Structure-activity relationships of interleukin-8 determined using chemically synthesized analogs. Critical role of NH2-terminal residues and evidence for uncoupling of neutrophil chemotaxis, exocytosis, and receptor binding activities.

Interleukin-8 (IL-8) is an inflammatory mediator that stimulates neutrophil migration and functional activation. Analogs of human IL-8 were chemically synthesized, purified, and compared with the full-length 72-residue synthetic IL-8 for their ability to stimulate neutrophil chemotaxis and exocytosis as measured by assaying for release of elastase, as well as their binding to specific receptors in competition assays. Analogs corresponding to the less abundant natural forms, 3-72, 4-72, and 77-residue IL-8, were evaluated and the 3-72 and 4-72 had 2-5-fold higher potencies, whereas the 77-residue IL-8 was 2-fold less potent. A major finding was that NH2-terminal residues 4, 5, and 6 were absolutely essential for IL-8 activity and receptor binding. Quantitative dissociation of elastase release and chemotaxis activity was detected with 5-72, which compared with 1-72, was 80-fold less potent in the elastase assay, but was only slightly less potent in stimulating chemotaxis. IL-8 6-72 lacked all the biological activities tested but had detectable receptor binding activity. The NH2-terminal peptide, AVLPRSAKEL, lacked activity and receptor binding, suggesting that the NH2-terminal region alone is not sufficient for function. Comparison of analogs shortened at the COOH terminus showed that potency was progressively reduced as the COOH-terminal residues were excluded. However activity was retained in an analog (1-51) with the entire COOH-terminal alpha helix and beta turn missing. A peptide corresponding to the COOH-terminal 22 residues, although inactive alone, synergized with the 1-51 analog in stimulating elastase release. The results suggest that the NH2-terminal residues 4, 5, and 6, which are disordered in the IL-8 solution structure, are directly involved in receptor binding, but the COOH-terminal alpha helix is probably important for stabilizing the three-dimensional structure. Other regions within residues 7-51 are also functionally important.     

Neutrophil-activating peptide 2 and gro/melanoma growth-stimulatory activity interact with neutrophil-activating peptide 1/interleukin 8 receptors on human neutrophils

Neutrophil-activating peptide 1/interleukin 8 (NAP-1/IL-8), neutrophil-activating peptide 2 (NAP-2), and gro/melanoma growth-stimulatory activity (gro/MGSA) are potent inflammatory cytokines with homologous structure and similar neutrophil-activating properties. Receptors on human neutrophils that interact with these peptides were studied. Analysis of 125I-NAP-1/IL-8 binding at 0-4 degrees C revealed 64,500 +/- 14,000 receptors/cell with an apparent Kd of 0.18 +/- 0.07 nM (mean +/- S.D. of six independent experiments). Unlabeled NAP-1/IL-8, NAP-2, and gro/MGSA competed with 125I-NAP-1/IL-8 for binding to human neutrophils. Competition with increasing concentrations of unlabeled NAP-2 and gro/MGSA resolved two classes of NAP-1/IL-8 binding sites: about 70% of them bound NAP-2 and gro/MGSA with high affinity (Kd: 0.34 +/- 0.2 and 0.14 +/- 0.02), while 30% were of low affinity (Kd: 100 +/- 20 and 130 +/- 10 nM). Different binding sites, however, were not apparent upon competition with unlabeled NAP-1/IL-8, suggesting that both classes of receptors have similar affinities for NAP-1/IL-8. The existence of two receptors was also suggested by ligand cross-linking and cross-desensitization experiments. Two neutrophil membrane proteins with apparent Mr of 66,000-74,000 and 42,000-46,000 became cross-linked to 125I-NAP-1/IL-8, and the labeling was decreased when excess NAP-1/IL-8, NAP-2, or gro/MGSA was present. Stimulation of neutrophils with NAP-1/IL-8 resulted in desensitization toward a subsequent challenge with NAP-2 or gro/MGSA as shown by the rise in cytosolic free calcium. By contrast, following primary stimulation with NAP-2 or gro/MGSA, responses to NAP-1/IL-8 were only moderately attenuated, supporting the existence of NAP-1/IL-8 receptors which bind NAP-2 or gro/MGSA with low affinity. In conclusion, our results demonstrate that NAP-2 and gro/MGSA act upon human neutrophils by directly interacting with two classes of receptors for NAP-1/IL-8.     

