Interleukin-2 (IL-2) regulates lymphocyte function by signaling through heterodimerization of the... more Interleukin-2 (IL-2) regulates lymphocyte function by signaling through heterodimerization of the IL-2Rβ and γc receptor subunits. IL-2 is of considerable therapeutic interest, but harnessing its actions in a controllable manner remains a challenge. Previously, we have engineered an IL-2 "superkine" with enhanced affinity for IL-2Rβ. Here, we describe next-generation IL-2 variants that function as "receptor signaling…
Hibernating myocardium is characterized by viable yet dysfunctional myocardium secondary to chron... more Hibernating myocardium is characterized by viable yet dysfunctional myocardium secondary to chronic ischemia, with studies demonstrating incomplete early recovery after coronary artery bypass graft (CABG). We tested whether mitochondrial fusion proteins, an indicator of mitochondrial biogenesis, are increased in hibernating myocardium post-CABG. A constrictor was placed on the left anterior descending (LAD) artery of nine pigs. Four of these pigs additionally underwent CABG 12 wk later with a left internal mammary artery graft to the LAD distal to the constrictor. Five pigs had a constrictor placed but did not undergo CABG (Hib). Five pigs did not have a constrictor placed (control). Computerized tomography angiography was used to confirm stenosis at the site of constrictor placement and patency of left internal mammary artery grafts. Regional blood flows were determined at baseline and during 40 μg/kg/min dobutamine infusion. Mitochondrial proteins were quantified by Western blot. Blood flow in the LAD region after CABG was lower than remote regions during dobutamine infusion (2.54 ± 0.24 versus 3.46 ± 0.33 mL/min/g; P < 0.05). Electron transport chain proteins were ∼70% lower in Hib compared with those in control and failed to normalize after CABG. Post-CABG, PGC1α nuclear-bound content was increased compared with Hib (9.02 ± 0.48 versus 5.54 ± 0.98 arbitrary units, respectively; P < 0.05), and expression of mitofusins-1 and 2 and optic atrophy-1 more than doubled. PGC1α and mitochondrial fusion proteins are increased 4 wk post-CABG in hibernating hearts, indicating mitochondrial fusion has begun to occur and signaling early mitochondrial recovery. Future studies should address changes in maximal myocardial oxygen consumption relative to mitochondrial protein expression.
Here, we present data suggesting a novel mechanism for regulation of natural killer (NK) cell cyt... more Here, we present data suggesting a novel mechanism for regulation of natural killer (NK) cell cytotoxicity through inhibitory receptors. Interaction of activation receptors with their ligands on target cells induces cytotoxicity by NK cells. This activation is under negative control by inhibitory receptors that recruit tyrosine phosphatase SHP-1 upon binding major histocompatibility class I on target cells. How SHP-1 blocks
CLASS II histocompatibility molecules associate with peptides derived from antigens that are proc... more CLASS II histocompatibility molecules associate with peptides derived from antigens that are processed in endocytic compartments. Antigen presentation to class II-restricted T cells generally requires newly synthesized class II molecules1, associated invariant chain2,3, and HLA-DM4,5. Exceptions to these rules have been reported6-10, but without description of an underlying mechanism. Here we show that presentation of immunodominant epitopes in the haemagglutinin
Summary Inhibition of natural killer (NK) cells by the killer cell inhibitory receptor (KIR) invo... more Summary Inhibition of natural killer (NK) cells by the killer cell inhibitory receptor (KIR) involves re- cruitment of the tyrosine phosphatase SHP-1 by KIR and is prevented by expression of a dom- inant negative SHP-1 mutant. Another inhibitory receptor, the low affinity Fc receptor for im- munoglobulin G (IgG) (Fc',/Rllbl), has been shown to bind SHP-1 when cocross-hnked with the
Newly synthesized class II molecules of the major histocompatibility complex must be transported ... more Newly synthesized class II molecules of the major histocompatibility complex must be transported to endosomal compartments where antigens are processed for presentation to class II-restricted T cells. The invariant chain (Ii), which assembles with newly synthesized class II alpha- and beta-chains in the endoplasmic reticulum, carries one or more targeting signals for transport to endosomal compartments where Ii dissociates from alpha beta Ii complexes. Here we show that the transport route of alpha beta Ii complexes is regulated selectively by two forms of Ii (p33 and p35) that are generated by the use of alternative translation initiation sites. Using a novel quantitative surface arrival assay based on labeling with [6-3H]-D-galactose combined with biochemical modification at the cell surface with neuraminidase, we demonstrate that newly synthesized alpha beta Ii molecules containing the Ii-p33 isoform can be detected on the cell surface shortly after passage through the Golgi appa...
