Chemotactic responses of human peripheral blood monocytes to the complement-derived peptides C5a and C5a des Arg

We examined responses of human peripheral blood polymorphonuclear leukocytes (PMN) and monocytes to the highly purified human complement-derived peptides C5a and C5a des Arg. As reported previously, C5a proved to be approximately 10- to 20-fold more potent than C5a des Arg as a chemoattractant for human PMN. C5a also was more potent than C5a des Arg in causing PMN to acquire a polarized morphology. In contrast, we found that human monocytes do not distinguish between C5a and C5a des Arg when these peptides are used as chemoattractants. In two different assay systems, both peptides acted at identical concentrations to stimulate suboptimal and optimal migration of monocytes. Human monocytes also did not distinguish between C5a and C5a des Arg when these peptides were used as inducers of polarization. Studies performed with functionally active, [125I]-labeled C5a and C5a des Arg, however, demonstrated that binding of C5a des Arg to monocytes differed from binding of C5a. Although [125I]-C5a des Arg appeared to bind to the same receptor as [125I]-C5a, binding of labeled C5a des Arg occurred with an affinity that was approximately 100-fold less than that observed with labeled C5a. These results indicate that leukocyte chemotactic and polarization responses to C5a and C5a des Arg vary, depending on the target cell type.     

Specific inhibitor of complement (C5)-derived chemotactic activity in systemic lupus erythematosus related antigenically to the Bb fragment of human factor B

Serum and plasma from patients with active systemic lupus erythematosus contain a specific inhibitor of complement (C5)-derived chemotactic activity. We found that the inhibitor is antigenically related to the Bb fragment of complement factor B. Lupus plasma and purified inhibitor significantly reduced the chemotactic activity of zymosan-treated normal serum, an effect that was abolished by antibodies to factor B. Similar results were obtained when purified Bb was used. Neither purified inhibitor nor Bb inhibited the chemotactic activity of purified human C5a or C5a des Arg. As reported previously, the chemotactic activity of C5a des Arg was enhanced significantly by the addition of an anionic polypeptide (cochemotaxin) present in normal serum and plasma. Interestingly, both purified lupus inhibitor and Bb inhibited the chemotactic activity exhibited by mixtures of C5a des Arg and its cochemotaxin. This effect was due, most likely, to their ability to neutralize the enhancing effect of the cochemotaxin on the chemotactic activity of C5a des Arg. Immunoelectrophoresis and western blots revealed that the purified inhibitor reacted with anti-factor B and exhibited a similar charge and molecular weight as purified Bb.     

C5a induction of human interleukin 1. Synergistic effect with endotoxin or interferon-gamma

Interleukin-1 (IL-1) is a potent cytokine which possesses the ability to mediate systemic acute phase responses as well as local tissue inflammation. In these studies, we have examined the ability of C5a and C5a des Arg to induce IL-1 production in vitro. Human C5a and C5a des Arg were purified to homogeneity and were found to stimulate IL-1 release from freshly obtained human mononuclear cells into the extracellular medium. Only 2 hr of exposure to the purified complement components were necessary in order to stimulate IL-1 production. The minimal concentration of C5a required was 25 ng/ml, whereas 125 ng/ml of C5a des Arg induced comparable amounts of IL-1. This dose relationship was maintained at higher concentrations (150 ng/ml vs 750 ng/ml, respectively). That the effect was due to the anaphylatoxins themselves, and not endotoxin contamination, was shown by negative Limulus amebocyte lysate tests and employing preincubation of C5a/C5a des Arg with polymyxin B. The latter blocked a wide dose range of endotoxin-stimulated IL-1 production. However, when endotoxin was added to C5a or C5a des Arg, significant synergism in the stimulation of IL-1 production was observed, occurring at various concentrations of either agent. A similar synergism with C5a/C5a des Arg was seen with interferon-gamma. In these studies, IL-1 production was measured by bioassay employing cloned D . 10 . G4 . 1 murine T cells and by radioimmunoassay for human IL-1 beta; using C5a/C5a des Arg as stimulants, there was a high degree of correlation (r = 0.82) between the two assays. Since traumatic, infectious, and inflammatory diseases may result in the simultaneous appearance of these stimuli, the synergism described herein is likely to be clinically relevant.     

