CD98hc functions as an amino acid (AA) transporter (together with another subunit) and integrin s... more CD98hc functions as an amino acid (AA) transporter (together with another subunit) and integrin signaling en-hancer. It is overexpressed in highly proliferative cells in both physiological and pathological conditions. CD98hc deletion induces strong impairment of cell proliferation in vivo and in vitro. Here, we investigate CD98hc-associated AA transport in cell survival and proliferation. By using chimeric versions of CD98hc, the two functions of the protein can be uncoupled. Although recovering the CD98hc AA transport capacity restores the in vivo and in vitro proliferation of CD98hc-null cells, reconstitution of the integrin signaling function of CD98hc is unable to restore in vitro proliferation of those cells. CD98hc-associated transporters (i.e. xCT, LAT1, and y LAT2 in wild-type cells) are crucial to control reactive oxygen species and intracellular AA levels, thus sustaining cell survival and proliferation. Moreover, in CD98hc-null cells the deficiency of CD98hc/xCT cannot be compensated, leading to cell death by ferroptosis. Supplementation of culture media with-mercap-toethanol rescues CD98hc-deficient cell survival. Under such conditions null cells show oxidative stress and intracellular AA imbalance and, consequently, limited proliferation. CD98hc-null cells also present reduced intracellular levels of branched-chain and aromatic amino acids (BCAAs and ARO AAs, respectively) and induced expression of peptide transporter 1 (PEPT1). Interestingly, external supply of dipeptides containing BCAAs and ARO AAs rescues cell proliferation and compensates for impaired uptake of CD98hc/LAT1 and CD98hc/ y LAT2. Our data establish CD98hc as a master protective gene at the crossroad of redox control and AA availability, making it a relevant therapeutic target in cancer. Proliferative cells have an increased demand for nutrients such as glucose, AAs, 8 fatty acids, and vitamins. Heteromeric amino acid transporters are among several families of solute carriers (SLC Tables website) that mediate the influx or efflux of solutes (AAs among others) through the plasma membrane of mammalian cells. Heteromeric amino acid transporters are composed of a heavy (SLC3 family) and a light (L-type amino acid transporters (LATs) from SLC7 family) subunit, linked by a disulfide bridge (1). The heavy chain carries the complex to the plasma membrane (2), whereas the light chain constitutes
Increased ligand binding to integrin ("activation") underpins many biological processes... more Increased ligand binding to integrin ("activation") underpins many biological processes, such as leukocyte trafficking, cell migration, host-pathogen interaction, and hemostasis. Integrins exist in several conformations, ranging from compact and bent to extended and open. However, the exact conformation of membrane-embedded, full-length integrin bound to its physiological macromolecular ligand is still unclear. Integrin α11bβ3, the most abundant integrin in platelets, has been a prototype for integrin activation studies. Using negative stain electron microscopy and nanodisc-embedding to provide a membrane-like environment, we visualized the conformation of full-length α11bβ3 in both a Mn(2+)-activated, ligand-free state and a Mn(2+)-activated, fibrin-bound state. Activated but ligand-free integrins exist mainly in the compact conformation; whereas fibrin-bound α11bβ3 predominantly exists in a fully extended, headpiece open conformation. Our results show that membrane-embed...
Cyclic AMP-dependent protein kinase (PKA) is regulated in part by N-terminal myristylation of its... more Cyclic AMP-dependent protein kinase (PKA) is regulated in part by N-terminal myristylation of its catalytic (C) subunit. Structural information about the role of myristylation in membrane targeting of PKA has been limited. In mammalian cells there are four functionally non-redundant PKA regulatory subunits (RIα, RIβ, RIIα, and RIIβ). PKA is assembled as an inactive R2C2 holoenzyme in cells. To explore the role of N-myristylation in membrane targeting of PKA holoenzymes, we solved crystal structures of RIα:myrC and RIIβ2:myrC2, and showed that the N-terminal myristylation site in the myrC serves as a flexible "switch" that can potentially be mobilized for membrane anchoring of RII, but not RI, holoenzymes. Furthermore, we synthesized nanodiscs and showed by electron microscopy that membrane targeting through the myristic acid is specific for the RII holoenzyme. This membrane-anchoring myristylation switch is independent of A Kinase Anchoring Proteins (AKAPs) that target PKA...
