The Experts below are selected from a list of 300 Experts worldwide ranked by ideXlab platform
Sven R Carlsson - One of the best experts on this subject based on the ideXlab platform.
-
sorting of lysosomal membrane glycoproteins lamp 1 and lamp 2 into vesicles distinct from mannose 6 phosphate receptor gamma adaptin vesicles at the trans golgi network
Journal of Biological Chemistry, 1998Co-Authors: Katrin Karlsson, Sven R CarlssonAbstract:Newly synthesized lysosomal membrane glycoproteins lamp-1 and lamp-2 are primarily sorted at the trans-Golgi network (TGN) by recognition of a tyrosine-based signal sequence in their cytoplasmic tails. It is presently unclear how this signal is recognized and what type of vesicle transports lamp-1 and lamp-2. Here, we describe a method to generate transport vesicles containing lamp proteins from the TGN in vitro. The method is based on incorporation of radioactive sialic acid in glycoproteins at the TGN by incubation of membranes with tritiated CMP-sialic acid. The generation of vesicles from labeled membranes required ATP and cytosol, and was temperature-dependent and brefeldin A-sensitive. Analysis on Nycodenz gradients revealed that lamp-vesicles were distinct from vesicles containing gamma-adaptin and mannose 6-phosphate receptor (MPR). Moreover, both these types of vesicles migrated differently than vesicles containing proteins destined for the plasma membrane. The conclusion that lamps and MPRs are sorted into different vesicles was further strengthened by the finding that whereas wortmannin both in vitro and in vivo inhibited the production of gamma-adaptin/MPR-containing vesicles, this drug had no effect on the generation of lamp-vesicles and on the sorting of lamps. The results indicate that membrane proteins containing tyrosine-based motifs for sorting at the TGN are segregated from clathrin-coated vesicles containing MPRs.
-
Sorting of lysosomal membrane glycoproteins lamp-1 and lamp-2 into vesicles distinct from mannose 6-phosphate receptor/gamma-adaptin vesicles at the trans-Golgi network.
The Journal of biological chemistry, 1998Co-Authors: Katrin Karlsson, Sven R CarlssonAbstract:Newly synthesized lysosomal membrane glycoproteins lamp-1 and lamp-2 are primarily sorted at the trans-Golgi network (TGN) by recognition of a tyrosine-based signal sequence in their cytoplasmic tails. It is presently unclear how this signal is recognized and what type of vesicle transports lamp-1 and lamp-2. Here, we describe a method to generate transport vesicles containing lamp proteins from the TGN in vitro. The method is based on incorporation of radioactive sialic acid in glycoproteins at the TGN by incubation of membranes with tritiated CMP-sialic acid. The generation of vesicles from labeled membranes required ATP and cytosol, and was temperature-dependent and brefeldin A-sensitive. Analysis on Nycodenz gradients revealed that lamp-vesicles were distinct from vesicles containing gamma-adaptin and mannose 6-phosphate receptor (MPR). Moreover, both these types of vesicles migrated differently than vesicles containing proteins destined for the plasma membrane. The conclusion that lamps and MPRs are sorted into different vesicles was further strengthened by the finding that whereas wortmannin both in vitro and in vivo inhibited the production of gamma-adaptin/MPR-containing vesicles, this drug had no effect on the generation of lamp-vesicles and on the sorting of lamps. The results indicate that membrane proteins containing tyrosine-based motifs for sorting at the TGN are segregated from clathrin-coated vesicles containing MPRs.