A direct in vivo comparison of the inflammatory properties of human C5a and C5a des Arg in human skin

C5a is an 11,000-Da complement-derived inflammatory glycoprotein that has been shown to mediate inflammatory reactions in vitro as well as in vivo in human skin. The C5a degradation product, C5a des Arg, is rapidly formed after exposure of C5a to serum carboxypeptidase N and may represent the relevant C5-derived inflammatory peptide in vivo. To examine the biologic activity of human C5a des Arg in vivo and to compare it with that seen with human C5a, we purified and characterized homogeneous preparations of human C5a and C5a des Arg and injected them intradermally into seven normal volunteers. C5a des Arg exhibited biochemical and biologic properties in vitro that were different from those of C5a. When injected into human skin, C5a des Arg was less potent than C5a, in respect to both minimal dose eliciting wheal and flare reactions and maximal wheal and flare elicited at a given dose, but C5a des Arg still elicited cutaneous wheal and flare reactions at physiologically relevant concentrations. Histologically, C5a des Arg skin test sites showed dense polymorphonuclear neutrophil-rich infiltrates associated with leukocytoclasis, dermal mast cell degranulation, and endothelial cell swelling. These were virtually indistinguishable from reactions elicited by C5a and occurred with concentrations attainable in vivo. Cutaneous wheal and flare reactions elicited by either C5a or C5a des Arg were partially inhibited by H1 antihistamines but were unaffected by selected nonsteroidal anti-inflammatory agents.     

Chemotactic factor inactivator interaction with Gc-globulin (vitamin D-binding protein). A mechanism of modulating the chemotactic activity of C5a

Chemotactic factor inactivator (CFI) can decrease the neutrophil chemotactic activity of C5a. Gc-Globulin (GcG) can function as a cochemotaxin for C5a by binding to C5a or C5a des Arg and enhancing its chemotactic potency. We hypothesized that CFI might interact with GcG and thus decrease the chemotactic activity of C5a. CFI was found to markedly inhibit the neutrophil chemotactic activity of partially purified C5a containing GcG (p less than 0.01). Addition of GcG was able to reverse the capacity of CFI to inhibit C5a-directed neutrophil chemotaxis (p less than 0.01). CFI had no significant effect on neutrophil chemotaxis when incubated with C5a depleted of GcG or C5a des Arg. CFI was also able to inhibit the interaction of C5a with GcG adsorbed to plastic. To determine if CFI interacted with GcG, a sandwich ELISA was used. These ELISA tests demonstrated that CFI directly interacted with GcG in a dose-dependent manner that was both heat and pH sensitive. To investigate the possibility of enzymatic degradation of C5a by CFI, CFI preparations were analyzed for carboxypeptidase activity, aminopeptidase activity, and for the capacity to cleave dansylated C5a. No enzymatic activity or cleavage was observed. Furthermore, the direct interaction of CFI with C5a and C5a des Arg was assessed by ELISA tests and column chromatography and no interaction was observed. These results suggest that CFI modulates C5a-directed neutrophil chemotaxis by interacting with GcG and preventing GcG from enhancing the chemotactic potency of C5a.     

Platelet-derived thrombospondin-1 is necessary for the vitamin D-binding protein (Gc-globulin) to function as a chemotactic cofactor for C5a

The chemotactic activity of C5a and C5a des Arg can be enhanced significantly by the vitamin D-binding protein (DBP), also known as Gc-globulin. DBP is a multifunctional 56-kDa plasma protein that binds and transports several diverse ligands. The objective of this study was to investigate the mechanisms by which DBP functions as a chemotactic cofactor for C5a using neutrophils and U937 cells transfected with the C5aR (U937-C5aR cells). The results demonstrate that U937-C5aR cells show C5a chemotactic enhancement only to DBP in serum, but, unlike mature neutrophils, this cell line cannot respond to DBP in plasma or to purified DBP. Analysis by SDS-PAGE and isoelectric focusing revealed no structural difference between DBP in serum compared with DBP in plasma. However, plasma supplemented with either serum, DBP-depleted serum, or activated platelet releasate provides a required factor and permits DBP to function as a chemotactic cofactor for C5a. Fractionation of activated platelet releasate revealed that the additional factor possessed the properties of thrombospondin-1 (TSP-1). Finally, purified TSP-1 alone could reproduce the effect of serum or platelet releasate, whereas Abs to TSP-1 could block these effects. These results provide clear evidence that TSP-1 is needed for DBP to function as a chemotactic cofactor for C5a.     