Cationic membrane-proximal amino acids determine the topology of membrane proteins by interacting... more Cationic membrane-proximal amino acids determine the topology of membrane proteins by interacting with anionic lipids that are restricted to the intracellular membrane leaflet. This mechanism implies that anionic lipids interfere with electrostatic interactions of membrane proteins. The integrin αIIbβ3 transmembrane (TM) complex is stabilized by a membrane-proximal αIIb(Arg995)-β3(Asp723) interaction; here, we examine the influence of anionic lipids on this complex. Anionic lipids compete for αIIb(Arg995) contacts with β3(Asp723) but paradoxically do not diminish the contribution of αIIb(Arg995)-β3(Asp723) to TM complex stability. Overall, anionic lipids in annular positions stabilize the αIIbβ3 TM complex by up to 0.50 ± 0.02 kcal/mol relative to zwitterionic lipids in a headgroup structure-dependent manner. Comparatively, integrin receptor activation requires TM complex destabilization of 1.5 ± 0.2 kcal/mol revealing a sizeable influence of lipid composition on TM complex stabilit...
The Journal of experimental medicine, Jan 13, 2015
Neutrophil recruitment, mediated by β2 integrins, combats pyogenic infections but also plays a ke... more Neutrophil recruitment, mediated by β2 integrins, combats pyogenic infections but also plays a key role in ischemia-reperfusion injury and other inflammatory disorders. Talin induces allosteric rearrangements in integrins that increase affinity for ligands (activation). Talin also links integrins to actin and other proteins that enable formation of adhesions. Structural studies have identified a talin1 mutant (L325R) that perturbs activation without impairing talin's capacity to link integrins to actin and other proteins. Here, we found that mice engineered to express only talin1(L325R) in myeloid cells were protected from renal ischemia-reperfusion injury. Dissection of neutrophil function in vitro and in vivo revealed that talin1(L325R) neutrophils had markedly impaired chemokine-induced, β2 integrin-mediated arrest, spreading, and migration. Surprisingly, talin1(L325R) neutrophils exhibited normal selectin-induced, β2 integrin-mediated slow rolling, in sharp contrast to the d...
Integrin-mediated cell adhesion is important for development, immune responses, hemostasis and wo... more Integrin-mediated cell adhesion is important for development, immune responses, hemostasis and wound healing. Integrins also function as signal transducing receptors that can control intracellular pathways that regulate cell survival, proliferation, and cell fate. Conversely, cells can modulate the affinity of integrins for their ligands a process operationally defined as integrin activation. Analysis of activation of integrins has now provided a detailed molecular understanding of this unique form of "inside-out" signal transduction and revealed new paradigms of how transmembrane domains (TMD) can transmit long range allosteric changes in transmembrane proteins. Here, we will review how talin and mediates integrin activation and how the integrin TMD can transmit these inside out signals.
Proceedings of the National Academy of Sciences of the United States of America, Jan 4, 1997
Glanzmann thrombasthenia, an inherited bleeding disorder, can be caused by a defect or deficiency... more Glanzmann thrombasthenia, an inherited bleeding disorder, can be caused by a defect or deficiency in platelet integrin alphaIIb beta3 (GPIIb-IIIa). Studies of thrombasthenia variants have facilitated identification of sites involved in the functions of alphaIIb beta3 and other integrins. Such sites include those that bind ligand and those that participate in the "activation" of alphaIIb beta3 required for high affinity binding of ligands such as fibrinogen or PAC1, a monoclonal antibody. Here we describe the isolation of such variants, created in vitro with Chinese hamster ovary cells that express an activated form of alphaIIb beta3. These cells were exposed to a mutagen, ethyl methane sulfonate, and variants that lost the capacity to bind PAC1 were isolated by fluorescence-activated cell sorting. These variants were grouped into three phenotypic classes. One comprised integrin mutations that disrupt ligand binding function; a second comprised mutations that interfere with...