Neutrophil-activating peptide 1/interleukin 8 mRNA expression and protein secretion by human monocytes: effect of cyclosporin A

Neutrophil-activating peptide 1/interleukin 8 (NAP-1/IL-8) is a recently described cytokine with potent chemotactic activity for human neutrophil granulocytes (PMN) and T cells. In psoriasis, a chronic hyperproliferative and inflammatory skin disorder, PMN and T cells are found as prominent cells in the inflammatory infiltrate of the lesions; however, monocytes were shown to be the first cells invading a newly formed plaque. NAP-1/IL-8 was found to be present in high amounts in the skin and in scale material of psoriatic patients. Psoriasis responds well to systemic treatment with cyclosporin A (CsA), an immunosuppressive peptide. Therefore, we addressed the question of whether the clinical improvement of psoriatic patients during CsA therapy may be due to an inhibition of NAP-1/IL-8 production and secretion from monocytes. Purified human monocytes were stimulated by lipopolysaccharide in the presence or absence of various concentrations of CsA. Production of NAP-1/IL-8 was determined as expression of specific mRNA by fluorescent in situ hybridization. Secreted peptide was measured by bioassay (PMN chemotaxis) and enzyme-linked immunosorbent assay (ELISA) using specific monoclonal antibodies. The results show that CsA neither inhibited mRNA expression for NAP-1/IL-8 nor secretion of the peptide. These findings support the hypothesis that the pharmacological effect of CsA may be restricted to the inhibition of T-cell activation and proliferation.     

Isolation, characterization, and amino-terminal amino acid sequence analysis of human neutrophil elastase from normal donors

Human neutrophil elastase from normal donors has been purified using an isolation procedure which included sequential sodium chloride extraction, Aprotinin-Sepharose affinity chromatography, CM-cellulose ion-exchange chromatography, and AcA44 gel filtration chromatography. The inclusion of this last purification step was crucial for separating inactive lower molecular weight species from the active forms of neutrophil elastase and resulted in a higher specific activity of the final preparation. Sodium dodecyl sulfate-polyacrylamide gradient gel electrophoresis of the reduced purified protein demonstrated three polypeptides of Mr 31,000, 28,000, and 27,500. Four polypeptides were resolved on acid gel electrophoresis; each of the four possessed amidolytic activity. Furthermore, peptide analysis of Staphylococcus aureus V8 protease digests indicated that these polypeptides are structurally related to each other and represent microheterogeneity of the purified protein. The apparent isoelectric points of these four forms as determined by two-dimensional electrophoresis range from 6.1 to 6.7. By utilizing microsequencing techniques, the first 40 residues of neutrophil elastase have been determined and compared with the reported sequence of elastase isolated from leukemic myeloid cells. In addition, a high degree of homology was found within the amino-terminal regions of neutrophil elastase and the serine proteinases porcine elastase, bovine chymotrypsin, human factor D, and the beta chain of plasmin.     

The anti-infective peptide, innate defense-regulator peptide, stimulates neutrophil chemotaxis via a formyl peptide receptor

The anti-infective peptide, innate defense-regulator peptide (IDR-1), has been selectively reported to modulate the innate immune response. We found that IDR-1 stimulates the chemotactic migration in human neutrophils. Moreover, IDR-1-induced neutrophil chemotaxis was completely blocked by pertussis toxin, suggesting the importance of the G_i protein in this process. The mechanism governing the IDR-1-induced neutrophil chemotaxis was found to be completely inhibited by the formyl peptide receptor (FPR) antagonist; cyclosporin H. IDR-1 was also found to induce chemotactic migration in FPR but not in vector-expressing HCT116 cells. Meanwhile, IDR-1 failed to stimulate superoxide anion generation and intracellular calcium increase in human neutrophils. Furthermore, IDR-1 was found to inhibit fMLF (an FPR agonist)-induced superoxide generation and calcium signaling in human neutrophils and FPR-expressing HCT116 cells. Taken together, the results demonstrate that IDR-1 is a partial agonist for FPR and further, stimulates neutrophil chemotaxis without inducing calcium signaling and superoxide generation.     