Brain-derived growth factor is a chemoattractant for fibroblasts and astroglial cells

Bovine brain-derived growth factor (BDGF), a 16-17 kDa protein with biochemical properties resembling brain-derived acidic fibroblast growth factor (acidic FGF) and endothelial cell growth factor, was found to have potent chemotactic activity for bovine ligament fibroblasts, human skin fibroblasts and rat astroglial cells, maximal at 100-200 pg/ml. The chemotactic activity was completely blocked by protamine sulfate (5 ug/ml), an inhibitor of receptor-binding and mitogenic activity of BDGF. BDGF did not stimulate migration of human monocytes. These results indicate that the effects of BDGF 'in vivo' might extend to mesenchymal cell recruitment.     

Appearance of chemotactic responsiveness to elastin peptides by developing fetal bovine ligament fibroblasts parallels the onset of elastin production

We studied chemotaxis to elastin peptides by bovine ligamentum nuchae fibroblasts to determine whether there is a developmental association between chemotactic responsiveness to elastin and expression of the elastin phenotype. Undifferentiated ligament cells demonstrate chemotactic responsiveness to platelet-derived growth factor and fibronectin, known chemoattractants for fibroblasts, but do not show chemotaxis to elastin peptides. After matrix-induced differentiation, however, young cells display a positive chemotactic response to elastin that persists even after the cells are removed from the matrix substratum. Matrix-induced chemotaxis to elastin could be inhibited selectively by incorporation of bromodeoxyuridine into DNA of undifferentiated cells before (but not after) contact with inducing matrix. These results show that the appearance of chemotaxis to elastin peptides parallels the onset of elastin synthesis and suggests that the acquisition of chemotactic responsiveness to elastin and expression of the elastin phenotype are affected by the same inducing elements or processes and may be closely coupled in development.     

Fibroblast stimulation in schistosomiasis. IV. Isolated egg granulomas elaborate a fibroblast chemoattractant in vitro

Hepatic fibrosis complicates the chronic granulomatous inflammatory reaction to Schistosoma mansoni eggs, and is the major cause of morbidity and mortality in human schistosomiasis. We previously presented evidence that schistosomal egg granulomas secreted factors that can stimulate fibroblast proliferation and collagen synthesis in vitro. We now report that serum-free supernatants from cultures of hepatic egg granulomas isolated from S. mansoni-infected mice contained activity that stimulated the directional migration of human and guinea pig dermal fibroblasts in modified Boyden chambers. This fibroblast chemotactic activity was also detected in culture supernatants of granuloma adherent cells highly enriched for macrophages (95% latex-ingesting) but not in culture supernatants from resident peritoneal macrophages of uninfected or infected mice. This suggests that granuloma macrophages are a source of the chemotactic activity. The chemoattractant had the properties of large molecular weight (greater than 200,000 daltons; Sephadex G-200 gel filtration), pl approximately 4.5 (preparative flatbed isoelectrofocusing in granular matrix), heat stability (56 degrees C; 45 min), and trypsin sensitivity. Since preincubation of the partially purified granuloma and adherent-cell derived chemoattractants with rabbit anti-human fibronectin antibody abolished their chemotactic activity, it appears that the factor is antigenically similar to fibronectin. We propose that egg granuloma macrophages are activated in vivo to secrete a fibronectin-like molecule with activity that stimulates the directional migration of fibroblasts. This factor may therefore play a role in the local recruitment of fibroblasts and, in concert with other granuloma-derived factors, may play an important role in the pathogenesis of hepatic fibrosis in schistosomiasis.     

Role of a guanine nucleotide regulatory protein in the activation of phospholipase C by different chemoattractants