Participation of fibrinogen in platelet aggregation is contingent upon the capacity of various st... more Participation of fibrinogen in platelet aggregation is contingent upon the capacity of various stimuli to induce specific receptors for the molecule on the surface of the cell. The interaction of fibrinogen with this receptor results directly in platelet aggregation, and dissociation of fibrinogen is associated with disaggregation. While the role of exogenous fibrinogen in this process has been fully documented, the mechanisms which control the surface exposure of platelet fibrinogen are less understood. In the present study Fab fragments of antibodies monospecific for fibrinogen have been used to examine the surface expression of intracellular fibrinogen and its involvement in platelet aggregation. Radiolabelled Fab fragments did not interact with non-stimulated platelets but significant binding was observed when the cells were stimulated by ADP, thrombin, collagen and Ca ionophore A23187. Binding was specific for fibrinogen, was not observed with thrombasthenic platelets and was dependent upon the presence of extracellular calcium. With all stimuli tested, the binding of the Fab probe to platelets correlated with platelet secretion. At the following concentrations of stimuli: 30 microM ADP, 4 micrograms/ml collagen, 3 microM A23187 and 0.05 U/ml thrombin, the immune Fab fragments inhibited platelet aggregation. A monoclonal antibody to glycoprotein IIb/IIIa complex and a synthetic peptide gamma 400-411, that inhibited the interaction of plasma fibrinogen with platelets, did not inhibit the binding of 125I-FAB fragments. Taken together these results support the hypothesis that endogenous fibrinogen becomes surface-expressed during stimulation of the cell and can support platelet aggregation, particularly that induced by low concentrations of stimuli. The mechanism for the surface expression of platelet fibrinogen may be distinct from that for the binding of plasma fibrinogen.
The ligand-binding function of integrin adhesion receptors depends on divalent cations. A mutant ... more The ligand-binding function of integrin adhesion receptors depends on divalent cations. A mutant alpha IIb beta 3 integrin (platelet gpIIb/IIIa) that lacks ligand recognition shows immunologic evidence of a perturbed interaction with divalent cations. This was found to be caused by a G----T mutation that resulted in an Asp119----Tyr119 substitution in the beta 3 subunit. This residue is proximal to bound ligand and is in a conserved region among integrins that are enriched in oxygenated residues. The spacing of these residues aligns with the calcium-binding residues in EF hand proteins, suggesting interaction with receptor-bound divalent cation as a mechanism of ligand binding common to all integrins.
Proceedings of the National Academy of Sciences, 1986
A polyclonal antiserum to platelet membrane glycoprotein GPIIb/IIIa was used to detect antigenica... more A polyclonal antiserum to platelet membrane glycoprotein GPIIb/IIIa was used to detect antigenically related molecules on a diverse panel of human cells. Umbilical vein endothelial cells, erythroleukemic HEL cells, and diploid fetal lung GM1380 fibroblasts expressed GPIIb/IIIa-related molecules, as judged by immunofluorescence and immunoprecipitation of surface-labeled proteins. The GPIIb and GPIIIa subunits were both present and were of similar molecular weight in these cell types. These molecules were synthetic products of the cells, as shown by immunoprecipitation of intrinsically labeled proteins. Promyeloid U937 cells could be induced by 4 beta-phorbol 12-myristate 13-acetate to synthesize and express GPIIb/IIIa-related molecules on their cell surface. The GPIIb/IIIa-related molecules were not precisely identical in the various cell types, based on slight differences in electrophoretic mobility and their failure to react with monoclonal antibodies specific for each subunit of platelet GPIIb/IIIa. These results suggest the existence of a widely distributed family of GPIIb/IIIa-related molecules. This family of "cytoadhesins" may share a common function in cellular adhesive reactions.