Class II histocompatibility molecules associate with peptides derived from antigens that are proc... more Class II histocompatibility molecules associate with peptides derived from antigens that are processed in endocytic compartments. Antigen presentation to class II-restricted T cells generally requires newly synthesized class II molecules, associated invariant chain, and HLA-DM. Exceptions to these rules have been reported, but without description of an underlying mechanism. Here we show that presentation of immunodominant epitopes in the haemagglutinin protein of influenza virus and in myelin basic protein correlates with recycling of surface HLA-DR molecules. Truncation of either one of the alpha or beta cytoplasmic tails virtually eliminated internalization of HLA-DR molecules and presentation of haemagglutinin from inactive virus particles. In contrast, the invariant chain-dependent presentation of matrix antigen from the same virus particles was unaffected by these truncations. Thus HLA-DR cytoplasmic tails are not required for the conventional presentation pathway, but jointly contribute a signal for an alternative pathway involving internalization of HLA-DR molecules.
Antigens presented to CD4+ T cells derive primarily from exogenous proteins that are processed in... more Antigens presented to CD4+ T cells derive primarily from exogenous proteins that are processed into peptides capable of binding to class II major histocompatibility complex (MHC) molecules in an endocytic compartment. In contrast, antigens presented to CD8+ T cells derive mostly from proteins processed in the cytosol, and peptide loading onto class I MHC molecules in an early exocytic compartment is dependent on a transporter for antigen presentation encoded in the class II MHC region. Endogenous cytosolic antigen can also be presented by class II molecules. Here we show that, unlike class I-restricted recognition of antigen, HLA-DR1-restricted recognition of cytosolic antigen occurs in mutant cells without a transporter for antigen presentation. In contrast, DR1-restricted recognition of a short cytosolic peptide is dependent on such a transporter. Thus helper T-cell epitopes can be generated from cytosolic antigens by several mechanisms, one of which is distinct from the classical class I pathway.
Here, we present data suggesting a novel mechanism for regulation of natural killer (NK) cell cyt... more Here, we present data suggesting a novel mechanism for regulation of natural killer (NK) cell cytotoxicity through inhibitory receptors. Interaction of activation receptors with their ligands on target cells induces cytotoxicity by NK cells. This activation is under negative control by inhibitory receptors that recruit tyrosine phosphatase SHP-1 upon binding major histocompatibility class I on target cells. How SHP-1 blocks the activation pathway is not known. To identify SHP-1 substrates, an HLA-C-specific inhibitory receptor fused to a substrate-trapping mutant of SHP-1 was expressed in NK cells. Phosphorylated Vav1, a regulator of actin cytoskeleton, was the only protein detectably associated with the catalytic site of SHP-1 during NK cell contact with target cells expressing HLA-C. Vav1 trapping was independent of actin polymerization, suggesting that inhibition of cellular cytotoxicity occurs through an early dephosphorylation of Vav1 by SHP-1, which blocks actin-dependent acti...
Natural killer (NK) cells express a repertoire of killer cell inhibitory receptors (KIR) for majo... more Natural killer (NK) cells express a repertoire of killer cell inhibitory receptors (KIR) for major histocompatibility complex (MHC) class I molecules. KIR specificity for MHC class I can be broad, as in the case of a single p70 KIR that can recognize several HLA-B allotypes, including HLA-B*2705. On the other hand, recognition of MHC class I can also be highly specific, as in the case of NK clones that recognize HLA-B*2705 in a peptide-specific manner. Most NK cells express multiple KIR sequences. To determine whether the broad and specific types of HLA-B recognition by NK cells reflect the use of different receptors or a property of a single KIR we analyzed the recognition of HLA-B*2705 by the p70 KIR-11, known to recognize several HLA-B allotypes. Vaccinia virus-mediated expression of KIR-11 in NK clones resulted in inhibition by HLA-B*2705 molecules on wild type but not on target cells deficient in the transporter for antigen presentation (TAP). Two peptides (FRYNGLIHR and RRSKEI...