The effects and comparative differences of neutrophil specific chemokines on neutrophil chemotaxis of the neonate

Neutrophil specific chemokines are potent chemoattractants for neutrophils. IL-8/CXCL8 is the most extensively studied member of this group, and its concentrations increase during inflammatory conditions of the newborn infant including sepsis and chronic lung disease. A significant amount of information exists on the effects of IL-8/CXCL8 on neutrophil chemotaxis of neonates, but little is known about the other neutrophil specific chemokines. The aim of this study was to determine the relative potency of the neutrophil specific chemokines on chemotaxis of neonatal neutrophils and to compare this effect with the effect on adult neutrophils. Neutrophils were isolated from cord blood or healthy adult donors and incubated in a Neuroprobe chemotaxis chamber. Chemokine concentrations ranging from 1-1000 ng/mL were used. Differences in chemotactic potency existed among the seven neutrophil specific chemokines. Specifically, at 100 ng/mL, the order was IL-8/CXCL8>GRO-alpha/CXCL1>GCP-2/CXCL6>NAP-2/CXCL7>ENA-78/CXCL5>GRO-gamma/CXCL2>GRO-beta/CXCL3. This pattern was observed for adult and neonatal neutrophils. We conclude that (1) neutrophils from cord blood exhibit the same pattern of potency for each ELR chemokine as neutrophils from adults, and (2) migration of neonatal neutrophils is significantly less than that of adults at every concentration examined except the lowest (1 ng/mL).     

Isolation, characterization, and amino-terminal amino acid sequence analysis of human neutrophil cathepsin G from normal donors

Human neutrophil cathepsin G from normal donors has been purified 82-fold using an isolation procedure which included sequential sodium chloride extraction, Aprotonin-Sepharose affinity chromatography, CM-cellulose ion-exchange chromatography, and AcA44 gel filtration chromatography. The inclusion of this last purification step was crucial for separating inactive lower molecular weight species from the active forms of neutrophil cathepsin G and resulted in a higher specific activity of the final preparation. SDS polyacrylamide gradient gel electrophoresis of the purified reduced protein demonstrated three discrete polypeptides of Mr 31,000, 30,000, and 29,500. Peptide analysis of tryptic digests indicated that these three polypeptides are structurally related to each other and represent microheterogeneity of the purified protein. The cathepsin G peptide maps were distinctly different from the peptide maps of neutrophil elastase. The apparent isoelectric points of these forms as determined by two-dimensional electrophoresis was approximately 8.0. Utilizing microsequencing techniques, the first 25 residues of normal neutrophil cathepsin G have been determined and shown to be identical (except for residue 11) with the sequence of 21 residues of cathepsin G isolated from leukemic myeloid cells. A high degree of homology was found when the amino-terminal regions of neutrophil cathepsin G, rat mast cell protease II (65%) and two human serine proteinases, factor D (52%) and neutrophil elastase (48%), were compared. A precipitating monospecific antiserum to cathepsin G was produced by repeated immunizations of guinea pigs. This antiserum has been used in immunoblotting experiments to demonstrate that the intracellular form(s) of this enzyme is the same approximate Mr as the purified enzyme, and to develop a solid-phase radioimmunoassay for measuring neutrophil cathepsin G in the range 5-50 ng/ml.     

直组人嗜中性白细胞活化蛋白-1/白细胞介素-8的纯化与鉴定

本文利用SDS-PAGE及蛋白质电泳印迹技术,从带有相应表达质粒的重组大肠杆菌裂解液中,将所表达的重组人嗜中性白细胞活化蛋白-1/白细胞介素-8(NAP-1/IL-8)转移至聚偏二氟乙烯膜上,直接进行N-末端15个氨基酸的序列分析,从而确证该目标蛋白得到高效表达和正确加工。随后采用Bio-Gel P30凝胶过滤层析和Mono-S阳离子交换层析对重组人NAP-1/IL-8进行了分离纯化,纯化产品达到SDS-PAGE纯。利用琼脂糖平板法测定了纯化产品的嗜中性白细胞趋化活性,推算其比活为2.8×10~5U/mg蛋白。又利用SDS-PAGE测出重组NAP-1/IL-8的分子量约为8.5kD,但根据凝胶过滤层析的洗脱时间推定,在溶液中确实存在分子量稍大于14.4kD的NAP-1/IL-8二聚体。     

Binding of neutrophil attractant/activation protein-1 (interleukin 8) to resident dermal cells.