The Journal of experimental medicine, Jan 12, 2010
Endothelial cell-cell junctions regulate vascular permeability, vasculogenesis, and angiogenesis.... more Endothelial cell-cell junctions regulate vascular permeability, vasculogenesis, and angiogenesis. Familial cerebral cavernous malformations (CCMs) in humans result from mutations of CCM2 (malcavernin, OSM, MGC4607), PDCD10 (CCM3), or KRIT1 (CCM1), a Rap1 effector which stabilizes endothelial cell-cell junctions. Homozygous loss of KRIT1 or CCM2 produces lethal vascular phenotypes in mice and zebrafish. We report that the physical interaction of KRIT1 and CCM2 proteins is required for endothelial cell-cell junctional localization, and lack of either protein destabilizes barrier function by sustaining activity of RhoA and its effector Rho kinase (ROCK). Protein haploinsufficient Krit1(+/-) or Ccm2(+/-) mouse endothelial cells manifested increased monolayer permeability in vitro, and both Krit1(+/-) and Ccm2(+/-) mice exhibited increased vascular leak in vivo, reversible by fasudil, a ROCK inhibitor. Furthermore, we show that ROCK hyperactivity occurs in sporadic and familial human CCM...
... 1). However, although reduced levels of vinculin result in a reduction in the mechanical stif... more ... 1). However, although reduced levels of vinculin result in a reduction in the mechanical stiffness of the integrin-cytoskeleton linkage and increased cell motility, vinculin-null ES cells can differentiate in vitro into a variety of cell types (37) and can spread and form talin-rich FA and ...
We have examined the F-actin and myosin distribution in resting and thrombin-activated platelets ... more We have examined the F-actin and myosin distribution in resting and thrombin-activated platelets by double label immunofluorescence microscopy. In resting, discoid platelets, F-actin and myosin staining was distributed in a diffuse pattern throughout the interior of the cell with slight accentuation at the cell periphery. In contrast, platelet factor 4 antigen (PF4) was more centrally localized in a fine punctate distribution which is consistent with its localization in alpha-granules. Within 5 sec after thrombin stimulation both F-actin and myosin staining were increased at the periphery of the now spherical platelets. Subsequently, a myosin-containing spherical structure decreased in diameter closely surrounding a phase-dense central zone. In contrast, F-actin staining continued to be accentuated at the cell periphery and was prominent in filopodia and blebs. As previously shown, PF4 staining was localized after 30 sec within large intracellular masses that corresponded to closed vacuolar structures at the ultrastructural level. Morphometric analysis of electron micrographs showed that formation of these vacuolar structures kinetically paralleled alpha-granule disappearance and preceded PF4 release. These PF4-containing structures translocated to the cell periphery after 1-3 min, where they appeared to fuse with the plasma membrane. Ultrastructural analysis of thin sections showed that the myosin-rich spherical structure spatially and temporally correlated with a band of microfilaments that closely surrounded the organelle-rich central zone of the cell. Morphometric analysis of these micrographs showed that the absolute volume of this central zone decreased with time after thrombin addition, showing a significant change after 15 sec and reaching a maximum value after 3-5 min. Changes in the volume of this compartment kinetically preceded PF4 release. On the basis of these data, we propose that an actomyosin contractile force is generated which centripetally redistributes the myosinrich structure and organelle zone. Conceivably this inward force may not only accelerate granule-granule fusion to form intracellular secretory vacuoles, but may also provide aid in their extrusion toward the platelet plasma membrane.
Integrin αβ transmembrane heterodimers play central roles in metazoan development and physiology ... more Integrin αβ transmembrane heterodimers play central roles in metazoan development and physiology by mediating adhesion and by transmitting forces and biochemical signals across the plasma membrane. In this SnapShot, we present a simplified "modular" view of the integrin adhesome, centered on the talin-integrin interaction, and provide examples of how this view can help to unravel the adhesome's remarkable functional diversity and plasticity.
