A mechanism for modulation of cellular responses to VEGF: activation of the integrins

Many similarities exist in the cellular responses elicited by VEGF and governed by integrins. Here, we identify a basis for these interrelationships: VEGF activates integrins. VEGF enhanced cell adhesion, migration, soluble ligand binding, and adenovirus gene transfer mediated by alphavbeta3 and also activated other integrins, alphavbeta5, alpha5beta1, and alpha2beta1, involved in angiogenesis. Certain tumor cells exhibited high spontaneous adhesion and migration, which were attributable to a VEGF-dependent autocrine/paracrine activation of integrins. This activation was mediated by the VEGFR2 receptor and regulated via phosphatidylinositol-3-kinase, Akt, and the PTEN signaling axis. Thus, integrin activation provides a mechanism for VEGF to induce a broad spectrum of cellular responses.     

Identification and Characterization of Multiple Similar Ligand-binding Repeats in Filamin: IMPLICATION ON FILAMIN-MEDIATED RECEPTOR CLUSTERING AND CROSS-TALK*

The actin-binding protein filamin links membrane receptors to the underlying cytoskeleton. The cytoplasmic domains of these membrane receptors have been shown to bind to various filamin immunoglobulin repeats. Notably, among 24 human filamin repeats, repeat 17 was reported to specifically bind to platelet receptor glycoprotein Ibα and repeat 21 to integrins. However, a complete sequence alignment of all 24 human filamin repeats reveals that repeats 17 and 21 actually belong to a distinct filamin repeat subgroup (containing repeats 4, 9, 12, 17, 19, 21, and 23) that shares a conserved ligand-binding site. Using isothermal calorimetry and NMR analyses, we show that all repeats in this subgroup can actually bind glycoprotein Ibα, integrins, and a cytoskeleton regulator migfilin in similar manners. These data provide a new view on the ligand specificity of the filamin repeats. They also suggest a multiple ligand binding mechanism where similar repeats within a filamin monomer may promote receptor clustering or receptor cross-talking for regulation of the cytoskeleton organization and diverse filamin-mediated cellular activities.     

Identification and characterization of two cation binding sites in the integrin beta 3 subunit.

The midsegment of the beta(3) subunit has been implicated in the ligand and cation binding functions of the beta(3) integrins. This region may contain a metal ion-dependent adhesion site (MIDAS) and fold into an I domain-like structure. Two recombinant fragments, beta(3)-(95-373) and beta(3)-(95-301), were expressed and found to bind fibrinogen. Whereas 0.1 mm Ca(2+) supported ligand binding to both recombinant fragments, 1.0 mm Ca(2+) suppressed binding to the longer but not the shorter fragment. These properties suggest that beta(3)-(95-373) contains both the ligand-competent (LC) and inhibitory (I) cation binding sites, and beta(3)-(95-301) lacks the I site. In equilibrium dialysis experiments, beta(3)-(95-373) contained two divalent cation binding sites, one reactive with either Mg(2+) or Ca(2+) and one Ca(2+)-specific, whereas beta(3)-(95-301) lacked the Ca(2+)-specific site. Mutant forms of beta(3)-(95-373) suggested that the LC site is a MIDAS motif involving Asp(119), Ser(121), Ser(123), Asp(217), and/or Glu(220) as coordination sites, and the I site was dependent upon residues within beta(3)-(301-323). In a molecular model of beta(3)-(95-373), a second Ca(2+) could be docked onto a flexible loop in close proximity to the MIDAS. These results indicate that the ligand competent and Ca(2+)-specific inhibitory cation binding sites are distinct and reside in beta(3)-(95-373).     