It is well established that formyl peptide chemoattractants can activate a phospholipase C in leukocytes via a pertussis toxin (PT)-sensitive guanine nucleotide regulatory (G) protein. Whether this pathway is similarly used by chemoattractant receptors as a class has been unclear. We now report that lipid and peptide chemoattractants in direct comparative studies induced similar amounts of initial (less than or equal to 15 sec) inositol trisphosphate (IP3) release in human polymorphonuclear leukocytes, but the response to lipid chemoattractants was more transient. Production of IP3 by all chemotactic factors was inhibited by treatment of the cells with PT, indicating that chemotactic factor receptors as a class are coupled to phospholipase C via a G protein that is a substrate for ADP ribosylation by PT. The peptide and lipid factors had comparable chemotactic activity, which was also inhibitable by PT. However, transient activation of phospholipase C is apparently an insufficient signal for full cellular activation, since the lipid chemotactic factor leukotriene B4 and platelet-activating factor were poor stimuli for O2- production and lysosomal enzyme secretion compared with N-formyl-methionyl-leucyl-phenylalanine (fMet-Leu-Phe). Nonetheless, treatment with PT inhibited O2- production and enzyme secretion in response to all chemoattractants, but as previously noted, did not affect Ca2+ ionophores, lectins, or phorbol myristate acetate. Formyl peptide and lipid chemotactic factors induced similar levels of Ca2+ mobilization when monitored by Quin 2 or chlortetracycline (CTC) fluorescence. Although these responses to fMet-Leu-Phe were blocked by PT, the Quin 2 and initial CTC response to the lipid factors were only partially susceptible. Thus, the lipid factors apparently utilize an additional PT-resistant mechanism for redistributing intracellular Ca2+. This latter process requires extracellular Ca2+ and may be independent of the PT-sensitive G protein.     

Structure-function relationships of human C5a and C5aR

Using peptides that represent linear regions of the powerful complement activation product, C5a, or loops that connect the four alpha helices of C5a, we have defined the ability of these peptides to reduce binding of (125)I-C5a to human neutrophils, inhibit chemotactic responses of neutrophils to C5a, and reduce H(2)O(2) production in neutrophils stimulated with PMA. The data have defined likely sites of interaction of C5a with C5aR. The peptides had no functional activity per se on neutrophils and did not interfere with neutrophil responses to the unrelated chemotactic peptide, N-formyl-Met-Leu-Phe. Although previous data have suggested that there are two separate sites on C5a reactive with C5aR, the current data suggest that C5a interacts with C5aR in a manner that engages three discontinuous regions of C5a.     

Production of C5a antagonist by synovial and peritoneal tissue fibroblasts

Fibroblasts grown from synovial and peritoneal tissues release into the medium an inhibitor of neutrophil chemotaxis. The inhibitor resembles the antagonist previously described in synovial and peritoneal fluids. It is a heat stable (56 degrees C) protein of MW approximately 40 kDa that counteracts the chemotactic activity of zymosan-activated serum or purified C5a but not the peptide chemoattractant F-met-leu-phe. No chemotactic inhibitor was detected in media from skin fibroblast cultures or in formal human sera. It is suggested that the inhibitor is produced locally by synovial and peritoneal fibroblasts and that it might play a role in the regulation of inflammation at sites lined with mesothelium.     

Chemotactic peptides modulate adherence of human polymorphonuclear leukocytes to monolayers of cultured endothelial cells

We have used a new centrifugation assay to examine the effects of highly purified human C5a and C5a des Arg, as well as effects of N-formyl-methionyl-leucyl-phenylalanine (FMLP), on both the extent and strength of human polymorphonuclear leukocyte (PMN) adherence to monolayers of cultured human umbilical vein endothelial cells. At concentrations that were chemotactic for PMN, C5a (0.1 nM), C5a des Arg (5.0 nM), and FMLP (1.0 nM) significantly reduced the percentage of PMN that adhered to endothelial monolayers. Adherence also was reduced by C5a des Arg that was generated by incubating (37 degrees C, 30 min) fresh human serum with either zymosan or purified C5a. High concentrations of C5a (greater than 1.0 nM) and FMLP (greater than 50 nM) that diminished PMN chemotaxis significantly enhanced the percentage of PMN that adhered tightly to endothelial cells (adherent cells resisted a dislodgment force of 1200 X G). Tight adherence of PMN to endothelial cells also was increased by high concentrations of C5a that were added to human serum in which carboxypeptidase N activity was destroyed by heating (56 degrees C, 30 min), and by C5a that was generated by incubating (37 degrees C, 30 min) fresh human serum with zymosan in the presence of the carboxypeptidase N inhibitor, epsilon-aminocaproic acid. High concentrations of C5a des Arg (up to 80 nM) neither enhanced adherence of PMN to endothelial cells nor decreased PMN migration. Thus, a reciprocal relation exists between PMN migration and PMN adherence to endothelial cells in response to chemotactic factors. At concentrations that are chemotactic for human PMN, C5-derived peptides and FMLP reduce the adherence of PMN to endothelial monolayers. Only at concentrations that decrease PMN migration do C5a and FMLP augment PMN adherence.     