CD98hc functions as an amino acid (AA) transporter (together with another subunit) and integrin s... more CD98hc functions as an amino acid (AA) transporter (together with another subunit) and integrin signaling en-hancer. It is overexpressed in highly proliferative cells in both physiological and pathological conditions. CD98hc deletion induces strong impairment of cell proliferation in vivo and in vitro. Here, we investigate CD98hc-associated AA transport in cell survival and proliferation. By using chimeric versions of CD98hc, the two functions of the protein can be uncoupled. Although recovering the CD98hc AA transport capacity restores the in vivo and in vitro proliferation of CD98hc-null cells, reconstitution of the integrin signaling function of CD98hc is unable to restore in vitro proliferation of those cells. CD98hc-associated transporters (i.e. xCT, LAT1, and y LAT2 in wild-type cells) are crucial to control reactive oxygen species and intracellular AA levels, thus sustaining cell survival and proliferation. Moreover, in CD98hc-null cells the deficiency of CD98hc/xCT cannot be compensated, leading to cell death by ferroptosis. Supplementation of culture media with-mercap-toethanol rescues CD98hc-deficient cell survival. Under such conditions null cells show oxidative stress and intracellular AA imbalance and, consequently, limited proliferation. CD98hc-null cells also present reduced intracellular levels of branched-chain and aromatic amino acids (BCAAs and ARO AAs, respectively) and induced expression of peptide transporter 1 (PEPT1). Interestingly, external supply of dipeptides containing BCAAs and ARO AAs rescues cell proliferation and compensates for impaired uptake of CD98hc/LAT1 and CD98hc/ y LAT2. Our data establish CD98hc as a master protective gene at the crossroad of redox control and AA availability, making it a relevant therapeutic target in cancer. Proliferative cells have an increased demand for nutrients such as glucose, AAs, 8 fatty acids, and vitamins. Heteromeric amino acid transporters are among several families of solute carriers (SLC Tables website) that mediate the influx or efflux of solutes (AAs among others) through the plasma membrane of mammalian cells. Heteromeric amino acid transporters are composed of a heavy (SLC3 family) and a light (L-type amino acid transporters (LATs) from SLC7 family) subunit, linked by a disulfide bridge (1). The heavy chain carries the complex to the plasma membrane (2), whereas the light chain constitutes
Increased ligand binding to integrin ("activation") underpins many biological processes... more Increased ligand binding to integrin ("activation") underpins many biological processes, such as leukocyte trafficking, cell migration, host-pathogen interaction, and hemostasis. Integrins exist in several conformations, ranging from compact and bent to extended and open. However, the exact conformation of membrane-embedded, full-length integrin bound to its physiological macromolecular ligand is still unclear. Integrin α11bβ3, the most abundant integrin in platelets, has been a prototype for integrin activation studies. Using negative stain electron microscopy and nanodisc-embedding to provide a membrane-like environment, we visualized the conformation of full-length α11bβ3 in both a Mn(2+)-activated, ligand-free state and a Mn(2+)-activated, fibrin-bound state. Activated but ligand-free integrins exist mainly in the compact conformation; whereas fibrin-bound α11bβ3 predominantly exists in a fully extended, headpiece open conformation. Our results show that membrane-embed...
Cyclic AMP-dependent protein kinase (PKA) is regulated in part by N-terminal myristylation of its... more Cyclic AMP-dependent protein kinase (PKA) is regulated in part by N-terminal myristylation of its catalytic (C) subunit. Structural information about the role of myristylation in membrane targeting of PKA has been limited. In mammalian cells there are four functionally non-redundant PKA regulatory subunits (RIα, RIβ, RIIα, and RIIβ). PKA is assembled as an inactive R2C2 holoenzyme in cells. To explore the role of N-myristylation in membrane targeting of PKA holoenzymes, we solved crystal structures of RIα:myrC and RIIβ2:myrC2, and showed that the N-terminal myristylation site in the myrC serves as a flexible "switch" that can potentially be mobilized for membrane anchoring of RII, but not RI, holoenzymes. Furthermore, we synthesized nanodiscs and showed by electron microscopy that membrane targeting through the myristic acid is specific for the RII holoenzyme. This membrane-anchoring myristylation switch is independent of A Kinase Anchoring Proteins (AKAPs) that target PKA...