Natural killer (NK) cells in mice and humans express a number of structurally diverse receptors t... more Natural killer (NK) cells in mice and humans express a number of structurally diverse receptors that inhibit target cell lysis upon recognition of major histocompatibility complex (MHC) class I molecules expressed on targets. The contribution of peptide to the structural features of class I required for NK cell inhibition appears to vary depending on the type of receptor engaged. Thus, while there is no peptide specificity in NK inhibition mediated by Ly-49A in the mouse, human histocompatibility antigen (HLA)-B*2705–specific NK clones displayed selectivity for peptides. In this report, we examine the role of peptide in the recognition of HLA-C by the defined killer cell inhibitory receptor (KIR) cl42 with established specificity for HLA-Cw4. Binding of soluble KIR cl42 molecules to HLA-Cw4 expressed on transporter associated with antigen presentation (TAP)-deficient RMA-S cells occurred only upon exogenous peptide loading. Moreover, there was peptide selectivity in that certain sub...
NK cells selectively kill target cells that fail to express self-MHC class I molecules. This sele... more NK cells selectively kill target cells that fail to express self-MHC class I molecules. This selective killing results from a balance between inhibitory NK receptors specific for MHC class I molecules and activating receptors that are still largely unknown. Isolation of molecular clones for the human killer cell inhibitory receptors (KIR) revealed that KIR consist of a family of molecules with Ig ectodomains and cytoplasmic tails of varying length. Soluble complexes of KIR and HLA-C molecules established that KIR recognizes and binds to its ligand as an autonomous receptor. A functional expression system in human NK clones demonstrated that a single KIR can provide both recognition of MHC class I and delivery of a dominant negative signal to the NK cell. Functional evidence has been obtained for a role of the tyrosine phosphatase SHP-1 in KIR-mediated inhibition. The presence of a conserved motif used to recruit and activate SHP-1 in the cytoplasmic tail of KIR and of the mouse Ly-49 inhibitory receptor (otherwise structurally unrelated to KIR) represents an interesting case of evolutionary convergence. Furthermore, the motif led to the identification of other receptors with inhibitory potential, including a type I Ig-like receptor shared by mouse mast cells and NK cells.
Interleukin-2 (IL-2) regulates lymphocyte function by signaling through heterodimerization of the... more Interleukin-2 (IL-2) regulates lymphocyte function by signaling through heterodimerization of the IL-2Rβ and γc receptor subunits. IL-2 is of considerable therapeutic interest, but harnessing its actions in a controllable manner remains a challenge. Previously, we have engineered an IL-2 "superkine" with enhanced affinity for IL-2Rβ. Here, we describe next-generation IL-2 variants that function as "receptor signaling…
Hibernating myocardium is characterized by viable yet dysfunctional myocardium secondary to chron... more Hibernating myocardium is characterized by viable yet dysfunctional myocardium secondary to chronic ischemia, with studies demonstrating incomplete early recovery after coronary artery bypass graft (CABG). We tested whether mitochondrial fusion proteins, an indicator of mitochondrial biogenesis, are increased in hibernating myocardium post-CABG. A constrictor was placed on the left anterior descending (LAD) artery of nine pigs. Four of these pigs additionally underwent CABG 12 wk later with a left internal mammary artery graft to the LAD distal to the constrictor. Five pigs had a constrictor placed but did not undergo CABG (Hib). Five pigs did not have a constrictor placed (control). Computerized tomography angiography was used to confirm stenosis at the site of constrictor placement and patency of left internal mammary artery grafts. Regional blood flows were determined at baseline and during 40 μg/kg/min dobutamine infusion. Mitochondrial proteins were quantified by Western blot. Blood flow in the LAD region after CABG was lower than remote regions during dobutamine infusion (2.54 ± 0.24 versus 3.46 ± 0.33 mL/min/g; P < 0.05). Electron transport chain proteins were ∼70% lower in Hib compared with those in control and failed to normalize after CABG. Post-CABG, PGC1α nuclear-bound content was increased compared with Hib (9.02 ± 0.48 versus 5.54 ± 0.98 arbitrary units, respectively; P < 0.05), and expression of mitofusins-1 and 2 and optic atrophy-1 more than doubled. PGC1α and mitochondrial fusion proteins are increased 4 wk post-CABG in hibernating hearts, indicating mitochondrial fusion has begun to occur and signaling early mitochondrial recovery. Future studies should address changes in maximal myocardial oxygen consumption relative to mitochondrial protein expression.
