Jason Szeto scite author profile

Misfolded proteins can be directed into cytoplasmic aggregates such as aggresomes and dendritic cell aggresome-like induced structures (DALIS). DALIS were originally identified in lipopolysaccharide-stimulated dendritic cells and act as storage compartments for polyubiquitinated Defective Ribosomal Products (DRiPs) prior to their clearance by the proteasome. Here we demonstrate that ubiquitinated protein aggregates that are similar to DALIS, and not related to aggresomes, can be observed in several cell types in response to stress, including oxidative stress, transfection, and starvation. Significantly, both immune and nonimmune cells could form these aggresome-like induced structures (ALIS). Protein synthesis was essential for ALIS formation in response to oxidative stress, indicating that DRiP formation was required. Furthermore, puromycin, which increases DRiP formation, was sufficient to induce ALIS formation. Inhibition of either proteasomes or of autophagy interfered with ALIS clearance in puromycin treated cells. Autophagy inhibition enhanced ALIS formation under a variety of stress conditions. During starvation, ALIS formation in autophagy-deficient cells was only partially inhibited by protein synthesis inhibitors, indicating that both long-lived proteins and DRiPs can be targeted to ALIS. Together, these findings demonstrate that ALIS act as generalized stress-induced protein storage compartments for substrates of the proteasome and autophagy.

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Gonococcal MinD Affects Cell Division in Neisseria gonorrhoeae and Escherichia coli and Exhibits a Novel Self-Interaction

Szeto

Ramírez‐Arcos

Raymond

et al. 2001

J Bacteriol

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The Min proteins are involved in determining cell division sites in bacteria and have been studied extensively in rod-shaped bacteria. We have recently shown that the gram-negative coccus Neisseria gonorrhoeae contains a min operon, and the present study investigates the role of minD from this operon. A gonococcal minD insertional mutant, CJSD1, was constructed and exhibited both grossly abnormal cell division and morphology as well as altered cell viability. Western blot analysis verified the absence of MinD from N. gonorrhoeae

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Cutting Edge: Microbial Products Elicit Formation of Dendritic Cell Aggresome-Like Induced Structures in Macrophages

Canadien

Tan

Zilber

et al. 2005

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In response to a maturation stimulus, dendritic cells undergo the formation of ubiquitinated protein aggregates known as dendritic cell aggresome-like induced structures (DALIS). DALIS are thought to act as Ag storage structures, allowing for the prioritized degradation of proteins during infection. In this study, we demonstrate that murine macrophages can also form ubiquitinated protein aggregates that are indistinguishable from DALIS. These were formed in a dose- and time-dependent manner, and in response to a variety of microbial products. Surprisingly, the proteasome did not accumulate on these ubiquitinated protein structures, further underlining the difference between DALIS and aggresomes. Our studies suggest that DALIS formation is important for the function of Ag-presenting immune cells during infection.

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Conservation of dynamic localization among MinD and MinE orthologues: oscillation of Neisseria gonorrhoeae proteins in Escherichia coli

Ramírez‐Arcos

Szeto

Dillon

et al. 2002

Molecular Microbiology

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SummaryMin proteins are involved in the correct placement of division septa in many bacterial species. In Escherichia coli (Ec) cells, these proteins oscillate from pole to pole, ostensibly to prevent unwanted polar septation. Here, we show that Min proteins from the coccus Neisseria gonorrhoeae (Ng) also oscillate in E. coli . Green fluorescent protein (GFP) fusions to gonococcal MinD and MinE localized dynamically in different

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Deletion of the cell-division inhibitor MinC results in lysis of Neisseria gonorrhoeae