Cationic membrane-proximal amino acids determine the topology of membrane proteins by interacting... more Cationic membrane-proximal amino acids determine the topology of membrane proteins by interacting with anionic lipids that are restricted to the intracellular membrane leaflet. This mechanism implies that anionic lipids interfere with electrostatic interactions of membrane proteins. The integrin αIIbβ3 transmembrane (TM) complex is stabilized by a membrane-proximal αIIb(Arg995)-β3(Asp723) interaction; here, we examine the influence of anionic lipids on this complex. Anionic lipids compete for αIIb(Arg995) contacts with β3(Asp723) but paradoxically do not diminish the contribution of αIIb(Arg995)-β3(Asp723) to TM complex stability. Overall, anionic lipids in annular positions stabilize the αIIbβ3 TM complex by up to 0.50 ± 0.02 kcal/mol relative to zwitterionic lipids in a headgroup structure-dependent manner. Comparatively, integrin receptor activation requires TM complex destabilization of 1.5 ± 0.2 kcal/mol revealing a sizeable influence of lipid composition on TM complex stabilit...
The Journal of experimental medicine, Jan 13, 2015
Neutrophil recruitment, mediated by β2 integrins, combats pyogenic infections but also plays a ke... more Neutrophil recruitment, mediated by β2 integrins, combats pyogenic infections but also plays a key role in ischemia-reperfusion injury and other inflammatory disorders. Talin induces allosteric rearrangements in integrins that increase affinity for ligands (activation). Talin also links integrins to actin and other proteins that enable formation of adhesions. Structural studies have identified a talin1 mutant (L325R) that perturbs activation without impairing talin's capacity to link integrins to actin and other proteins. Here, we found that mice engineered to express only talin1(L325R) in myeloid cells were protected from renal ischemia-reperfusion injury. Dissection of neutrophil function in vitro and in vivo revealed that talin1(L325R) neutrophils had markedly impaired chemokine-induced, β2 integrin-mediated arrest, spreading, and migration. Surprisingly, talin1(L325R) neutrophils exhibited normal selectin-induced, β2 integrin-mediated slow rolling, in sharp contrast to the d...
Integrin-mediated cell adhesion is important for development, immune responses, hemostasis and wo... more Integrin-mediated cell adhesion is important for development, immune responses, hemostasis and wound healing. Integrins also function as signal transducing receptors that can control intracellular pathways that regulate cell survival, proliferation, and cell fate. Conversely, cells can modulate the affinity of integrins for their ligands a process operationally defined as integrin activation. Analysis of activation of integrins has now provided a detailed molecular understanding of this unique form of "inside-out" signal transduction and revealed new paradigms of how transmembrane domains (TMD) can transmit long range allosteric changes in transmembrane proteins. Here, we will review how talin and mediates integrin activation and how the integrin TMD can transmit these inside out signals.
Proceedings of the National Academy of Sciences of the United States of America, Jan 4, 1997
Glanzmann thrombasthenia, an inherited bleeding disorder, can be caused by a defect or deficiency... more Glanzmann thrombasthenia, an inherited bleeding disorder, can be caused by a defect or deficiency in platelet integrin alphaIIb beta3 (GPIIb-IIIa). Studies of thrombasthenia variants have facilitated identification of sites involved in the functions of alphaIIb beta3 and other integrins. Such sites include those that bind ligand and those that participate in the "activation" of alphaIIb beta3 required for high affinity binding of ligands such as fibrinogen or PAC1, a monoclonal antibody. Here we describe the isolation of such variants, created in vitro with Chinese hamster ovary cells that express an activated form of alphaIIb beta3. These cells were exposed to a mutagen, ethyl methane sulfonate, and variants that lost the capacity to bind PAC1 were isolated by fluorescence-activated cell sorting. These variants were grouped into three phenotypic classes. One comprised integrin mutations that disrupt ligand binding function; a second comprised mutations that interfere with...
