Sylwia Wasiak scite author profile

Pioneering biochemical studies have long forged the concept that the mitochondria are the 'energy powerhouse of the cell'. These studies, combined with the unique evolutionary origin of the mitochondria, led the way to decades of research focusing on the organelle as an essential, yet independent, functional component of the cell. Recently, however, our conceptual view of this isolated organelle has been profoundly altered with the discovery that mitochondria function within an integrated reticulum that is continually remodeled by both fusion and fission events. The identification of a number of proteins that regulate these activities is beginning to provide mechanistic details of mitochondrial membrane remodeling. However, the broader question remains regarding the underlying purpose of mitochondrial dynamics and the translation of these morphological transitions into altered functional output. One hypothesis has been that mitochondrial respiration and metabolism may be spatially and temporally regulated by the architecture and positioning of the organelle. Recent evidence supports and expands this idea by demonstrating that mitochondria are an integral part of multiple cell signaling cascades. Interestingly, proteins such as GTPases, kinases and phosphatases are involved in bi-directional communication between the mitochondrial reticulum and the rest of the cell. These proteins link mitochondrial function and dynamics to the regulation of metabolism, cell-cycle control, development, antiviral responses and cell death. In this review we will highlight the emerging evidence that provides molecular definition to mitochondria as a central platform in the execution of diverse cellular events.

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Bax/Bak promote sumoylation of DRP1 and its stable association with mitochondria during apoptotic cell death

Wasiak

2007

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Dynamin-related protein 1 (DRP1) plays an important role in mitochondrial fission at steady state and during apoptosis. Using fluorescence recovery after photobleaching, we demonstrate that in healthy cells, yellow fluorescent protein (YFP)–DRP1 recycles between the cytoplasm and mitochondria with a half-time of 50 s. Strikingly, during apoptotic cell death, YFP-DRP1 undergoes a transition from rapid recycling to stable membrane association. The rapid cycling phase that characterizes the early stages of apoptosis is independent of Bax/Bak. However, after Bax recruitment to the mitochondrial membranes but before the loss of mitochondrial membrane potential, YFP-DRP1 becomes locked on the membrane, resulting in undetectable fluorescence recovery. This second phase in DRP1 cycling is dependent on the presence of Bax/Bak but independent of hFis1 and mitochondrial fragmentation. Coincident with Bax activation, we detect a Bax/Bak-dependent stimulation of small ubiquitin-like modifier-1 conjugation to DRP1, a modification that correlates with the stable association of DRP1 with mitochondrial membranes. Altogether, these data demonstrate that the apoptotic machinery regulates the biochemical properties of DRP1 during cell death.

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Endocytic protein intersectin-l regulates actin assembly via Cdc42 and N-WASP

et al. 2001

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Intersectin-s is a modular scaffolding protein regulating the formation of clathrin-coated vesicles. In addition to the Eps15 homology (EH) and Src homology 3 (SH3) domains of intersectin-s, the neuronal variant (intersectin-l) also has Dbl homology (DH), pleckstrin homology (PH) and C2 domains. We now show that intersectin-l functions through its DH domain as a guanine nucleotide exchange factor (GEF) for Cdc42. In cultured cells, expression of DH-domain-containing constructs cause actin rearrangements specific for Cdc42 activation. Moreover, in vivo studies reveal that stimulation of Cdc42 by intersectin-l accelerates actin assembly via N-WASP and the Arp2/3 complex. N-WASP binds directly to intersectin-l and upregulates its GEF activity, thereby generating GTP-bound Cdc42, a critical activator of N-WASP. These studies reveal a role for intersectin-l in a novel mechanism of N-WASP activation and in regulation of the actin cytoskeleton.

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Tandem MS analysis of brain clathrin-coated vesicles reveals their critical involvement in synaptic vesicle recycling

Blondeau

Ritter

Allaire

et al. 2004

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

281

292

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Tandem MS has identified 209 proteins of clathrin-coated vesicles (CCVs) isolated from rat brain. An overwhelming abundance of peptides were assigned to the clathrin coat with a 1:1 stoichiometry observed for clathrin heavy and light chains and a 2:1 stoichiometry of clathrin heavy chain with clathrin adaptor protein heterotetramers. Thirty-two proteins representing many of the known components of synaptic vesicles (SVs) were identified, supporting that a main function for brain CCVs is to recapture SVs after exocytosis. A ratio of vesicle-N-ethylmaleimide-sensitive factor attachment protein receptors to target-N-ethylmaleimide-sensitive factor attachment protein receptors, similar to that previously detected on SVs, supports a single-step model for SV sorting during CCV-mediated recycling of SVs. The uncovering of eight previously undescribed proteins, four of which have to date been linked to clathrin-mediated trafficking, further attests to the value of the current organelle-based proteomics strategy. T he sorting of receptors and other cell-surface proteins from the plasma membrane via clathrin-mediated endocytosis is the basis for a range of essential cellular processes, including the uptake of nutrient and signaling receptors, the control of cell and serum homeostasis through the internalization of plasma membrane pumps, and a contribution to learning and memory through the regulation of surface expression of neurotransmitter receptors (1). Until recently, it was thought that clathrin assembly into progressively curved lattices provided the driving force for the formation of clathrin-coated pits (CCPs) and vesicles (CCVs), and that the adaptor protein 2 (AP-2) complex was solely responsible for recruiting clathrin to the membrane and for binding to endocytic cargo, concentrating the cargo in CCPs (1, 2). However, clathrin assembly may not be sufficient to drive membrane curvature (3), and the previously accepted obligatory role for AP-2 in coat assembly and cargo recruitment has been recently questioned (4-6).In neuronal tissues, CCVs are postulated to be responsible for the recycling of synaptic vesicles (SVs) during neurotransmission (7). As such, CCVs retrieve SV membranes from the plasma membrane after SV collapse, concomitant with neurotransmitter release. Many of the components of the endocytic machinery are concentrated in the presynaptic compartment (8), and disruption of these proteins affects neurotransmission (9). Moreover, a number of SV proteins have been identified as components of isolated CCVs (10, 11). Synaptic transmission involving intermittent fusion of SVs without complete collapse (12, 13) has also been demonstrated. The prevalence of such a ''kiss-and-run'' mechanism with the alternative model of full fusion is uncertain (14). Even in the membrane retrieval model via CCVs, it remains unclear whether SVs are generated directly from CCVs (15, 16) or whether they require an additional sorting step through endosomal membranes localized in the presynaptic compartment (7, 17). Here, using ...

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Sylwia Wasiak

Mitochondria: More Than Just a Powerhouse

Bax/Bak promote sumoylation of DRP1 and its stable association with mitochondria during apoptotic cell death

Endocytic protein intersectin-l regulates actin assembly via Cdc42 and N-WASP

Tandem MS analysis of brain clathrin-coated vesicles reveals their critical involvement in synaptic vesicle recycling

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