Chemical cross-linking of arginyl-glycyl-aspartic acid peptides to an adhesion receptor on platelets

A chemical cross-linking approach has been used to characterize the interaction of platelets with small peptides of 7 and 14 residues containing the arginyl-glycyl-aspartic acid (RGD) sequence recognized by a variety of cellular adhesion receptors. The radioiodinated peptides were bound to platelets, and chemical cross-linking was attained by subsequent addition of bifunctional reagents. Three different cross-linking reagents coupled the RGD-containing peptides to platelet membrane glycoprotein IIb-IIIa (GPIIb-IIIa), and both subunits of this platelet membrane glycoprotein became radiolabeled with the RGD peptides. Platelet stimulation with agonists including thrombin, phorbol myristrate acetate, and ADP increased the extent of cross-linking by predominantly enhancing the coupling of the RGD peptides to the GPIIIa subunit. Cross-linking of the labeled RGD peptides to GPIIb and GPIIIa on stimulated and nonstimulated platelets exhibited structural specificity and was inhibited by excess nonlabeled RGD peptides. The interactions were inhibited by nonlabeled RGD peptides and a peptide with an amino acid sequence corresponding to the carboxyl terminus of the gamma chain of fibrinogen but less effectively by an arginyl-glycyl-glutamic acid peptide. Cross-linking of the RGD peptides to GPIIb-IIIa was divalent ion-dependent and, on stimulated platelets, was inhibited by the adhesive proteins fibrinogen and fibronectin, but not by albumin. These results indicate that the RGD-binding sites on platelets reside in close proximity to both subunits of GPIIb-IIIa and that platelet stimulation alters the topography of these sites such that the peptides become more efficiently cross-linked to GPIIIa.     

The major fibrinolytic proteases of human leukocytes

The major fibrinolytic enzymes present in leukocyte granules and active at physiological pH have been identified. The fibrinolytic activity in extracts of leukocyte granules was bound to fibrinogen-Sepharose and eluted with 8.0 M urea. Two distinct zones of fibrinolytic activity were detected upon electrophoresis of leukocyte extracts on fibrinogen polyacrylamide gels, and both were qualitatively recovered in the 8.0 M urea eluate. Quantitatively, greater than 95% of the fibrinolytic activity was recovered in the urea eluate. Two major leukocyte proteases, elastase (EC 3.4.21.11) and cathepsin G (EC 3.4.21.-), were quantitatively recovered in the urea eluate. Both enzymes, when purified separately by affinity chromatography, were shown to: (a) possess fibrinolytic activity; (b) coincide in mobility and generate the two zones of fibrinolytic activity on fibrinogen polyacrylamide gels; and (c) quantitatively reconstitute the fibrinolytic activity of the leukocyte granules when combined at activity levels present in granular extracts. A highly significant correlation (r = 0.98) was found between the fibrinolytic activity and the sum of elastase and cathepsin G activity in leukocytes from five donors. Thus, elastase and cathepsin G are the major enzymes of the leukocyte fibrinolytic pathway, and fibrinogen-Sepharose chromatography may be used to obtain these enzymes.     

Site-specific Nitration of Apolipoprotein A-I at Tyrosine 166 Is Both Abundant within Human Atherosclerotic Plaque and Dysfunctional