Participation of fibrinogen in platelet aggregation is contingent upon the capacity of various st... more Participation of fibrinogen in platelet aggregation is contingent upon the capacity of various stimuli to induce specific receptors for the molecule on the surface of the cell. The interaction of fibrinogen with this receptor results directly in platelet aggregation, and dissociation of fibrinogen is associated with disaggregation. While the role of exogenous fibrinogen in this process has been fully documented, the mechanisms which control the surface exposure of platelet fibrinogen are less understood. In the present study Fab fragments of antibodies monospecific for fibrinogen have been used to examine the surface expression of intracellular fibrinogen and its involvement in platelet aggregation. Radiolabelled Fab fragments did not interact with non-stimulated platelets but significant binding was observed when the cells were stimulated by ADP, thrombin, collagen and Ca ionophore A23187. Binding was specific for fibrinogen, was not observed with thrombasthenic platelets and was dependent upon the presence of extracellular calcium. With all stimuli tested, the binding of the Fab probe to platelets correlated with platelet secretion. At the following concentrations of stimuli: 30 microM ADP, 4 micrograms/ml collagen, 3 microM A23187 and 0.05 U/ml thrombin, the immune Fab fragments inhibited platelet aggregation. A monoclonal antibody to glycoprotein IIb/IIIa complex and a synthetic peptide gamma 400-411, that inhibited the interaction of plasma fibrinogen with platelets, did not inhibit the binding of 125I-FAB fragments. Taken together these results support the hypothesis that endogenous fibrinogen becomes surface-expressed during stimulation of the cell and can support platelet aggregation, particularly that induced by low concentrations of stimuli. The mechanism for the surface expression of platelet fibrinogen may be distinct from that for the binding of plasma fibrinogen.
The ligand-binding function of integrin adhesion receptors depends on divalent cations. A mutant ... more The ligand-binding function of integrin adhesion receptors depends on divalent cations. A mutant alpha IIb beta 3 integrin (platelet gpIIb/IIIa) that lacks ligand recognition shows immunologic evidence of a perturbed interaction with divalent cations. This was found to be caused by a G----T mutation that resulted in an Asp119----Tyr119 substitution in the beta 3 subunit. This residue is proximal to bound ligand and is in a conserved region among integrins that are enriched in oxygenated residues. The spacing of these residues aligns with the calcium-binding residues in EF hand proteins, suggesting interaction with receptor-bound divalent cation as a mechanism of ligand binding common to all integrins.
Proceedings of the National Academy of Sciences, 1986
A polyclonal antiserum to platelet membrane glycoprotein GPIIb/IIIa was used to detect antigenica... more A polyclonal antiserum to platelet membrane glycoprotein GPIIb/IIIa was used to detect antigenically related molecules on a diverse panel of human cells. Umbilical vein endothelial cells, erythroleukemic HEL cells, and diploid fetal lung GM1380 fibroblasts expressed GPIIb/IIIa-related molecules, as judged by immunofluorescence and immunoprecipitation of surface-labeled proteins. The GPIIb and GPIIIa subunits were both present and were of similar molecular weight in these cell types. These molecules were synthetic products of the cells, as shown by immunoprecipitation of intrinsically labeled proteins. Promyeloid U937 cells could be induced by 4 beta-phorbol 12-myristate 13-acetate to synthesize and express GPIIb/IIIa-related molecules on their cell surface. The GPIIb/IIIa-related molecules were not precisely identical in the various cell types, based on slight differences in electrophoretic mobility and their failure to react with monoclonal antibodies specific for each subunit of platelet GPIIb/IIIa. These results suggest the existence of a widely distributed family of GPIIb/IIIa-related molecules. This family of "cytoadhesins" may share a common function in cellular adhesive reactions.