Putative tissue receptors for leukocyte attractants, including neutrophil attractant/activation protein-1 (interleukin 8, NAP-1/IL-8), have been implicated in the regulation of neutrophil emigration into the tissues. An in-situ binding assay and an ex-vivo autoradiographic approach were used to investigate the binding of radiolabeled NAP-1/IL-8 to human and animal skin. These methods revealed the presence of saturable NAP-1/IL-8-binding sites on the endothelial cells of venules and veins but not arteries or capillaries of the dermis. In addition, the binding of NAP-1/IL-8 to dermal macrophages and perivascular mast cells was observed. We suggest that the NAP-1/IL-8-binding sites described here could be involved in the regulation of NAP-1/IL-8-induced neutrophil emigration.     

Purification and partial biochemical characterization of a human monocyte-derived, neutrophil-activating peptide that lacks interleukin 1 activity

A novel monocyte-derived neutrophil-activating peptide (MONAP) produced by lipopolysaccharide- and phorbol myristate acetate-stimulated human peripheral blood monocytes was purified by sequential ion exchange-high performance liquid chromatography (HPLC), size exclusion HPLC, and reversed phase HPLC. Biologic activities of the purified cytokine were monitored by either an enzyme release assay or a chemotaxis assay, using peripheral human neutrophils. Purified MONAP was found to be homogeneous, giving a single peak on size-exclusion HPLC, reversed-phase HPLC, as well as a single 10-kDa band on silver-stained polyacrylamide gels. Purified MONAP stimulate human neutrophil chemotaxis at an estimated molarity of 5 x 10(-11) M. Half-maximal enzyme release of cytochalasin B pretreated neutrophils occurred at 2 to 3 x 10(-10) M, whereas superoxide anion production elicited by various concentrations of MONAP was found to be low. Isolated human peripheral monocytes, as well as human eosinophils, showed no chemotactic response to MONAP, indicating neutrophil specificity. MONAP activity was separated from thymocyte-stimulating activity by reversed-phase HPLC, indicating nonidentity with interleukin (IL)-1. This was further supported by heat resistance of MONAP, which is in contrast to the heat sensitivity of IL-1. In addition, IL-1 obtained as a by-product during isolation of MONAP did not stimulate human neutrophil chemotaxis.     

Purification and identification of 91-kDa neutrophil gelatinase. Release by the activating peptide interleukin-8.

Human neutrophils were found to release a 91-kDa gelatinase that is serologically related to tumor-derived gelatinolytic enzymes, as evidenced by immunoprecipitation. In order to identify the neutrophil gelatinase, the activity in conditioned medium from human neutrophil suspensions was purified by affinity chromatography on a gelatin substrate. The 91-kDa active enzyme was further separated from other stainable protein bands by classical SDS PAGE and blotting to a solid support. Amino-terminal sequence analysis of blotted proteins showed that the 91-kDa enzyme is a truncated form of tumor-derived 92-kDa gelatinase (type IV collagenase), lacking eight residues at the NH2-terminus. Sequence analysis of enzymatically inactive cleavage products of this neutrophil gelatinase demonstrated that the gelatin-binding part of the molecule is restricted to the amino-terminal third. Exocytosis of gelatinase-containing granules from neutrophils occurred spontaneously within 6 h after neutrophil plating. When the cells were triggered with the phorbol ester phorbol 12-myristate 13-acetate, a strong secretagogue, rapid gelatinase release was observed. When granulocytes were stimulated with the neutrophil-activating peptide interleukin-8, maximal exocytosis occurred within 1 h. The almost immediate release of neutrophil gelatinase after stimulation of the cells with a chemotactic factor might play a key role in remodeling of the extracellular matrix during granulocyte movement in response to chemotactic stimuli.     