Ramírez‐Arcos

Szeto

Beveridge

et al. 2001

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The minCDE genes involved in division site selection in Neisseria gonorrhoeae were identified using raw data from the N. gonorrhoeae genome project and are part of a cluster of 27 genes. When gonococcal min genes were heterologously expressed as a cluster in Escherichia coli, minicells and filaments were produced, indicating that gonococcal min genes disrupted cell division in other genera. The insertional inactivation of the minC gene of N. gonorrhoeae CH811 resulted in a strain (CSRC1) with decreased viability and grossly abnormal cell division as observed by phase-contrast and electron microscopy analysis. Western blot analysis of N. gonorrhoeae CSRC1 confirmed that MinC Ng was not produced. Complementation of CSRC1 by integrating a minC-6WHis tag fusion at the proAB locus by homologous recombination restored viability and 19 times wild-type levels of MinC Ng expression. This slight increase of expression caused a small percentage of the complemented cells to divide aberrantly. This suggested that the 6WHis tag has partially affected the stability of MinC, or that the chromosomal position of minC is critical to its regulation. Comparison of MinC proteins from different bacteria showed a homologous region corresponding to residues 135-230 with five conserved amino acids. Overexpression of MinC Ng in wild-type E. coli cells induced filamentation and an E. coli minC mutant was successfully complemented with minC Ng . Therefore, the evidence indicates that MinC from N. gonorrhoeae acts as a cell-division inhibitor and that its role is essential in maintaining proper division in cocci.

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Salmonella -Containing Vacuoles Display Centrifugal Movement Associated with Cell-to-Cell Transfer in Epithelial Cells

et al. 2009

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Role for Myosin II in Regulating Positioning ofSalmonella-Containing Vacuoles and Intracellular Replication

et al. 2008

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Salmonella enterica serovar Typhimurium grows within host cells in a permissive compartment termed the Salmonella-containing vacuole (SCV). These bacteria use two distinct type III secretion systems (T3SS) to deliver virulence proteins (effectors) into cells. Effectors secreted by the Salmonella pathogenicity island 1 (SPI-1)-encoded T3SS mediate invasion and early SCV maturation steps, while those secreted by the SPI-2 T3SS affect the SCV at later stages postinfection. Some SPI-2 effectors modulate microtubule motor activity on the SCV. Here, we show that the actin-based motor myosin II also affects SCV dynamics during infection. Following invasion, myosin II is required for SCV positioning near the nucleus of host cells. Later, myosin II counteracts the activities of the SPI-2 effectors PipB2 and SseJ to maintain SCV positioning and stability, respectively. Myosin II activity was required for maximal bacterial growth in macrophages. Rho kinase activity was required for SCV positioning. The effector SopB, a known activator of Rho GTPases, was found to be required for SCV positioning, and transfection of cells with SopB was sufficient to induce myosin II phosphorylation. These studies reveal a novel role for myosin II in controlling SCV dynamics during infection and suggest that SopB activates myosin II.

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A conserved polar region in the cell division site determinant MinD is required for responding to MinE-induced oscillation but not for localization within coiled arrays

Szeto

Eng

Acharya

et al. 2005

Research in Microbiology

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Jason Szeto

ALIS are Stress-Induced Protein Storage Compartments for Substrates of the Proteasome and Autophagy

Gonococcal MinD Affects Cell Division in Neisseria gonorrhoeae and Escherichia coli and Exhibits a Novel Self-Interaction

Cutting Edge: Microbial Products Elicit Formation of Dendritic Cell Aggresome-Like Induced Structures in Macrophages

Conservation of dynamic localization among MinD and MinE orthologues: oscillation of Neisseria gonorrhoeae proteins in Escherichia coli

Deletion of the cell-division inhibitor MinC results in lysis of Neisseria gonorrhoeae

Salmonella -Containing Vacuoles Display Centrifugal Movement Associated with Cell-to-Cell Transfer in Epithelial Cells

Role for Myosin II in Regulating Positioning ofSalmonella-Containing Vacuoles and Intracellular Replication

A conserved polar region in the cell division site determinant MinD is required for responding to MinE-induced oscillation but not for localization within coiled arrays

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