Minggeng Gao scite author profile

In comparison to the internalization pathways of endocytosis, the recycling pathways are less understood. Even less defined is the process of regulated recycling, as few examples exist and their underlying mechanisms remain to be clarified. In this study, we examine the endocytic recycling of integrin b1, a process that has been suggested to play an important role during cell motility by mediating the redistribution of integrins to the migrating front. External stimulation regulates the endocytic itinerary of b1, mainly at an internal compartment that is likely to be a subset of the recycling endosomes. This stimulationdependent recycling is regulated by ARF6 and Rab11, and also requires the actin cytoskeleton in an ARF6-dependent manner. Consistent with these observations being relevant for cell motility, mutant forms of ARF6 that affect either actin rearrangement or recycling inhibit the motility of a breast cancer cell line.

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ARFGAP1 promotes the formation of COPI vesicles, suggesting function as a component of the coat

Yang

et al. 2002

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The role of GTPase-activating protein (GAP) that deactivates ADP-ribosylation factor 1 (ARF1) during the formation of coat protein I (COPI) vesicles has been unclear. GAP is originally thought to antagonize vesicle formation by triggering uncoating, but later studies suggest that GAP promotes cargo sorting, a process that occurs during vesicle formation. Recent models have attempted to reconcile these seemingly contradictory roles by suggesting that cargo proteins suppress GAP activity during vesicle formation, but whether GAP truly antagonizes coat recruitment in this process has not been assessed directly. We have reconstituted the formation of COPI vesicles by incubating Golgi membrane with purified soluble components, and find that ARFGAP1 in the presence of GTP promotes vesicle formation and cargo sorting. Moreover, the presence of GTPγS not only blocks vesicle uncoating but also vesicle formation by preventing the proper recruitment of GAP to nascent vesicles. Elucidating how GAP functions in vesicle formation, we find that the level of GAP on the reconstituted vesicles is at least as abundant as COPI and that GAP binds directly to the dilysine motif of cargo proteins. Collectively, these findings suggest that ARFGAP1 promotes vesicle formation by functioning as a component of the COPI coat.

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Impact of enhanced metabolic stability on pharmacokinetics and pharmacodynamics of GalNAc–siRNA conjugates

et al. 2017

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Covalent attachment of a synthetic triantennary N-acetylagalactosamine (GalNAc) ligand to chemically modified siRNA has enabled asialoglycoprotein (ASGPR)-mediated targeted delivery of therapeutically active siRNAs to hepatocytes in vivo. This approach has become transformative for the delivery of RNAi therapeutics as well as other classes of investigational oligonucleotide therapeutics to the liver. For efficient functional delivery of intact drug into the desired subcellular compartment, however, it is critical that the nucleic acids are stabilized against nucleolytic degradation. Here, we compared two siRNAs of the same sequence but with different modification pattern resulting in different degrees of protection against nuclease activity. In vitro stability studies in different biological matrices show that 5′-exonuclease is the most prevalent nuclease activity in endo-lysosomal compartments and that additional stabilization in the 5′-regions of both siRNA strands significantly enhances the overall metabolic stability of GalNAc–siRNA conjugates. In good agreement with in vitro findings, the enhanced stability translated into substantially improved liver exposure, gene silencing efficacy and duration of effect in mice. Follow-up studies with a second set of conjugates targeting a different transcript confirmed the previous results, provided additional insights into kinetics of RISC loading and demonstrated excellent translation to non-human primates.

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A conserved GTPase-containing complex is required for intracellular sorting of the general amino-acid permease in yeast

2006

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The Saccharomyces cerevisiae general amino-acid permease, Gap1p, is a model for membrane proteins that are regulated by intracellular sorting according to physiological cues set by the availability of amino acids. Here, we report the identification of a conserved sorting complex for Gap1p, named the GTPase-containing complex for Gap1p sorting in the endosomes (GSE complex), which is required for proper sorting of Gap1p from the late endosome for eventual delivery to the plasma membrane. The complex contains two small GTPases (Gtr1p and Gtr2p) and three other proteins (Ybr077c, Ykr007w and Ltv1p) that are located in the late endosomal membrane. Importantly, Gtr2p interacts with the carboxy (C)-terminal cytosolic domain of Gap1p and a tyrosine-containing motif in this domain is necessary both to bind Gtr2p and to direct sorting of Gap1p to the plasma membrane. Together, these studies provide evidence that the GSE complex has a key role in trafficking Gap1p out of the endosome and may serve as coat proteins in this process.

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Yariv reagent treatment induces programmed cell death in Arabidopsis cell cultures and implicates arabinogalactan protein involvement

Gao

Showalter²

1999

The Plant Journal

176

131

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SummaryArabinogalactan proteins (AGPs) are a family of highly glycosylated, hydroxyproline-rich glycoproteins implicated in various aspects of plant growth and development. (b-D-glucosyl) 3 and (b-D-galactosyl) 3 Yariv phenylglycosides, commonly known as Yariv reagents, speci®cally bind AGPs in a non-covalent manner. Here (b-D-galactosyl) 3 Yariv reagent was added to Arabidopsis thaliana cell suspension cultures and determined to induce programmed cell death (PCD) by three criteria: (i) DNA fragmentation as detected by terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) of DNA 3¢-OH groups; (ii) internucleosomal DNA fragmentation as visualized by genomic Southern blotting; and (iii) structural changes characteristic of PCD including cytoplasmic shrinkage and condensation, chromatin condensation and nuclear membrane blebbing. These ®ndings implicate AGP involvement in PCD in plants, presumably by perturbation of AGPs located at the plasma membrane± cell wall interface.