Here, we present data suggesting a novel mechanism for regulation of natural killer (NK) cell cyt... more Here, we present data suggesting a novel mechanism for regulation of natural killer (NK) cell cytotoxicity through inhibitory receptors. Interaction of activation receptors with their ligands on target cells induces cytotoxicity by NK cells. This activation is under negative control by inhibitory receptors that recruit tyrosine phosphatase SHP-1 upon binding major histocompatibility class I on target cells. How SHP-1 blocks
CLASS II histocompatibility molecules associate with peptides derived from antigens that are proc... more CLASS II histocompatibility molecules associate with peptides derived from antigens that are processed in endocytic compartments. Antigen presentation to class II-restricted T cells generally requires newly synthesized class II molecules1, associated invariant chain2,3, and HLA-DM4,5. Exceptions to these rules have been reported6-10, but without description of an underlying mechanism. Here we show that presentation of immunodominant epitopes in the haemagglutinin
Summary Inhibition of natural killer (NK) cells by the killer cell inhibitory receptor (KIR) invo... more Summary Inhibition of natural killer (NK) cells by the killer cell inhibitory receptor (KIR) involves re- cruitment of the tyrosine phosphatase SHP-1 by KIR and is prevented by expression of a dom- inant negative SHP-1 mutant. Another inhibitory receptor, the low affinity Fc receptor for im- munoglobulin G (IgG) (Fc',/Rllbl), has been shown to bind SHP-1 when cocross-hnked with the
Newly synthesized class II molecules of the major histocompatibility complex must be transported ... more Newly synthesized class II molecules of the major histocompatibility complex must be transported to endosomal compartments where antigens are processed for presentation to class II-restricted T cells. The invariant chain (Ii), which assembles with newly synthesized class II alpha- and beta-chains in the endoplasmic reticulum, carries one or more targeting signals for transport to endosomal compartments where Ii dissociates from alpha beta Ii complexes. Here we show that the transport route of alpha beta Ii complexes is regulated selectively by two forms of Ii (p33 and p35) that are generated by the use of alternative translation initiation sites. Using a novel quantitative surface arrival assay based on labeling with [6-3H]-D-galactose combined with biochemical modification at the cell surface with neuraminidase, we demonstrate that newly synthesized alpha beta Ii molecules containing the Ii-p33 isoform can be detected on the cell surface shortly after passage through the Golgi appa...
Class II histocompatibility molecules associate with peptides derived from antigens that are proc... more Class II histocompatibility molecules associate with peptides derived from antigens that are processed in endocytic compartments. Antigen presentation to class II-restricted T cells generally requires newly synthesized class II molecules, associated invariant chain, and HLA-DM. Exceptions to these rules have been reported, but without description of an underlying mechanism. Here we show that presentation of immunodominant epitopes in the haemagglutinin protein of influenza virus and in myelin basic protein correlates with recycling of surface HLA-DR molecules. Truncation of either one of the alpha or beta cytoplasmic tails virtually eliminated internalization of HLA-DR molecules and presentation of haemagglutinin from inactive virus particles. In contrast, the invariant chain-dependent presentation of matrix antigen from the same virus particles was unaffected by these truncations. Thus HLA-DR cytoplasmic tails are not required for the conventional presentation pathway, but jointly contribute a signal for an alternative pathway involving internalization of HLA-DR molecules.
Antigens presented to CD4+ T cells derive primarily from exogenous proteins that are processed in... more Antigens presented to CD4+ T cells derive primarily from exogenous proteins that are processed into peptides capable of binding to class II major histocompatibility complex (MHC) molecules in an endocytic compartment. In contrast, antigens presented to CD8+ T cells derive mostly from proteins processed in the cytosol, and peptide loading onto class I MHC molecules in an early exocytic compartment is dependent on a transporter for antigen presentation encoded in the class II MHC region. Endogenous cytosolic antigen can also be presented by class II molecules. Here we show that, unlike class I-restricted recognition of antigen, HLA-DR1-restricted recognition of cytosolic antigen occurs in mutant cells without a transporter for antigen presentation. In contrast, DR1-restricted recognition of a short cytosolic peptide is dependent on such a transporter. Thus helper T-cell epitopes can be generated from cytosolic antigens by several mechanisms, one of which is distinct from the classical class I pathway.