The Journal of experimental medicine, Jan 12, 2010
Endothelial cell-cell junctions regulate vascular permeability, vasculogenesis, and angiogenesis.... more Endothelial cell-cell junctions regulate vascular permeability, vasculogenesis, and angiogenesis. Familial cerebral cavernous malformations (CCMs) in humans result from mutations of CCM2 (malcavernin, OSM, MGC4607), PDCD10 (CCM3), or KRIT1 (CCM1), a Rap1 effector which stabilizes endothelial cell-cell junctions. Homozygous loss of KRIT1 or CCM2 produces lethal vascular phenotypes in mice and zebrafish. We report that the physical interaction of KRIT1 and CCM2 proteins is required for endothelial cell-cell junctional localization, and lack of either protein destabilizes barrier function by sustaining activity of RhoA and its effector Rho kinase (ROCK). Protein haploinsufficient Krit1(+/-) or Ccm2(+/-) mouse endothelial cells manifested increased monolayer permeability in vitro, and both Krit1(+/-) and Ccm2(+/-) mice exhibited increased vascular leak in vivo, reversible by fasudil, a ROCK inhibitor. Furthermore, we show that ROCK hyperactivity occurs in sporadic and familial human CCM...
... 1). However, although reduced levels of vinculin result in a reduction in the mechanical stif... more ... 1). However, although reduced levels of vinculin result in a reduction in the mechanical stiffness of the integrin-cytoskeleton linkage and increased cell motility, vinculin-null ES cells can differentiate in vitro into a variety of cell types (37) and can spread and form talin-rich FA and ...
We have examined the F-actin and myosin distribution in resting and thrombin-activated platelets ... more We have examined the F-actin and myosin distribution in resting and thrombin-activated platelets by double label immunofluorescence microscopy. In resting, discoid platelets, F-actin and myosin staining was distributed in a diffuse pattern throughout the interior of the cell with slight accentuation at the cell periphery. In contrast, platelet factor 4 antigen (PF4) was more centrally localized in a fine punctate distribution which is consistent with its localization in alpha-granules. Within 5 sec after thrombin stimulation both F-actin and myosin staining were increased at the periphery of the now spherical platelets. Subsequently, a myosin-containing spherical structure decreased in diameter closely surrounding a phase-dense central zone. In contrast, F-actin staining continued to be accentuated at the cell periphery and was prominent in filopodia and blebs. As previously shown, PF4 staining was localized after 30 sec within large intracellular masses that corresponded to closed vacuolar structures at the ultrastructural level. Morphometric analysis of electron micrographs showed that formation of these vacuolar structures kinetically paralleled alpha-granule disappearance and preceded PF4 release. These PF4-containing structures translocated to the cell periphery after 1-3 min, where they appeared to fuse with the plasma membrane. Ultrastructural analysis of thin sections showed that the myosin-rich spherical structure spatially and temporally correlated with a band of microfilaments that closely surrounded the organelle-rich central zone of the cell. Morphometric analysis of these micrographs showed that the absolute volume of this central zone decreased with time after thrombin addition, showing a significant change after 15 sec and reaching a maximum value after 3-5 min. Changes in the volume of this compartment kinetically preceded PF4 release. On the basis of these data, we propose that an actomyosin contractile force is generated which centripetally redistributes the myosinrich structure and organelle zone. Conceivably this inward force may not only accelerate granule-granule fusion to form intracellular secretory vacuoles, but may also provide aid in their extrusion toward the platelet plasma membrane.
Integrin αβ transmembrane heterodimers play central roles in metazoan development and physiology ... more Integrin αβ transmembrane heterodimers play central roles in metazoan development and physiology by mediating adhesion and by transmitting forces and biochemical signals across the plasma membrane. In this SnapShot, we present a simplified "modular" view of the integrin adhesome, centered on the talin-integrin interaction, and provide examples of how this view can help to unravel the adhesome's remarkable functional diversity and plasticity.
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Papers by Mark Ginsberg