Project description:The strength and duration of extracellular signal-regulated kinases 1/2 (ERK1/2) phosphorylation can define the phenotypic outcome of cells. Stimualtion of the proteinase-activated receptor (Par) triggers a Gi-dependent long-lasting transactivation of the epidermal growth factor receptor and subsequent ERK1/2 phosphorylation. To understand the mechnaisms underlying this signaling cascade, microarray analysis was performed in vascular smooth muscle cells.

Project description:affy_fsh_human - affy_fsh_human - - G protein-coupled receptors (GPCR) are centrally involved in most physiological processes and are a major drug targets. They transduce extracellular signals inside the cells through at least two different mechanisms: i) the classical coupling to heterotrimeric G proteins and ii) a newly discovered beta-arrestin-dependent pathway. The fundamental issue of the respective impacts that these two transduction mechanisms exert on gene regulation has not been clearly addressed to date. To tackle this question, we have developed two mutants of the follicle stimulating hormone (FSH) receptors which do not couple to G proteins upon FSH activation but continue to recruit beta-arrestins and signal through them.-In the present study, we compare the wild-type FSH receptor to either the R466A or the T469F mutants. These two mutations are localized in the second intra cellular loop of the FSH receptor and prevent G protein coupling to the active FSH receptor. Each receptor was permanently expressed in HEK-293 cells at comparable levels. Cells were treated or not for 6 hours with 3 nM FSH. Keywords: treated vs untreated comparison,wt vs mutant comparison 18 arrays - Human GenomeU133A 2.0

Project description:-arrestins (arr1 and arr2) are ubiquitous regulators of G protein-coupled receptor (GPCR) signalling. Available data suggest that -arrestins dock to different receptors in different ways. However, the structural characterization of arrestin-GPCR complexes is challenging and alternative approaches to study arrestin-GPCR complexes are needed. Here, starting from the finger loop as a major site for the interaction of arrestins with GPCRs, we genetically incorporate non-canonical amino acids for photo- and chemical crosslinking into arr1 and arr2 and explore binding topologies to GPCRs forming either stable or transient complexes with arrestin: the vasopressin receptor 2 (rhodopsin-like), the corticotropin releasing factor receptor 1 and the parathyroid hormone receptor 1 (both secretin-like). We show that each receptor leaves a unique footprint on arrestin, whereas the two -arrestins yield quite similar crosslinking patterns. Furthermore, we show that the method allows defining the orientation of arrestin respect to the GPCR. Finally, we provide direct evidence for the formation of arrestin oligomers in the cell.

Project description:Thermogenic adipocytes possess a therapeutically appealing, energy-expending capacity, which is canonically cold-induced by ligand-dependent activation of b-adrenergic G protein-coupled receptors (GPCRs). Here we uncover an alternate paradigm of GPCR-mediated adipose thermogenesis through the constitutively active receptor, GPR3. We show that the N-terminus of GPR3 confers intrinsic signaling activity, resulting in continuous Gs-coupling and cAMP production without an exogenous ligand. Thus, transcriptional induction of Gpr3 represents the regulatory parallel to ligand-binding of conventional GPCRs. Consequently, increasing Gpr3 expression in thermogenic adipocytes is alone sufficient to drive energy expenditure and counteract metabolic disease in mice. Gpr3 transcription is cold-stimulated by a lipolytic signal and dietary fat potentiates GPR3-dependent thermogenesis to amplify the response to caloric excess. Moreover, we find GPR3 to be an essential, adrenergic-independent regulator of human brown adipocytes. Taken together, our findings reveal a noncanonical mechanism of GPCR control and thermogenic activation through the lipolysis-induced expression of constitutively active GPR3.

Project description:Thermogenic adipocytes possess a therapeutically appealing, energy-expending capacity, which is canonically cold-induced by ligand-dependent activation of b-adrenergic G protein-coupled receptors (GPCRs). Here we uncover an alternate paradigm of GPCR-mediated adipose thermogenesis through the constitutively active receptor, GPR3. We show that the N-terminus of GPR3 confers intrinsic signaling activity, resulting in continuous Gs-coupling and cAMP production without an exogenous ligand. Thus, transcriptional induction of Gpr3 represents the regulatory parallel to ligand-binding of conventional GPCRs. Consequently, increasing Gpr3 expression in thermogenic adipocytes is alone sufficient to drive energy expenditure and counteract metabolic disease in mice. Gpr3 transcription is cold-stimulated by a lipolytic signal and dietary fat potentiates GPR3-dependent thermogenesis to amplify the response to caloric excess. Moreover, we find GPR3 to be an essential, adrenergic-independent regulator of human brown adipocytes. Taken together, our findings reveal a noncanonical mechanism of GPCR control and thermogenic activation through the lipolysis-induced expression of constitutively active GPR3.

Project description:Plant genomes encode hundreds of secreted peptides; however, relatively few have been characterised. We report here an uncharacterised, stress-induced family of plant signalling peptides, which we call CTNIPs. Based on the role of the common co-receptor BRASSINOSTEROID INSENSITIVE 1-ASSOCIATED KINASE 1 (BAK1) in CTNIP-induced responses, we identified the orphan receptor kinase HAESA-LIKE 3 (HSL3) as the CTNIP receptor via a proteomics approach. CTNIP binding, ligand-triggered complex formation with BAK1, and induced downstream responses all involve HSL3. Notably, the HSL3-CTNIP signalling module is evolutionary ancient, predating the divergence of extant angiosperms. Definition of this signalling module will help establish its physiological role and provides a resource to understand further receptor-ligand co-evolution.

Project description:Thermogenic adipocytes possess a therapeutically appealing, energy-expending capacity, which is canonically cold-induced by ligand-dependent activation of b-adrenergic G protein-coupled receptors (GPCRs). Here we uncover an alternate paradigm of GPCR-mediated adipose thermogenesis through the constitutively active receptor, GPR3. We show that the N-terminus of GPR3 confers intrinsic signaling activity, resulting in continuous Gs-coupling and cAMP production without an exogenous ligand. Thus, transcriptional induction of Gpr3 represents the regulatory parallel to ligand-binding of conventional GPCRs. Consequently, increasing Gpr3 expression in thermogenic adipocytes is alone sufficient to drive energy expenditure and counteract metabolic disease in mice. Gpr3 transcription is cold-stimulated by a lipolytic signal and dietary fat potentiates GPR3-dependent thermogenesis to amplify the response to caloric excess. Moreover, we find GPR3 to be an essential, adrenergic-independent regulator of human brown adipocytes. Taken together, our findings reveal a noncanonical mechanism of GPCR control and thermogenic activation through the lipolysis-induced expression of constitutively active GPR3.