Calcium modulation and chemotactic response: divergent stimulation of neutrophil chemotaxis and cytosolic calcium response by the chemotactic peptide receptor

Stimulation of neutrophils by chemoattractants is followed by a rapid, transient rise in cytosolic calcium concentration. The role of calcium in activation of cell movement and related responses was examined by selectively chelating extracellular or both extra- and intracellular calcium. Removal of calcium from the extracellular medium did not alter the cytosolic calcium concentration (Quin 2 fluorescence, 110 to 120 nM) of unstimulated neutrophils and did not dramatically affect the rise induced by formyl peptide. Despite the intact Quin 2 response, depletion of extracellular calcium partially inhibited chemotaxis, adherence to substrate, and polarization (increased forward light scatter) in response to formyl peptide. Loading neutrophils with Quin 2 in the absence of calcium depressed cytosolic Ca2+ to 10 to 20 nM and abrogated a detectable rise with formyl peptide stimulation. Depletion of intracellular calcium further inhibited chemotaxis and polarization, although neutrophils still demonstrated significant directed migration and shape change to formyl peptide (30 to 40% of control) without an increase in Quin 2 fluorescence. Other neutrophil responses related to chemotaxis (decreased right-angle light scatter, actin polymerization) were minimally affected by depletion of calcium from either site. The data indicate that neutrophil chemotaxis and related responses to formyl peptide may be activated by intracellular signals not detectable with Quin 2.     

Recombinant tumor necrosis factor-alpha potentiates neutrophil degranulation in response to host defense cytokines neutrophil-activating peptide 2 and IL-8 by modulating intracellular cyclic AMP levels.

The neutrophil-activating peptide 2 (NAP-2) and IL-8 are closely related in structure and function. In order to further determine their potential biologic roles in inflammation, we studied their interaction with TNF-alpha-primed human polymorphonuclear neutrophil granulocytes at the levels of effector functions and signal transduction. After short term priming (5 min) by TNF-alpha, suspended cytochalasin B-treated PMN responded to NAP-2 or rIL-8 by substantial augmentation of the degranulation response. After priming with 3 ng/ml TNF-alpha marker release from both azurophilic and specific granules was near maximum. NAP-2 and rIL-8 cooperated with TNF-alpha in very similar ways, as indicated by the almost identical increases in release rates that were induced by equipotent doses of either secondary stimulus. At the signal transduction level, pharmacologic elevation of intracellular cAMP led to the inhibition of NAP-2- or rIL-8-induced degranulation in primed and unprimed PMN, indicating a role for this second messenger as a negative feedback signal. Direct measurement of intracellular cAMP revealed that TNF-alpha by itself did not affect its levels. Instead, TNF-alpha reduced both the scale as well as the duration of the cAMP burst generated in response to secondary stimuli NAP-2 or rIL-8. Thus, there is evidence that TNF-alpha priming of neutrophils for enhanced NAP-2- or rIL-8-promoted degranulation involves the antagonistic down-modulation of stimulus-induced rises in cAMP.     

Purification and characterization of human neutrophil peptide 4, a novel member of the defensin family

Primary (azurophil) granules of neutrophils contain proteins which play a major role in the killing and digestion of bacteria in the phagolysosome. We have isolated and characterized a novel antimicrobial peptide from the azurophil granule fraction of discontinuous Percoll gradients. We have named this peptide human neutrophil peptide 4 (HNP-4) based on its structural similarity to a group of antimicrobial polypeptides known as defensins (HNP 1-3). Using size exclusion and reverse-phase high performance liquid chromatography, HNP-4 was purified to homogeneity as judged by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and amino-terminal sequence analysis. The amino acid sequence determined from isolated HNP-4 and from tryptic fragments of reduced and alkylated peptide is: NH2-Val-Cys-Ser-Cys-Arg-Leu-Val-Phe-Cys-Arg-Arg-Thr-Glu- Leu-Arg-Val-Gly-Asn-Cys-Leu-Ile-Gly-Gly-Val-Ser-Phe-Thr-Tyr-Cys-Cys-Thr- Arg-Val - COOH. Based on this sequence, HNP-4 has a calculated molecular weight of 3715 and a theoretical pI of 8.61. HNP-4 shows structural similarity to the family of three human defensins. HNP-4 and the defensins have identical cysteine backbones and, like the defensins, HNP-4 is rich in arginine (15.2 mol %). However, the amino acids at 22 of the 33 positions differ between HNP-4 and human defensins. Further, HNP-4 is significantly more hydrophobic than the defensins, as determined by its retention time on reverse-phase high performance liquid chromatography. In vitro, purified HNP-4 was shown to kill Escherichia coli, Streptococcus faecalis, and Candida albicans. Compared to a mixture of the other human defensins, HNP-4 was found to be approximately 100 times more potent against E. coli and four times more potent against both S. faecalis and C. albicans.     