-
lysosome associated membrane proteins h LAMP1 cd107a and h lamp2 cd107b are activation dependent cell surface glycoproteins in human peripheral blood mononuclear cells which mediate cell adhesion to vascular endothelium
Cellular Immunology, 1996Co-Authors: Krishnaswamy Kannan, Ruby M Stewart, Walter Bounds, Sven R Carlsson, Minoru Fukuda, Kenneth W Betzing, Randall F HolcombeAbstract:Lysosome-associated membrane proteins (LAMPs) are transmembrane lysosomal glycoproteins which are detectable at the cell surface of lymphocytes in patients with scleroderma and systemic lupus erythematosus. While these proteins have been shown to mediate adhesion of tumor cells to vascular endothelial selectins, the function of LAMPs expressed at the cell surface of peripheral blood lymphocytes has not been previously examined. In the present study, the role of lamp2 (CD107b) in lymphocyte adhesion to vascular endothelium and the factors which influencein vi- trocell surface expression of both LAMP1 (CD107a) and lamp2 (CD107b) are examined. Freshly isolated PBMCs and unstimulated PBMCs in the culture had low levels of cell surface LAMP1 and lamp2 expression which were significantly increased following PHA stimulation (P< 0.0001). A dose-dependent response to PHA and the effect of varying concentrations of serum were defined. Kinetic analysis revealed that the majority of the increase in both LAMP1 and lamp2 occurred within the first 2 hr of incubation and that a subset of PBMCs maintained expression for at least 96 hr. Incubation of cells with colchicine and cycloheximide modified the cell surface expression of these proteins. Interleukins 2, 4, 6, and 8 had only a modest effect on the degree of cell surface LAMP1 and lamp2 expression, though they did significantly affect the distribution of expression among different subtypes of lymphoid cells. Under the conditions utilized in this study, cell surface LAMP expression was confined primarily to CD56+cells and to CD3+cells. Functional analysis utilizing a fluorescence-based adhesion assay revealed that cell surface lamp2 mediates adhesion of PBMCs to vascular endothelium, possibly by interacting with endothelial selectins. LAMPs likely contribute to the migration of activated leukocytes to sites of inflammationin vivo.
-
the lysosomal membrane glycoproteins lamp 1 and lamp 2 are present in mobilizable organelles but are absent from the azurophil granules of human neutrophils
Biochemical Journal, 1995Co-Authors: Claes Dahlgren, Sven R Carlsson, Anna Karlsson, Helen Lundqvist, Carola SjolinAbstract:The subcellular localization of two members of a highly glycosylated protein group present in lysosomal membranes in most cells, the lysosome-associated membrane proteins 1 and 2 (Lamp-1 and Lamp-2), was examined in human neutrophil granulocytes. Antibodies that were raised against purified Lamp-1 adn Lamp-2 gave a distinct granular staining of the cytoplasm upon immunostaining of neutrophils. Subcellular fractionation was used to separate the azurophil and specific granules from a light-membrane fraction containing plasma membranes and secretory vesicles, and Western blotting was used to determine the presence of the Lamps in these fractions. The results show that Lamp-1 and Lamp-2 are present in the specific-granule-enriched fraction and in the light-membrane fraction, but not in the azurophil granules. Separation of secretory vesicles from plasma membranes disclosed that the light-membrane Lamps were present primarily in the secretory-vesicle-enriched fraction. During phagocytosis both Lamp-1 and Lamp-2 became markedly concentrated around the ingested particle and they both appear on the cell surface when the secretory organelles are mobilized.
Katrin Karlsson - One of the best experts on this subject based on the ideXlab platform.
-
Sorting of lysosomal membrane glycoproteins lamp-1 and lamp-2 into vesicles distinct from mannose 6-phosphate receptor/gamma-adaptin vesicles at the trans-Golgi network.
The Journal of biological chemistry, 1998Co-Authors: Katrin Karlsson, Sven R CarlssonAbstract:Newly synthesized lysosomal membrane glycoproteins lamp-1 and lamp-2 are primarily sorted at the trans-Golgi network (TGN) by recognition of a tyrosine-based signal sequence in their cytoplasmic tails. It is presently unclear how this signal is recognized and what type of vesicle transports lamp-1 and lamp-2. Here, we describe a method to generate transport vesicles containing lamp proteins from the TGN in vitro. The method is based on incorporation of radioactive sialic acid in glycoproteins at the TGN by incubation of membranes with tritiated CMP-sialic acid. The generation of vesicles from labeled membranes required ATP and cytosol, and was temperature-dependent and brefeldin A-sensitive. Analysis on Nycodenz gradients revealed that lamp-vesicles were distinct from vesicles containing gamma-adaptin and mannose 6-phosphate receptor (MPR). Moreover, both these types of vesicles migrated differently than vesicles containing proteins destined for the plasma membrane. The conclusion that lamps and MPRs are sorted into different vesicles was further strengthened by the finding that whereas wortmannin both in vitro and in vivo inhibited the production of gamma-adaptin/MPR-containing vesicles, this drug had no effect on the generation of lamp-vesicles and on the sorting of lamps. The results indicate that membrane proteins containing tyrosine-based motifs for sorting at the TGN are segregated from clathrin-coated vesicles containing MPRs.