Receptor activation by human C5a des Arg74 but not intact C5a is dependent on an interaction between Glu199 of the receptor and Lys68 of the ligand.

Despite the expression of only one type of receptor, there is great variation in the ability of different cell types to discriminate between C5a and its more stable metabolite, C5a des Arg74. The mechanism that underlies this phenomenon is not understood but presumably involves differences in the interaction with the C5a receptor. In this paper, we have analyzed the effects of a substitution mutation of the receptor (Glu199 --> Lys199) and the corresponding reciprocal mutants (Lys68 --> Glu68) of C5a, C5a des Arg74 and peptide analogues of the C-terminus of C5a on the ability of the C5a receptor to discriminate between ligands with and without Arg74. The use of these mutants indicates that the Lys68/Glu199 interaction is essential for activation of receptor by C5a des Arg74 but not for activation by intact C5a. The substitution of Asp for Arg74 of C5a [Lys68] produces a ligand with equal potency on both the wild-type and mutant receptors, suggesting that it is the C-terminal carboxyl group rather than the side chain of Arg74 that controls the responsiveness of the receptor to Lys68. In contrast, the mutation of Lys68 to Glu(68) has little effect on the ability of either C5a or C5a des Arg(74) to displace [(125)I]C5a from the receptors, indicating that binding of ligand and receptor activation are distinct but interdependent events. C5a and the truncated ligand, C5a des Arg74, appear to have different modes of interaction with the receptor and the ability of the human C5a receptor to discriminate between these ligands is at least partly dependent on an interaction with the receptor residue, Glu199.     

The role of the N-terminal domain of the complement fragment receptor C5L2 in ligand binding

C5L2 is a new cellular receptor found to interact with the human anaphylatoxins complement factor C5a and its C-terminal cleavage product C5a des Arg. The classical human C5a receptor (C5aR) preferentially binds C5a, with a 10-100-fold lower affinity for C5a des Arg. In contrast, C5L2 binds both ligands with nearly equal affinity. C5aR presents acidic and tyrosine residues in its N terminus that interact with the core of C5a while a hydrophobic pocket formed by the transmembrane helices interacts with residues in the C terminus of C5a. Here, we have investigated the molecular basis for the increased affinity of C5L2 for C5a des Arg. Rat and mouse C5L2 preferentially bound C5a des Arg, whereas rodent C5aR showed much higher affinity for intact C5a. Effective peptidic and non-peptidic ligands for the transmembrane hydrophobic pocket of C5aR were poor inhibitors of ligand binding to C5L2. An antibody raised against the N terminus of human C5L2 did not affect the binding of C5a to C5L2 but did inhibit C5a des Arg binding. A chimeric C5L2, containing the N terminus of C5aR, had little effect on the affinity for C5a des Arg. Mutation of acidic and tyrosine residues in the N terminus of human C5L2 revealed that 3 residues were critical for C5a des Arg binding but had little involvement in C5a binding. C5L2 thus appears to bind C5a and C5a des Arg by different mechanisms, and, unlike C5aR, C5L2 uses critical residues in its N-terminal domain for binding only to C5a des Arg.     

Platelet-derived growth factor in chemotactic for fibroblasts

Chemotaxis assays in modified Boyden chambers were used to detect fibroblast chemoattractants in materials released from early-stage inflammatory cells, namely, mast cells, platelets, and neutrophils. Strong attractant activity was found in substances released from platelets. This activity was accounted for mainly by the platelet- derived growth factor (PDGF), which is released from the platelets and which was active as a chemoattractant at 0.5-1.0 mitogenic units/ml. The mitogenic activity of purified PDGF, measured by [3H]thymidine incorporation, occurs at a similar concentration range. By varying the gradient of PDGF, we demonstrated that PDGF stimulates chemotaxis rather than random motility. Preincubation of suspensions of fibroblasts in the presence of PDGF decreased the subsequent migration of cells to a gradient of PDGF as well as to a gradient of fibronectin, which is also in attractant for fibroblasts. The chemotactic response of fibroblasts to PDGF was not inhibited by hydroxyurea or azidocytidine but was inhibited by actinomycin D and cycloheximide, suggesting that synthesis of RNA and proteins but not of DNA is required for the chemotactic response to occur. Fibroblast growth factor, epidermal growth factor, nerve growth factor, and insulin were not chemotactic for human skin fibroblasts, suggesting that the chemoattractant activity of PDGF for fibroblasts is not a general property of growth factors and mitogens. These results suggest that PDGF could have two functions in wound healing: to attract fibroblasts to migrate into the clot and then to induce their proliferation.     

