Heterogeneity in the responses of human lung mast cells to stem cell factor.

BACKGROUND: Stem cell factor (SCF) is a growth factor that is involved in mast cell differentiation and proliferation. SCF primes human lung mast cells for enhanced responses to IgE-directed activation but is not generally recognized as a direct activator. SCF mediates its effects through c-kit. OBJECTIVE: The aim of this study was to reappraise the effects of SCF on human lung mast cells. METHODS: Mast cells were isolated from human lung. Mast cells were challenged with anti-IgE or SCF and the generation of histamine, cysteinyl-leukotrienes (cys-LTs) and prostaglandin D(2) (PGD(2) ) was assessed as was expression of the activation marker, CD63. The effects of c-kit inhibitors on mediator release were evaluated. RESULTS: Stem cell factor (10 ng/mL) alone was unable to induce mediator release but primed mast cells for enhanced IgE-dependent secretion. At higher concentrations (≥ 30 ng/mL), SCF had more varied effects and even when used alone was able to drive substantial levels of histamine release in about a third of all preparations studied. Similarly, SCF (100 ng/mL) alone was effective in stimulating the generation of cys-LTs in half of the preparations studied. SCF (100 ng/mL) was even more effective at stimulating PGD(2) generation as almost all preparations generated substantial quantities of the prostanoid. Mediator release induced by SCF was accompanied by the up-regulation of the activation marker, CD63. There was a positive correlation between the extent of mediator release induced by SCF and c-kit receptor expression. The effects of SCF on mediator release from mast cells were reversed by the c-kit inhibitor imatinib. CONCLUSIONS AND CLINICAL RELEVANCE: These data demonstrate that the responses of mast cells to SCF are heterogeneous. SCF can drive much greater levels of mediator release from mast cells, especially of PGD(2), than hitherto appreciated and this could be important in the context of respiratory diseases.

Embryonic stem cells and prospects for their use in regenerative medicine approaches to motor neurone disease.

Human embryonic stem cells are pluripotent cells with the potential to differentiate into any cell type in the presence of appropriate stimulatory factors and environmental cues. Their broad developmental potential has led to valuable insights into the principles of developmental and cell biology and to the proposed use of human embryonic stem cells or their differentiated progeny in regenerative medicine. This review focuses on the prospects for the use of embryonic stem cells in cell-based therapy for motor neurone disease or amyotrophic lateral sclerosis, a progressive neurodegenerative disease that specifically affects upper and lower motor neurones and leads ultimately to death from respiratory failure. Stem cell-derived motor neurones could conceivably be used to replace the degenerated cells, to provide authentic substrates for drug development and screening and for furthering our understanding of disease mechanisms. However, to reliably and accurately culture motor neurones, the complex pathways by which differentiation occurs in vivo must be understood and reiterated in vitro by embryonic stem cells. Here we discuss the need for new therapeutic strategies in the treatment of motor neurone disease, the developmental processes that result in motor neurone formation in vivo, a number of experimental approaches to motor neurone production in vitro and recent progress in the application of stem cells to the treatment and understanding of motor neurone disease.

Function, structure and therapeutic potential of complement C5a receptors.

Complement fragment (C)5a is a 74 residue pro-inflammatory polypeptide produced during activation of the complement cascade of serum proteins in response to foreign surfaces such as microorganisms and tissue damaged by physical or chemical injury. C5a binds to at least two seven-transmembrane domain receptors, C5aR (C5R1, CD88) and C5L2 (gpr77), expressed ubiquitously on a wide variety of cells but particularly on the surface of immune cells like macrophages, neutrophils and T cells. C5aR is a classical G protein-coupled receptor that signals through G alpha i and G alpha 16, whereas C5L2 does not appear to couple to G proteins and has no known signalling activity. Although C5a was first described as an anaphylatoxin and later as a leukocyte chemoattractant, the widespread expression of C5aR suggested more general functionality. Our understanding of the physiology of C5a has improved significantly in recent years through exploitation of receptor knockout and knocking mice, C5 and C5a antibodies, soluble recombinant C5a and C5a analogues and newly developed receptor antagonists. C5a is now also implicated in non-immunological functions associated with developmental biology, CNS development and neurodegeneration, tissue regeneration, and haematopoiesis. Combined receptor mutagenesis, molecular modelling, structure-activity relationship studies and species dependence for ligand potency on C5aR have been helpful for identifying ligand binding sites on the receptor and for defining mechanisms of receptor activation and inactivation. This review will highlight major developments in C5a receptor research that support C5aR as an important therapeutic target. The intriguing possibilities raised by the existence of a non-signalling C5a receptor are also discussed.

Clusters of meningococcal disease in school and preschool settings in England and Wales: what is the risk?