Differential effects of neutrophil-activating peptide 1/IL-8 and its homologues on leukocyte adhesion and phagocytosis.

Several structural homologues of the chemotactic peptide neutrophil-activating peptide 1/IL-8 (NAP-1/IL-8) were tested for their ability to influence the expression and function of adhesion-promoting receptors on human polymorphonuclear leukocytes (PMN). NAP-2, melanoma growth stimulatory activity, and two forms of NAP-1/IL-8 (ser-NAP-1/IL-8 and ala-NAP-1/IL-8, consisting of 72 and 77 amino acids, respectively), each caused an increase in the expression of CD11b/CD18 (CR3) and CR1, which was accompanied by a decrease in the expression of leukocyte adhesion molecule-1 (LAM-1, LECAM-1). The binding activity of CD11b/CD18 was also enhanced 3- to 10-fold by these peptides, but enhanced function was transient: binding of erythrocytes coated with C3bi reached a maximum by 30 min and declined thereafter. Ser-NAP-1/IL-8, ala-NAP-1/IL-8, NAP-2, and melanoma growth stimulatory activity also caused a two- to threefold enhancement of the phagocytosis of IgG-coated erythrocytes (EIgG) by PMN without causing a large increase in the expression of Fc gamma receptors. Enhanced phagocytosis of EIgG appeared to be mediated through CD11b/CD18, because F(ab')2 fragments of an antibody directed against CD18 inhibited NAP-1/IL-8-stimulated ingestion of EIgG. The four active peptides caused a rapid, transient increase in the amount of F-actin within PMN, indicating that they are capable of influencing the structure of the microfilamentous cytoskeleton, which participates in phagocytosis. Two other NAP-1/IL-8-related peptides, platelet factor 4 and connective tissue-activating peptide III, were without effect on expression of CD11b/CD18, CR1, and LAM-1, binding activity of CD11b/CD18, or Fc-mediated phagocytosis, and increased actin polymerization only slightly. Our observations indicate that several members of the NAP-1/IL-8 family of peptides were capable of promoting integrin-mediated adhesion and Fc-mediated phagocytosis, processes important in the recruitment of PMN to sites of inflammation and antimicrobial responses of PMN.     

Isolation, characterization, and immunological detection of neutrophil-activating peptide 2: a proteolytic degradation product of platelet basic protein.

Neutrophil-activating peptide 2 (NAP-2), corresponding to platelet basic protein fragment 25-94, was prepared by chymotryptic digestion of its precursors, low affinity platelet factor 4 or beta-thromboglobulin, followed by purification by high performance liquid chromatography. NAP-2 (0.1-1.5 microns) caused the release of human granulocyte elastase from cytochalasin B-treated neutrophils in a dose-dependent manner. In the same system, beta-thromboglobulin, human platelet factor 4, S-pyridylethyl NAP-2, and platelet basic protein C-terminal fragment (77-94) were inactive, whereas platelet basic protein fragment 22-89 had low, but significant, activity. Sensitive immunological identification of NAP-2 based on nonequilibrium isoelectric focusing and immunoblotting is described.     

Collagen-binding motif peptide, a cleavage product of osteopontin, stimulates human neutrophil chemotaxis via pertussis toxin-sensitive G protein-mediated signaling

The collagen-binding motif (CBM) peptide, a cleavage product of osteopontin (OPN), stimulated intracellular calcium increase in human neutrophils. CBM peptide-stimulated calcium was inhibited by pertussis toxin (PTX), suggesting the influence of PTX-sensitive G-proteins. In addition CBM peptide stimulated the chemotactic migration of human neutrophils and human monocytes. CBM peptide-induced neutrophil chemotaxis was completely inhibited by PTX, once again indicating the influence of Gi proteins. CBM peptide was also found to induce mitogen activated protein kinase activation. CBM peptide-induced neutrophil chemotaxis was mediated by p38 kinase as well as an extracellular signal-regulated protein kinase. Taken together, the results suggest that a cleavage product of OPN, CBM peptide, initiates immune responses by inducing neutrophil trafficking via certain PTX-sensitive cell surface receptors.     