-
sorting of lysosomal membrane glycoproteins lamp 1 and lamp 2 into vesicles distinct from mannose 6 phosphate receptor gamma adaptin vesicles at the trans golgi network
Journal of Biological Chemistry, 1998Co-Authors: Katrin Karlsson, Sven R CarlssonAbstract:Newly synthesized lysosomal membrane glycoproteins lamp-1 and lamp-2 are primarily sorted at the trans-Golgi network (TGN) by recognition of a tyrosine-based signal sequence in their cytoplasmic tails. It is presently unclear how this signal is recognized and what type of vesicle transports lamp-1 and lamp-2. Here, we describe a method to generate transport vesicles containing lamp proteins from the TGN in vitro. The method is based on incorporation of radioactive sialic acid in glycoproteins at the TGN by incubation of membranes with tritiated CMP-sialic acid. The generation of vesicles from labeled membranes required ATP and cytosol, and was temperature-dependent and brefeldin A-sensitive. Analysis on Nycodenz gradients revealed that lamp-vesicles were distinct from vesicles containing gamma-adaptin and mannose 6-phosphate receptor (MPR). Moreover, both these types of vesicles migrated differently than vesicles containing proteins destined for the plasma membrane. The conclusion that lamps and MPRs are sorted into different vesicles was further strengthened by the finding that whereas wortmannin both in vitro and in vivo inhibited the production of gamma-adaptin/MPR-containing vesicles, this drug had no effect on the generation of lamp-vesicles and on the sorting of lamps. The results indicate that membrane proteins containing tyrosine-based motifs for sorting at the TGN are segregated from clathrin-coated vesicles containing MPRs.
John E Coligan - One of the best experts on this subject based on the ideXlab platform.
-
LAMP1 cd107a is required for efficient perforin delivery to lytic granules and nk cell cytotoxicity
Blood, 2013Co-Authors: Konrad Krzewski, Aleksandra Gilkrzewska, Victoria Nguyen, Giovanna Peruzzi, John E ColiganAbstract:Secretory lysosomes of natural killer (NK) cells, containing perforin and granzymes, are indispensable for NK-cell cytotoxicity because their release results in the induction of target-cell apoptosis. Lysosome-associated membrane protein (LAMP) 1/CD107a is used as a marker for NK-cell degranulation, but its role in NK-cell biology is unknown. We show that LAMP1 silencing causes inhibition of NK-cell cytotoxicity, as LAMP1 RNA interference (RNAi) cells fail to deliver granzyme B to target cells. Reduction of LAMP1 expression affects the movement of lytic granules and results in decreased levels of perforin, but not granzyme B, in the granules. In LAMP1 RNAi cells, more perforin is retained outside of lysosomal compartments in trans-Golgi network–derived transport vesicles. Disruption of expression of LAMP1 binding partner, adaptor protein 1 (AP-1) sorting complex, also causes retention of perforin in the transport vesicles and inhibits cytotoxicity, indicating that the interaction between AP-1 sorting complex and LAMP1 on the surface of the transport vesicles is important for perforin trafficking to lytic granules. We conclude that the decreased level of perforin in lytic granules of LAMP1-deficient cells, combined with disturbed motility of the lytic granules, leads to the inability to deliver apoptosis-inducing granzyme B to target cells and to inhibition of NK-cell cytotoxicity.
-
LAMP1/CD107a is required for efficient perforin delivery to lytic granules and NK-cell cytotoxicity.
Blood, 2013Co-Authors: Konrad Krzewski, Victoria Nguyen, Giovanna Peruzzi, Aleksandra Gil-krzewska, John E ColiganAbstract:Secretory lysosomes of natural killer (NK) cells, containing perforin and granzymes, are indispensable for NK-cell cytotoxicity because their release results in the induction of target-cell apoptosis. Lysosome-associated membrane protein (LAMP) 1/CD107a is used as a marker for NK-cell degranulation, but its role in NK-cell biology is unknown. We show that LAMP1 silencing causes inhibition of NK-cell cytotoxicity, as LAMP1 RNA interference (RNAi) cells fail to deliver granzyme B to target cells. Reduction of LAMP1 expression affects the movement of lytic granules and results in decreased levels of perforin, but not granzyme B, in the granules. In LAMP1 RNAi cells, more perforin is retained outside of lysosomal compartments in trans-Golgi network–derived transport vesicles. Disruption of expression of LAMP1 binding partner, adaptor protein 1 (AP-1) sorting complex, also causes retention of perforin in the transport vesicles and inhibits cytotoxicity, indicating that the interaction between AP-1 sorting complex and LAMP1 on the surface of the transport vesicles is important for perforin trafficking to lytic granules. We conclude that the decreased level of perforin in lytic granules of LAMP1-deficient cells, combined with disturbed motility of the lytic granules, leads to the inability to deliver apoptosis-inducing granzyme B to target cells and to inhibition of NK-cell cytotoxicity.