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Isolation, characterization and immunolocalization of a novel, modular tomato arabinogalactan‐protein corresponding to the LeAGP‐1 gene

et al. 1999

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SummaryArabinogalactan-proteins (AGPs) are a family of hydroxyproline-rich glycoproteins implicated to function in plant growth and development. This report focuses on a novel, modular AGP found in tomato, LeAGP-1, which was predicted by DNA cloning and herein verified at the protein level as a major AGP component. LeAGP-1 was isolated from tomato suspension-cultured cells and verified to be an AGP by precipitation with (β-D-galactosyl) 3 Yariv phenylglycoside and by amino acid composition analysis. Furthermore, LeAGP-1 was determined to correspond to LeAGP-1 clones based on three criteria: (1) amino acid composition identity, (2) amino acid sequence identity, and (3) specific immunoreactivity of glycosylated and deglycosylated LeAGP-1 with an antibody developed against the highly basic subdomain predicted from LeAGP-1 clones. The antibody was also used to immunolocalize LeAGP-1 in tomato to the cell surface of suspension-cultured cells, maturing metaxylem elements in young internodes and petioles, and stylar transmitting tissue cells. At the subcellular level, LeAGP-1 immunolocalized to the cell walls of these particular cells as well as to intercellular spaces between stylar transmitting tissue cells. LeAGP-1 now emerges as one of the most comprehensively studied AGPs in terms of (1) characterization at the genomic DNA, cDNA and protein levels, (2) known organ-specific and developmentally regulated mRNA expression patterns, (3) development of an antibody against a unique, peptide subdomain which specifically recognizes LeAGP-1 in its glycosylated and deglycosylated states, and (4) immunolocalization of a

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Immunolocalization of LeAGP-1, a modular arabinogalactan-protein, reveals its developmentally regulated expression in tomato

Gao

Showalter

2000

Planta

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Arabinogalactan-proteins (AGPs) are highly glycosylated cell surface proteins that are thought to function in plant growth and development. The developmentally regulated expression of LeAGP-1, a novel and major AGP in tomato, was examined in different organs and tissues of tomato (Lycopersicon esculentum Mill. cv. UC82B) plants with an anti-peptide antibody (i.e. the PAP antibody) directed specifically against the lysine-rich subdomain of the LeAGP-1 core protein. During cell differentiation in tomato plants, LeAGP-1 was associated with cell wall thickening and lignification of particular cell types. Specifically, LeAGP-1 was detected in secondary wall thickenings of maturing metaxylem and secondary xylem tracheary elements in roots and stems, and in thickened cell walls of phloem sieve elements. However, LeAGP-1 was also present in thin-walled, cortical parenchyma cells of seedling roots as well as thick-walled collenchyma cells in young stems, both of which are not lignified. Based on these observed patterns, possible roles for LeAGP-1 in plant growth and development are discussed.

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Characterization of Coated Vesicles that Participate in Endocytic Recycling

Peters

Gao

Gaschet

et al. 2001

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While the recycling pathway of endocytosis has been shown to participate in many cellular functions, little is known regarding the transport carriers that mediate this pathway. In this study, we overexpressed a point mutant of ADP-ribosylation factor 6 (ARF6), that perturbs its GTPase cycle, to accumulate endosome-derived coated vesicles. Characterization by their purification revealed that, upon cell homogenization, these vesicles were mostly aggregated with larger noncoated membranes, and could be released with highsalt treatment. Equilibrium centrifugation revealed that these vesicles had buoyant density similar to the COP-coated vesicles. To purify the ARF6-regulated vesicles to homogeneity, enriched fractions from equilibrium centrifugation were subjected to immunoisolation through the hemagglutinin (HA) epitope of the mutant ARF6, by using a newly developed, high-affinity, anti-HA monoclonal antibody. Surface iodination of the purified vesicles revealed multiple prominent proteins. Immunoblotting with antibodies against subunits of the currently known coat proteins suggested that these vesicles have a novel coat complex. These vesicles are carriers for endocytic recycling, because they are enriched for transferrin receptor and also the v-SNARE cellubrevin that functions in transport from the recycling endosome to the plasma membrane. Thus, we have characterized transport vesicles that participate in endocytic recycling.

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Minggeng Gao

Stimulation‐Dependent Recycling of Integrin β1 Regulated by ARF6 and Rab11

ARFGAP1 promotes the formation of COPI vesicles, suggesting function as a component of the coat

Impact of enhanced metabolic stability on pharmacokinetics and pharmacodynamics of GalNAc–siRNA conjugates

A conserved GTPase-containing complex is required for intracellular sorting of the general amino-acid permease in yeast

Yariv reagent treatment induces programmed cell death in Arabidopsis cell cultures and implicates arabinogalactan protein involvement

Isolation, characterization and immunolocalization of a novel, modular tomato arabinogalactan‐protein corresponding to the LeAGP‐1 gene

Immunolocalization of LeAGP-1, a modular arabinogalactan-protein, reveals its developmentally regulated expression in tomato

Characterization of Coated Vesicles that Participate in Endocytic Recycling

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