Sharon Sweitzer scite author profile

The dynamin family of GTPases is essential for receptor-mediated endocytosis and synaptic vesicle recycling, and it has recently been shown to play a role in vesicle formation from the trans-Golgi network. Dynamin is believed to assemble around the necks of clathrin-coated pits and assist in pinching vesicles from the plasma membrane. This role would make dynamin unique among GTPases in its ability to act as a mechanochemical enzyme. Data presented here demonstrate that purified recombinant dynamin binds to a lipid bilayer in a regular pattern to form helical tubes that constrict and vesiculate upon GTP addition. This suggests that dynamin alone is sufficient for the formation of constricted necks of coated pits and supports the hypothesis that dynamin is the force-generating molecule responsible for membrane fission.

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Evidence for a Common Mechanism of SIRT1 Regulation by Allosteric Activators

Hubbard

Gomes

Han

et al. 2013

Science

539

536

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A molecule that treats multiple age-related diseases would have a major impact on global health and economics. The SIRT1 deacetylase has drawn attention in this regard as a target for drug design. Yet controversy exists around the mechanism of sirtuin-activating compounds (STACs). We found that specific hydrophobic motifs found in SIRT1 substrates such as PGC-1α and FOXO3a facilitate SIRT1 activation by STACs. A single amino acid in SIRT1, Glu230, located in a structured N-terminal domain, was critical for activation by all previously reported STAC scaffolds and a new class of chemically distinct activators. In primary cells reconstituted with activation-defective SIRT1, the metabolic effects of STACs were blocked. Thus, SIRT1 can be directly activated through an allosteric mechanism common to chemically diverse STACs.

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Vaccinia Virus B18R Gene Encodes a Type I Interferon-binding Protein That Blocks Interferon α Transmembrane Signaling

Colamonici

Domanski

Sweitzer

et al. 1995

Journal of Biological Chemistry

330

207

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Poxviruses encode a large number of proteins that attenuate the inflammatory and immune responses to infection. In this report we demonstrate that a number of orthopoxviruses express a type I interferon (IFN)-binding protein, which is encoded by the B18R open reading frame in the WR strain of vaccinia virus. The B18R protein has significant regions of homology with the alpha subunits of the mouse, human, and bovine type I IFN receptors, bound human IFN alpha 2 with high affinity, and inhibited transmembrane signaling as demonstrated by inhibition of Fc receptor factor gamma 1/gamma 2 and interferon-stimulated gene factor-3 formation as well as inhibition of the IFN alpha antiviral response. Among viral host response modifiers, the B18R protein is unique inasmuch as it exists as a soluble extracellular as well as a cell surface protein and thus should effectively block both autocrine and paracrine functions of IFN.

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Cloning, Expression, and Initial Characterization of a Novel Cytokine-like Gene Family

et al. 2002

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Sharon Sweitzer

Dynamin Undergoes a GTP-Dependent Conformational Change Causing Vesiculation

Evidence for a Common Mechanism of SIRT1 Regulation by Allosteric Activators

Vaccinia Virus B18R Gene Encodes a Type I Interferon-binding Protein That Blocks Interferon α Transmembrane Signaling

Cloning, Expression, and Initial Characterization of a Novel Cytokine-like Gene Family

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