IL-1 alpha or tumor necrosis factor-alpha stimulate release of three NAP-1/IL-8-related neutrophil chemotactic proteins in human dermal fibroblasts

Human dermal fibroblasts in culture secrete three protein-like neutrophil chemotactic factors, when stimulated either with human rIL-1 alpha or IL-1 beta; not, however, after incubation with LPS. These three fibroblast-derived neutrophil-activating proteins (FINAP) could be purified by subsequently performed reversed phase and size exclusion HPLC. By high resolution SDS-PAGE, all the proteins were shown to migrate with an Mr of 6,700 (alpha-FINAP), 3,600 (beta-FINAP), and 5,300 (gamma-FINAP). All purified cytokine preparations were found to be chemotactic for human neutrophils. In addition, all FINAP induced release of lysosomal enzymes in neutrophils. Deactivation of chemotaxin-elicitable enzyme release showed cross-desensitization of all FINAP with NAP-1/IL-8. Western blot analysis of alpha-FINAP by using mAb against neutrophil-activating protein (NAP)-1/IL-8 reveals immunologic cross-reactivity with NAP-1/IL-8. By amino-terminal amino acid sequence analysis alpha-FINAP could be identified as the 77-residue extended form of NAP-1/IL-8 containing the 79-residue form as a minor contaminant. Whereas beta-FINAP has been found to be a truncation product of alpha-FINAP, gamma-FINAP shows identity with authentic melanoma growth stimulatory activity with respect to retention time upon reversed phase HPLC, high resolution SDS-PAGE, and biologic properties, as well as amino-terminal amino acid sequence. These data show that human dermal fibroblasts may actively participate in inflammatory reactions by secretion of proinflammatory cytokines.     

Interleukin 8, neutrophil-activating peptide-2 and GRO-alpha bind to and elicit cell activation via specific and different amino acid residues of CXCR2

The objective of this investigation was to determine the amino acid residues of the human neutrophil CXC chemokine receptor-2 (CXCR2) that are critical for binding the ligands interleukin 8 (IL-8), neutrophil-activating peptide-2 (NAP-2), and growth-related protein alpha (GROalpha) and critical for receptor-mediated signal transduction. Charged residues of the amino terminus and the first extracellular loop of CXCR2 were targeted for point mutagenesis studies. Seven separate CXCR2 mutants (Glu7, Asp9, Glu12, Asp13, Lys108, Asn110, and Lys120, all to Ala) were generated. Based on the Scatchard analysis of radioligand binding studies, the following amino acids were deemed critical for ligand binding: (i) Asp9, Glu12, Lys108, and Lys120 for IL-8 and (ii) Glu7, Asp9, and Glu12 for GROalpha. Point mutations in the amino terminus domain (Asp9 and Glu12) and the first extracellular loop (Lys108, Asn110, and Lys120) of CXCR2 reduced cell activation to all three ligands as measured by changes in intracellular calcium concentration. In conclusion, high-affinity binding of IL-8, NAP-2, and GROalpha to CXCR2 involves interaction with specific and different amino acid residues of CXCR2. Furthermore, we propose that the CXCR2 amino acid residues required for cell activation are not necessarily the same residues required for ligand binding.     

Purification and amino acid sequence of vasoactive intestinal peptide, peptide histidine isoleucinamide (1-27) and secretin from the small intestine of guinea pig

The neuropeptides vasoactive intestinal peptide (VIP) and peptide histidine isoleucinamide (1-27) (PHI) and the hormone secretin were purified from the small intestine of guinea pig, being detected by radioimmunoassay and radioreceptor assay throughout six to seven chromatographic steps. After elution on a reverse-phase C18 column, the three peptides were separated on a Fractogel column. After cation-exchange chromatography of each peptide on Mono S, the final steps were performed using a reverse-phase RP8-e column. Guinea pig PHI differed from porcine PHI in having Tyr and Arg residues instead of Phe and Lys in, respectively, position 10 and 20. We confirmed the original sequence of guinea pig VIP previously documented (with Leu5, Thr9, Met19 and Val26). We also established the similarity of the primary structure of guinea pig secretin with that of porcine and bovine.