Here, we present data suggesting a novel mechanism for regulation of natural killer (NK) cell cyt... more Here, we present data suggesting a novel mechanism for regulation of natural killer (NK) cell cytotoxicity through inhibitory receptors. Interaction of activation receptors with their ligands on target cells induces cytotoxicity by NK cells. This activation is under negative control by inhibitory receptors that recruit tyrosine phosphatase SHP-1 upon binding major histocompatibility class I on target cells. How SHP-1 blocks the activation pathway is not known. To identify SHP-1 substrates, an HLA-C-specific inhibitory receptor fused to a substrate-trapping mutant of SHP-1 was expressed in NK cells. Phosphorylated Vav1, a regulator of actin cytoskeleton, was the only protein detectably associated with the catalytic site of SHP-1 during NK cell contact with target cells expressing HLA-C. Vav1 trapping was independent of actin polymerization, suggesting that inhibition of cellular cytotoxicity occurs through an early dephosphorylation of Vav1 by SHP-1, which blocks actin-dependent acti...
Natural killer (NK) cells express a repertoire of killer cell inhibitory receptors (KIR) for majo... more Natural killer (NK) cells express a repertoire of killer cell inhibitory receptors (KIR) for major histocompatibility complex (MHC) class I molecules. KIR specificity for MHC class I can be broad, as in the case of a single p70 KIR that can recognize several HLA-B allotypes, including HLA-B*2705. On the other hand, recognition of MHC class I can also be highly specific, as in the case of NK clones that recognize HLA-B*2705 in a peptide-specific manner. Most NK cells express multiple KIR sequences. To determine whether the broad and specific types of HLA-B recognition by NK cells reflect the use of different receptors or a property of a single KIR we analyzed the recognition of HLA-B*2705 by the p70 KIR-11, known to recognize several HLA-B allotypes. Vaccinia virus-mediated expression of KIR-11 in NK clones resulted in inhibition by HLA-B*2705 molecules on wild type but not on target cells deficient in the transporter for antigen presentation (TAP). Two peptides (FRYNGLIHR and RRSKEI...
Natural killer (NK) cells in mice and humans express a number of structurally diverse receptors t... more Natural killer (NK) cells in mice and humans express a number of structurally diverse receptors that inhibit target cell lysis upon recognition of major histocompatibility complex (MHC) class I molecules expressed on targets. The contribution of peptide to the structural features of class I required for NK cell inhibition appears to vary depending on the type of receptor engaged. Thus, while there is no peptide specificity in NK inhibition mediated by Ly-49A in the mouse, human histocompatibility antigen (HLA)-B*2705–specific NK clones displayed selectivity for peptides. In this report, we examine the role of peptide in the recognition of HLA-C by the defined killer cell inhibitory receptor (KIR) cl42 with established specificity for HLA-Cw4. Binding of soluble KIR cl42 molecules to HLA-Cw4 expressed on transporter associated with antigen presentation (TAP)-deficient RMA-S cells occurred only upon exogenous peptide loading. Moreover, there was peptide selectivity in that certain sub...
NK cells selectively kill target cells that fail to express self-MHC class I molecules. This sele... more NK cells selectively kill target cells that fail to express self-MHC class I molecules. This selective killing results from a balance between inhibitory NK receptors specific for MHC class I molecules and activating receptors that are still largely unknown. Isolation of molecular clones for the human killer cell inhibitory receptors (KIR) revealed that KIR consist of a family of molecules with Ig ectodomains and cytoplasmic tails of varying length. Soluble complexes of KIR and HLA-C molecules established that KIR recognizes and binds to its ligand as an autonomous receptor. A functional expression system in human NK clones demonstrated that a single KIR can provide both recognition of MHC class I and delivery of a dominant negative signal to the NK cell. Functional evidence has been obtained for a role of the tyrosine phosphatase SHP-1 in KIR-mediated inhibition. The presence of a conserved motif used to recruit and activate SHP-1 in the cytoplasmic tail of KIR and of the mouse Ly-49 inhibitory receptor (otherwise structurally unrelated to KIR) represents an interesting case of evolutionary convergence. Furthermore, the motif led to the identification of other receptors with inhibitory potential, including a type I Ig-like receptor shared by mouse mast cells and NK cells.
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Papers by Eric Long