Mirko Hekman scite author profile

Ras proteins control the signalling pathways that are responsible for normal growth and malignant transformation. Raf protein kinases are direct Ras effector proteins that initiate the mitogen-activated protein kinase (MAPK) cascade, which mediates diverse biological functions such as cell growth, survival and differentiation. Here we show that prohibitin, a ubiquitously expressed and evolutionarily conserved protein is indispensable for the activation of the Raf-MEK-ERK pathway by Ras. The membrane targeting and activation of C-Raf by Ras needs prohibitin in vivo. In addition, direct interaction with prohibitin is required for C-Raf activation. C-Raf kinase fails to interact with the active Ras induced by epidermal growth factor in the absence of prohibitin. Moreover, in prohibitin-deficient cells the adhesion complex proteins cadherin and beta-catenin relocalize to the plasma membrane and thereby stabilize adherens junctions. Our data show an unexpected role of prohibitin in the activation of the Ras-Raf signalling pathway and in modulating epithelial cell adhesion and migration.

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TPK1, a Ca²⁺‐regulated Arabidopsis vacuole two‐pore K⁺ channel is activated by 14‐3‐3 proteins

Latz

et al. 2007

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SummaryThe vacuole represents a pivotal plant organelle for management of ion homeostasis, storage of proteins and solutes, as well as deposition of cytotoxic compounds. Ion channels, pumps and carriers in the vacuolar membrane under control of cytosolic factors provide for ionic and metabolic homeostasis between this storage organelle and the cytoplasm. Here we show that AtTPK1 (KCO1), a vacuolar membrane localized K + channel of the TPK family, interacts with 14-3-3 proteins (general regulating factors, GRFs). Following in planta expression TPK1 and GRF6 co-localize at the vacuolar membrane. Co-localization of wild-type TPK1, but not the TPK1-S42A mutant, indicates that phosphorylation of the 14-3-3 binding motif of TPK1 represents a prerequisite for interaction. Pull-down assays and surface plasmon resonance measurements revealed GRF6 high-affinity interaction with TPK1. Following expression of TPK1 in yeast and isolation of vacuoles, patchclamp studies identified TPK1 as a voltage-independent and Ca 2+ -activated K + channel. Addition of 14-3-3 proteins strongly increased the TPK1 activity in a dose-dependent manner. However, an inverse effect of GRF6 on the activity of the slow-activating vacuolar (SV) channel was observed in mesophyll vacuoles from Arabidopsis thaliana. Thus, TPK1 seems to provide for a Ca 2+ -and 14-3-3-sensitive mechanism capable of controlling cytoplasmic potassium homeostasis in plants.

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Crystal structure of the p14/MP1 scaffolding complex: How a twin couple attaches mitogen-activated protein kinase signaling to late endosomes

Kurzbauer

Teis

Araújo

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

117

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Signaling pathways in eukaryotic cells are often controlled by the formation of specific signaling complexes, which are coordinated by scaffold and adaptor proteins. Elucidating their molecular architecture is essential to understand the spatial and temporal regulation of cellular signaling. p14 and MP1 form a tight (K d ‫؍‬ 12.8 nM) endosomal adaptor͞scaffold complex, which regulates mitogen-activated protein kinase (MAPK) signaling. Here, we present the 1.9-Å crystal structure of a biologically functional p14͞MP1 complex. The overall topology of the individual MP1 and p14 proteins is almost identical, having a central five-stranded ␤-sheet sandwiched between a two-helix and a one-helix layer. Formation of the p14͞MP1 heterodimer proceeds by ␤-sheet augmentation and yields a unique, almost symmetrical, complex with several potential protein-binding sites on its surface. Mutational analysis allowed identification of the p14 endosomal adaptor motif, which seems to orient the complex relative to the endosomal membrane. Two highly conserved and hydrophobic protein-binding sites are located on the opposite ''cytoplasmic'' face of the p14͞MP1 heterodimer and might therefore function as docking sites for the target proteins extracellular regulated kinase (ERK) 1 and MAPK͞ ERK kinase 1. Furthermore, detailed sequence analyses revealed that MP1͞p14, together with profilins, define a protein superfamily of small subcellular adaptor proteins, named ProflAP. Taken together, the presented work provides insight into the spatial regulation of MAPK signaling, illustrating how p14 and MP1 collaborate as an endosomal adaptor͞scaffold complex.

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X-linked and cellular IAPs modulate the stability of C-RAF kinase and cell motility

et al. 2008

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Inhibitor of apoptosis proteins (IAP) are evolutionarily conserved anti-apoptotic regulators. C-RAF protein kinase is a direct RAS effector protein, which initiates the classical mitogen-activated protein kinase (MAPK) cascade. This signalling cascade mediates diverse biological functions, such as cell growth, proliferation, migration, differentiation and survival. Here we demonstrate that XIAP and c-IAPs bind directly to C-RAF kinase and that siRNA-mediated silencing of XIAP and c-IAPs leads to stabilization of C-RAF in human cells. XIAP binds strongly to C-RAF and promotes the ubiquitylation of C-RAF in vivo through the Hsp90-mediated quality control system, independently of its E3 ligase activity. In addition, XIAP or c-IAP-1/2 knockdown cells showed enhanced cell migration in a C-RAF-dependent manner. XIAP promotes binding of CHIP (carboxy terminal Hsc70-interacting protein), a chaperone-associated ubiquitin ligase, to the C-RAF-Hsp90 complex in vivo. Interfering with CHIP expression resulted in stabilization of C-RAF and enhanced cell migration, as observed in XIAP knockdown cells. Our data show an unexpected role of XIAP and c-IAPs in the turnover of C-RAF protein, thereby modulating the MAPK signalling pathway and cell migration.

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Mirko Hekman

Prohibitin is required for Ras-induced Raf–MEK–ERK activation and epithelial cell migration

TPK1, a Ca²⁺‐regulated Arabidopsis vacuole two‐pore K⁺ channel is activated by 14‐3‐3 proteins

Crystal structure of the p14/MP1 scaffolding complex: How a twin couple attaches mitogen-activated protein kinase signaling to late endosomes

X-linked and cellular IAPs modulate the stability of C-RAF kinase and cell motility

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Mirko Hekman

Prohibitin is required for Ras-induced Raf–MEK–ERK activation and epithelial cell migration

TPK1, a Ca2+‐regulated Arabidopsis vacuole two‐pore K+ channel is activated by 14‐3‐3 proteins

Crystal structure of the p14/MP1 scaffolding complex: How a twin couple attaches mitogen-activated protein kinase signaling to late endosomes

X-linked and cellular IAPs modulate the stability of C-RAF kinase and cell motility

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TPK1, a Ca²⁺‐regulated Arabidopsis vacuole two‐pore K⁺ channel is activated by 14‐3‐3 proteins