We reported previously that apolipoprotein A-I (apoA-I) is oxidatively modified in the artery wall at tyrosine 166 (Tyr¹⁶⁶), serving as a preferred site for post-translational modification through nitration. Recent studies, however, question the extent and functional importance of apoA-I Tyr¹⁶⁶ nitration based upon studies of HDL-like particles recovered from atherosclerotic lesions. We developed a monoclonal antibody (mAb 4G11.2) that recognizes, in both free and HDL-bound forms, apoA-I harboring a 3-nitrotyrosine at position 166 apoA-I (NO₂-Tyr¹⁶⁶-apoA-I) to investigate the presence, distribution, and function of this modified apoA-I form in atherosclerotic and normal artery wall. We also developed recombinant apoA-I with site-specific 3-nitrotyrosine incorporation only at position 166 using an evolved orthogonal nitro-Tyr-aminoacyl-tRNA synthetase/tRNA_CUA pair for functional studies. Studies with mAb 4G11.2 showed that NO₂-Tyr¹⁶⁶-apoA-I was easily detected in atherosclerotic human coronary arteries and accounted for ∼8% of total apoA-I within the artery wall but was nearly undetectable (>100-fold less) in normal coronary arteries. Buoyant density ultracentrifugation analyses showed that NO₂-Tyr¹⁶⁶-apoA-I existed as a lipid-poor lipoprotein with <3% recovered within the HDL-like fraction (d = 1.063–1.21). NO₂-Tyr¹⁶⁶-apoA-I in plasma showed a similar distribution. Recovery of NO₂-Tyr¹⁶⁶-apoA-I using immobilized mAb 4G11.2 showed an apoA-I form with 88.1 ± 8.5% reduction in lecithin-cholesterol acyltransferase activity, a finding corroborated using a recombinant apoA-I specifically designed to include the unnatural amino acid exclusively at position 166. Thus, site-specific nitration of apoA-I at Tyr¹⁶⁶ is an abundant modification within the artery wall that results in selective functional impairments. Plasma levels of this modified apoA-I form may provide insights into a pathophysiological process within the diseased artery wall.     

Sickle cell disease in mice is associated with sensitization of sensory nerve fibers

The pain phenotype in sickle cell disease (SCD) patients is highly variable. A small percentage of SCD patients experience many vaso-occlusive crises/year, 5% of patients account for over 30% of pain episodes, while 39% report few episodes of severe pain. Clearly, a better understanding of the pathobiology of SCD is needed to improve its therapy. Humanized sickle cell mice recapitulate several phenotypes of SCD patients and provide a model for the study of SCD pain. Researchers have shown that one strain of humanized SCD mice, the BERK strain, has abnormal pain phenotype. However, the nociception phenotype of another humanized SCD mouse strain, the Townes strain, has not been described. In a large cross-sectional study of BERK and Townes SCD mice, we examined thermosensory response and sensory nerve fiber function using sine-wave electrical stimulation at 2000, 250, and 5 Hz to stimulate preferentially Aβ, Aδ, and C sensory nerve fibers, respectively. We found that BERK and Townes mice, compared to respective controls, had decreases in 2000, 250, and 5 Hz current vocalization thresholds in patterns that suggest sensitization of a broad spectrum of sensory nerve fibers. In addition, the pattern of sensitization of sensory fibers varied according to strain, sex, age, and mouse genotype. In a similarly variable pattern, Townes and BERKs also had significantly altered sensitivity to noxious thermal stimuli in agreement with what has been shown by others. In summary, the analysis of somatosensory function using sine-wave electrical stimulation in humanized sickle cell mice suggests that in SCD, both myelinated and unmyelinated, fibers are sensitized. The pattern of sensory fiber sensitization is distinct from that observed in pain models of neuropathic and inflammatory pain. These findings raise the possibility that sensitization of a broad spectrum of sensory fibers might contribute to the altered and variable nociception phenotype in SCD.     

Monitoring ungulates in steep non-forest habitat: a comparison of faecal pellet and helicopter counts

Faecal pellet counts have been widely used to monitor the abundances of introduced ungulates in New Zealand, but ground-based sampling cannot be conducted safely in the steep non-forest habitats that are common in New Zealand's Southern Alps. Helicopter counts may be an effective technique for monitoring ungulates in steep non-forest habitat. We evaluated the relationship between faecal pellet and helicopter counts of ungulates (primarily feral goat Capra hircus) at 12 non-forest sites in the Southern Alps. Within each site we counted the numbers of ungulates from a helicopter on three occasions and the number of intact faecal pellets along 30 transects. Mean observed densities of feral goats derived from helicopter counts ranged from 0.0 to 20.2 km^?2. There was a positive curvilinear (concave down) relationship between faecal pellet and helicopter counts. Compared with faecal pellet counts, helicopter counts were cheaper, could identify ungulate species and provided estimates of absolute density. Helicopter counts are a cost-effective method for monitoring ungulates in the steep non-forest habitats of New Zealand's Southern Alps.