Randall F Holcombe - One of the best experts on this subject based on the ideXlab platform.
-
lysosome associated membrane proteins h LAMP1 cd107a and h lamp2 cd107b are activation dependent cell surface glycoproteins in human peripheral blood mononuclear cells which mediate cell adhesion to vascular endothelium
Cellular Immunology, 1996Co-Authors: Krishnaswamy Kannan, Ruby M Stewart, Walter Bounds, Sven R Carlsson, Minoru Fukuda, Kenneth W Betzing, Randall F HolcombeAbstract:Lysosome-associated membrane proteins (LAMPs) are transmembrane lysosomal glycoproteins which are detectable at the cell surface of lymphocytes in patients with scleroderma and systemic lupus erythematosus. While these proteins have been shown to mediate adhesion of tumor cells to vascular endothelial selectins, the function of LAMPs expressed at the cell surface of peripheral blood lymphocytes has not been previously examined. In the present study, the role of lamp2 (CD107b) in lymphocyte adhesion to vascular endothelium and the factors which influencein vi- trocell surface expression of both LAMP1 (CD107a) and lamp2 (CD107b) are examined. Freshly isolated PBMCs and unstimulated PBMCs in the culture had low levels of cell surface LAMP1 and lamp2 expression which were significantly increased following PHA stimulation (P< 0.0001). A dose-dependent response to PHA and the effect of varying concentrations of serum were defined. Kinetic analysis revealed that the majority of the increase in both LAMP1 and lamp2 occurred within the first 2 hr of incubation and that a subset of PBMCs maintained expression for at least 96 hr. Incubation of cells with colchicine and cycloheximide modified the cell surface expression of these proteins. Interleukins 2, 4, 6, and 8 had only a modest effect on the degree of cell surface LAMP1 and lamp2 expression, though they did significantly affect the distribution of expression among different subtypes of lymphoid cells. Under the conditions utilized in this study, cell surface LAMP expression was confined primarily to CD56+cells and to CD3+cells. Functional analysis utilizing a fluorescence-based adhesion assay revealed that cell surface lamp2 mediates adhesion of PBMCs to vascular endothelium, possibly by interacting with endothelial selectins. LAMPs likely contribute to the migration of activated leukocytes to sites of inflammationin vivo.
Carola Sjolin - One of the best experts on this subject based on the ideXlab platform.
-
the lysosomal membrane glycoproteins lamp 1 and lamp 2 are present in mobilizable organelles but are absent from the azurophil granules of human neutrophils
Biochemical Journal, 1995Co-Authors: Claes Dahlgren, Sven R Carlsson, Anna Karlsson, Helen Lundqvist, Carola SjolinAbstract:The subcellular localization of two members of a highly glycosylated protein group present in lysosomal membranes in most cells, the lysosome-associated membrane proteins 1 and 2 (Lamp-1 and Lamp-2), was examined in human neutrophil granulocytes. Antibodies that were raised against purified Lamp-1 adn Lamp-2 gave a distinct granular staining of the cytoplasm upon immunostaining of neutrophils. Subcellular fractionation was used to separate the azurophil and specific granules from a light-membrane fraction containing plasma membranes and secretory vesicles, and Western blotting was used to determine the presence of the Lamps in these fractions. The results show that Lamp-1 and Lamp-2 are present in the specific-granule-enriched fraction and in the light-membrane fraction, but not in the azurophil granules. Separation of secretory vesicles from plasma membranes disclosed that the light-membrane Lamps were present primarily in the secretory-vesicle-enriched fraction. During phagocytosis both Lamp-1 and Lamp-2 became markedly concentrated around the ingested particle and they both appear on the cell surface when the secretory organelles are mobilized.