Human T cells express the C5a receptor and are chemoattracted to C5a

The anaphylatoxin C5a is a potent mediator of inflammation that exerts a broad range of activity on cells of the myeloid lineage. In this study, we present the first evidence that human T cells express the C5a receptor (C5aR) and are chemotactic to C5a. Using FACS analysis, we found that the C5aR was expressed at a low basal level on unstimulated T cells and was strikingly up-regulated upon PHA stimulation in a time- and dose-dependent manner. CD3+ sorted T cells as well as Jurkat T cells were shown to express C5aR mRNA as assessed by RT-PCR. Moreover, semiquantitative RT-PCR analysis demonstrated that C5aR mRNA was down-regulated in purified T cells upon long-term PHA stimulation. To demonstrate that C5a was biologically active on T cells, we investigated the chemotactic activity of C5a and observed that purified CD3+ T cells are chemotactic to C5a at nanomolar concentrations. Finally, using a combination of in situ hybridization and immunohistochemistry, we showed that the T cells infiltrating the central nervous system during experimental allergic encephalomyelitis express the C5aR mRNA. In summary, these results suggest that C5a exerts direct effects on T cells and could be involved in the trafficking of T cells under physiological and pathological conditions, including inflammatory diseases of the central nervous system.     

Purification of the proteinase from group B streptococci that inactivates human C5a

We previously reported that group B streptococci (GBS) possess a cell-associated activity that inactivates the chemotactic activity generated in zymosan-activated serum by cleaving a specific site within the carboxy termini of C5a and C5adesarg. This inactivates the major chemoattractants for neutrophils that are generated when serum complement is activated. We now report the isolation of the enzyme responsible for the proteolytic cleavage of C5a. Treatment of GBS with mutanolysin, an endo-N-acetyl muramidase, released activity from GBS which destroyed the functional activity of C5a. The soluble activity was purified to homogeneity by hydroxyapatite, ion-exchange and gel-filtration chromatography. Analysis by SDS-PAGE showed that the enzyme (GBS C5a-ase) has an Mr of approx. 120,000. The GBS C5a-ase appears to be a serine esterase on the basis of its sensitivity to di-isopropyl fluorophosphate. This enzyme is distinct from the C5a-cleaving enzyme produced by group A streptococci, since the two bacterial products migrate differently on SDS-PAGE, and lack antigenic cross reactivity. This enzyme may play a role in the pathogenesis of group B streptococcal disease through its ability to rapidly inactivate the potent neutrophil agonist, C5a, at sites of infection.     

Val-Gly-Val-Ala-Pro-Gly, a repeating peptide in elastin, is chemotactic for fibroblasts and monocytes

Recent studies have demonstrated that tropoelastin and elastin-derived peptides are chemotactic for fibroblasts and monocytes. To identify the chemotactic sites on elastin, we examined the chemotactic activity of Val-Gly-Val-Ala-Pro-Gly (VGVAPG), a repeating peptide in tropoelastin. We observed that VGVAPG was chemotactic for fibroblasts and monocytes, with optimal activity at approximately 10(-8) M, and that the chemotactic activity of VGVAPG was substantial (half or greater) relative to the maximum responses to other chemotactic factors such as platelet-derived growth factor for fibroblasts and formyl-methionyl-leucyl-phenylalanine for monocytes. The possibility that at least part of the chemotactic activity in tropoelastin and elastin peptides is contained in VGVAPG sequences was supported by the following: (a) polyclonal antibody to bovine elastin selectively blocked the fibroblast and monocyte chemotactic activity of both elastin-derived peptides and VGVAPG; (b) monocyte chemotaxis to VGVAPG was selectively blocked by preexposing the cells to elastin peptides; and (c) undifferentiated (nonelastin producing) bovine ligament fibroblasts, capable of chemotaxis to platelet-derived growth factor, did not show chemotactic responsiveness to either VGVAPG or elastin peptides until after matrix-induced differentiation and the onset of elastin synthesis. These studies suggest that small synthetic peptides may be able to reproduce the chemotactic activity associated with elastin-derived peptides and tropoelastin.