Publications by authors named "Michael Hanzal-Bayer"

We identify a role for the GDI-like solubilizing factor (GSF) PDEδ in modulating signalling through Ras family G proteins by sustaining their dynamic distribution in cellular membranes. We show that the GDI-like pocket of PDEδ binds and solubilizes farnesylated Ras proteins, thereby enhancing their diffusion in the cytoplasm. This mechanism allows more effective trapping of depalmitoylated Ras proteins at the Golgi and polycationic Ras proteins at the plasma membrane to counter the entropic tendency to distribute these proteins over all intracellular membranes.

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Article Synopsis
  • - Recent research indicates that mammalian cells use two main structures, lipid droplets (LDs) and caveolae, to store lipids, with caveolin (CAV) potentially linking them together.
  • - The study identifies two key motifs necessary for directing CAV to LDs: a hydrophobic domain that anchors it to the endoplasmic reticulum and positively charged sequences that facilitate sorting into LDs.
  • - Findings show that the sorting mechanism for CAV shares similarities with how proteins are targeted to mitochondria and peroxisomes, highlighting a broader principle in cellular lipid organization.
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Caveolae are an abundant feature of mammalian cells. Integral membrane proteins called caveolins drive the formation of caveolae but the precise mechanisms underlying caveola formation, and the origin of caveolae and caveolins during evolution, are unknown. Systematic evolutionary analysis shows conservation of genes encoding caveolins in metazoans.

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Article Synopsis
  • The study investigates how the H-ras protein is organized within the plasma membrane, focusing on the role of guanine nucleotide binding in its distribution.
  • Researchers used molecular dynamics simulations and FRET measurements in live cells to analyze how H-ras interacts with different nanodomain markers.
  • Key mutations in certain regions of H-ras were found to impact its binding and signaling conformation, suggesting that the plasma membrane plays a significant role in influencing H-ras's activity and facilitating MAPK signaling.
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Membrane rafts are regions of increased lipid acyl chain order that differ in their lipid and protein composition from the surrounding membrane. By providing an additional level of compartmentalization they have been proposed to serve many functions in cellular signal transduction and trafficking. We will review their potential involvement in different forms of membrane traffic, explicitly excluding signalling, and discuss select aspects of the raft hypothesis in its current form.

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Ras proteins regulate signal transduction processes that control cell growth and proliferation. Their disregulation is a common cause of human tumors. Atomic level structural and dynamical information in a membrane environment is crucial for understanding signaling specificity among Ras isoforms and for the design of selective anti-cancer agents.

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Caveolae are striking morphological features of the plasma membrane of mammalian cells. Caveolins, the major proteins of caveolae, play a crucial role in the formation of these invaginations of the plasma membrane; however, the precise mechanisms involved are only just starting to be unravelled. Recent studies suggest that caveolae are stable structures first generated in the Golgi complex.

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Arf-like proteins (Arl) share certain characteristic features with the Arf subfamily of Ras superfamily proteins, but their function is unknown. Here, we show by a variety of spectroscopic techniques that Arl2, unlike most other Ras-related proteins, has micromolar rather than picomolar affinity for nucleotides. As a consequence of low affinity, nucleotide dissociation rates are rather fast, arguing that it is not regulated by guanine nucleotide exchange factors.

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Arf-like (Arl) proteins are close relatives of the Arf regulators of vesicular transport, but their function is unknown. Here, we present the crystal structure of full-length Arl2-GTP in complex with its effector PDE delta solved in two crystal forms (Protein Data Bank codes 1KSG, 1KSH and 1KSJ). Arl2 shows a dramatic conformational change from the GDP-bound form, which suggests that it is reversibly membrane associated.

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