Shift of equilibrium density induced by 3,3'-diaminobenzidine cytochemistry: a new procedure for the analysis and purification of peroxidase-containing organelles.

Courtoy, Pierre J.; Quintart, J.; Baudhuin, Pierre

doi:10.1083/jcb.98.3.870

Cited by 133 publications

(89 citation statements)

References 31 publications

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“…Like the proteins that appear to have distinct degradation sequences, cross-linked proteins are degraded with half-times that are severalfold longer than the period required to transport HRP (42,51,59) or viruses (44,60) to lysosomes. The degradation rates reported for these proteins are an order of magnitude slower than their internalization rates.…”

Section: Degradation Of Internalization-competent Ha Mutants Is Not Dmentioning

confidence: 99%

“…To determine if the HAϩ8 present in less dense gradient fractions actually resided inside early endosomes, and not in membranes co-migrating with them, cells expressing HAϩ8 were allowed to internalize HRP for 5 min before they were chilled and a post-nuclear membrane preparation was prepared. One half of this preparation was reacted with diaminobenzidine and H 2 O 2 , which results in the deposition of a dense reaction product inside any vesicles containing HRP (51,52). This reaction product has two effects.…”

Section: Degradation Of Internalization-competent Ha Mutants Is Not Dmentioning

confidence: 99%

See 1 more Smart Citation

Degradation of Mutant Influenza Virus Hemagglutinins Is Influenced by Cytoplasmic Sequences Independent of Internalization Signals

Zwart

Brewer

Lazarovits

et al. 1996

Journal of Biological Chemistry

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A mutant influenza virus hemagglutinin, HA؉8, having a carboxyl-terminal extension of 8 amino acids that included 4 aromatic residues, was internalized within 2 min of arriving at the cell surface and was degraded quickly by a process that was inhibited by ammonium chloride. Through second-site mutagenesis, the internalization sequence of HA؉8 was found to closely resemble the internalization signals of the transferrin receptor or large mannose 6-phosphate receptor. Comparison of the intracellular traffic of HA؉8 and a series of other HA mutants that differed in their rates of internalization revealed a relation between the amount of the protein on the plasma membrane at steady state and the internalization rate that would be predicted if most of each protein recycled to the cell surface. However, there was no simple correlation between the internalization rate and the rate of degradation, indicating that transport to the compartment where degradation occurred was not simply a function of the concentration of the proteins in early endosomes. The internal populations of both HA؉8, which was degraded with a t 1/2 of 1.9 h, and HA-Y543, which was degraded with a t 1/2 of 2.9 h, were found by cell fractionation and density-shift experiments to reside in early endosomes with little accumulation in lysosomes. A fluid-phase marker reached lysosomes 3-4-fold faster than these proteins were degraded. Degradation of these mutant HAs involved a rate-determining step in early endosomes that was sensitive to some feature of the protein that depended upon sequence differences in the cytoplasmic domain unrelated to the internalization signal.

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Section: Degradation Of Internalization-competent Ha Mutants Is Not Dmentioning

confidence: 99%

Section: Degradation Of Internalization-competent Ha Mutants Is Not Dmentioning

confidence: 99%

Degradation of Mutant Influenza Virus Hemagglutinins Is Influenced by Cytoplasmic Sequences Independent of Internalization Signals

Zwart

Brewer

Lazarovits

et al. 1996

Journal of Biological Chemistry

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“…The cells were then washed to remove unbound HEL and incubated at 37°C for the time (in hours) indicated in the upper right corner of each panel to allow internalization of HEL-BCR complexes. The B cells were then fixed, permeabilized, and stained for Ag (using the 2D1 murine IgG1 anti-HEL mAb followed by anti-muIgG1-btn and streptavidin-Texas Red) and either DM (A, C, E, G, and I) or DO (B, D, F, H, and J) using rabbit anti-DM or HRP-labeled Ag and took advantage of the observation that delivery of HRP-labeled ligands to various endocytic compartments allows the HRP-catalyzed DAB-mediated cross-linking of the constituent proteins of those vesicles (23)(24)(25). The results presented in Fig.…”

Section: Trafficking Of Ag-bcr Complexes Through Dm-and Docontaining mentioning

confidence: 99%

Prolonged Antigen Persistence Within Nonterminal Late Endocytic Compartments of Antigen-Specific B Lymphocytes

Gondré-Lewis

Moquin

Drake

2001

The Journal of Immunology

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Although Ag-specific B lymphocytes can process Ag and express peptide-class II complexes as little as 1 h after Ag exposure, it requires 3–5 days for the immune system to develop a population of Ag-specific effector CD4 T lymphocytes to interact with these complexes. Presently, it is unclear how B cells maintain the expression of cell surface antigenic peptide-class II complexes until effector CD4 T lymphocytes become available. Therefore, we investigated B cell receptor (BCR)-mediated Ag processing and presentation by normal B lymphocytes to determine whether these cells have a mechanism to prolong the cell surface expression of peptide-class II complexes derived from the processing of cognate Ag. Interestingly, after transit of early endocytic compartments, internalized Ag-BCR complexes are delivered to nonterminal late endosomes where they persist for a prolonged period of time. In contrast, Ags internalized via fluid phase endocytosis are rapidly delivered to terminal lysosomes and degraded. Moreover, persisting Ag-BCR complexes within nonterminal late endosomes exhibit a higher degree of colocalization with the class II chaperone HLA-DM/H2-M than with the HLA-DM/H2-M regulator HLA-DO/H2-O. Finally, B cells harboring persistent Ag-BCR complexes exhibit prolonged cell surface expression of antigenic peptide-class II complexes. These results demonstrate that B lymphocytes possess a mechanism for prolonging the intracellular persistence of Ag-BCR complexes within nonterminal late endosomes and suggest that this intracellular Ag persistence allows for the prolonged cell surface expression of peptide-class II complexes derived from the processing of specific Ag.

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“…13,19 However, the similarity in the densities of endocytic vesicles, Golgi membranes, and other smooth membranes has led to the development of methods for specifically modifying the density of endocytic vesicles based on their ligand content. 21,27 One of these procedures relies on the shift density that occurs after loading the endocytic structures with lipoproteins (␤-very low density lipoprotein or LDL) in the hepatic cell. 27 Thus, the separation of endosomes from other organelles is based on the low density of the lipoprotein-filled endosomal vesicles.…”

mentioning

confidence: 99%

“…A number of methods have been developed for the isolation of hepatic endosomes. 13,[19][20][21][22][23][24][25][26][27] In general, subcellular fractionation explores the differences in the equilibrium densities between organelles or the electric charges of membrane fractions (free-flow electrophoresis). 13,19 However, the similarity in the densities of endocytic vesicles, Golgi membranes, and other smooth membranes has led to the development of methods for specifically modifying the density of endocytic vesicles based on their ligand content.…”

mentioning

confidence: 99%

Dissection of the multifunctional “receptor-recycling” endocytic compartment of hepatocytes

et al. 1999

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Shift of equilibrium density induced by 3,3'-diaminobenzidine cytochemistry: a new procedure for the analysis and purification of peroxidase-containing organelles.

Cited by 133 publications

References 31 publications

Degradation of Mutant Influenza Virus Hemagglutinins Is Influenced by Cytoplasmic Sequences Independent of Internalization Signals

Degradation of Mutant Influenza Virus Hemagglutinins Is Influenced by Cytoplasmic Sequences Independent of Internalization Signals

Prolonged Antigen Persistence Within Nonterminal Late Endocytic Compartments of Antigen-Specific B Lymphocytes

Dissection of the multifunctional “receptor-recycling” endocytic compartment of hepatocytes

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