AIMS: To assess the risk of further cases in educational settings in order to inform policy on managing cases and clusters of meningococcal disease. METHODS: Between 1 April 1995 and 31 March 2001, surveillance in preschool and school settings in England and Wales identified 114 clusters of meningococcal disease. Twenty clusters were reported in preschool settings, 43 in primary, 46 in secondary, and five in independent schools. Seventy three clusters (64%) consisted of two or more confirmed cases, of which 30 had two or more serogroup C cases. Following the introduction of the national meningococcal serogroup C vaccination programme in 1999, no serogroup C clusters were observed between April 2000 and March 2001. RESULTS: The relative risk of further cases in the four weeks after a single case compared with the background rate was raised in all settings, ranging from RR 27.6 (95% CI 15.2 to 39.9) in preschool settings to RR 3.6 (95% CI 2.5 to 4.6) in secondary schools. Absolute risk estimates ranged from 70/100 000 in preschool settings to 3.0/100 000 in secondary schools. The relative risk of clustering was similar for serogroup B and C strains. Most (68%) second cases occurred within seven days of the first case. CONCLUSIONS: Although there was a higher risk of further cases of meningococcal disease in schools and especially in preschool settings, it is not known whether widespread antibiotic use after single cases reduces risk of further cases and if there is a real risk of harm. Evidence of risk reduction is needed to inform public health policy.

Risk factors for drug resistant tuberculosis in Leicestershire--poor adherence to treatment remains an important cause of resistance.

In the light of rising numbers of tuberculosis (TB) cases in the United Kingdom, the problem of anti-tubercular drug resistance remains a significant concern. Drug resistant TB cases are more difficult and costly to treat, and require appropriate treatment and control mechanisms. This matched case control study aimed to investigate risk factors for resistance in Leicestershire, using data for laboratory isolates of Mycobacterium tuberculosis identified from 1993 to 1998. Each case, defined as culture positive laboratory isolates resistant to at least one first-line drug, was matched to four fully sensitive controls on age, sex and ethnic group. Twenty-three cases and 81 controls were included in the analysis. Drug resistance in Leicestershire was found to be associated with poor adherence to treatment (OR 4.8, 95% CI 1.6-14.4, P=0.005) and with previous TB (OR 3.7, 95% CI 1.2-11.8, P=0.022). These findings emphasize the need to provide support to patients taking treatment in order to maximize adherence.

Tc-99m-labeled C5a and C5a des Arg74 for infection imaging.

UNLABELLED: The complement anaphylatoxin C5a and its natural metabolite C5a des Arg(74) (C5adR) are involved in several stages of the inflammatory process. Both act on a common receptor expressed on different cell types, including neutrophils and monocytes. The receptor binding affinity of C5a is in the nanomolar range and exceeds that of C5adR by 1-2 orders of magnitude. The biologic potency of C5a is considerably higher than that of C5adR. Here we tested both proteins labeled with (99m)Tc for imaging of infection. METHODS: The proteins were labeled with (99m)Tc via the hydrazinonicotinamide (HYNIC) chelator. The preparations were tested for imaging of infection in a rabbit model of intramuscular infection. Biodistribution of the radiolabel was determined by gamma-camera imaging and by counting dissected tissues at 5 h p.i. RESULTS: C5a and C5adR showed in vivo abscess uptakes of 0.12 and 0.025%ID/g, abscess/muscle ratios of 76 and 14, abscess/blood ratios of 9.1 and 2.6, and ROI derived target-to-background ratios of 5.9 and 2.1, respectively at 5 h p.i. CONCLUSION: For infection imaging (99m)Tc-labeled C5a showed excellent in vivo characteristics. However, C5a is a very bioactive protein, impeding its clinical use as an infection imaging agent. The naturally occurring partial agonist C5adR has less biological effect but showed suboptimal imaging characteristics. The present study showed that for adequate localization of a receptor binding ligand affinities for the receptor in the nanomolar range are required.

Mapping the ligand-binding site on the C5a receptor: arginine74 of C5a contacts aspartate282 of the C5a receptor.

The interaction between the anaphylatoxin C5a and its receptor involves two distinct sites. One site is formed by acidic residues at the receptor N-terminus and contributes to only ligand binding. The second site, responsible for activation, is less well defined. In this study, we demonstrate that the receptor residue D(282), near the extracellular face of transmembrane domain VII, is a component of the second ligand-binding site. Mutation of D(282) to A decreases the sensitivity of the receptor to activation by intact C5a but not by its less potent metabolite, C5adR(74), which lacks the C-terminal arginine(74). The mutation of the R(74) residue of C5a to A causes a 60-fold decrease in wild-type receptor sensitivity, but only a 2-fold decrease for the receptor mutated at D(282). In contrast, the mutation of R(74) to D makes C5a completely inactive on both wild-type and A(282) C5a receptors. The mutation of D(282) to R partly restores the response to C5a[D(74)], which is a more effective ligand than C5a at the mutant receptor. A peptide mimic of the C5a activation domain with a C-terminal R potently activates the wild type but is only a weak agonist at the mutant D(282)R-C5a receptor. Conversely, a peptide with D at the C-terminus is a more effective activator of D(282)R than wild-type C5a receptors. These data indicate that the R(74) side chain of C5a makes an interaction with receptor D(282) that is responsible for the higher potency of intact C5a versus that of C5adR(74).

Species dependence for binding of small molecule agonist and antagonists to the C5a receptor on polymorphonuclear leukocytes.

This study investigated the receptor binding affinities of a C5a agonist and cyclic antagonists for polymorphonuclear leukocytes (PMNs) isolated from human, sheep, pig, dog, rabbit, guinea pig, rat and mouse. The affinities of the two small molecule antagonists, F-[OPdChaWR] and AcF-[OPdChaWR], and the agonist, YSFKPMPLaR, revealed large differences in C5a receptor (C5aR) affinities between species. The antagonists bound to human, rat and dog PMNs with similar high affinities, but with lower affinities to PMNs from all other species. The C5a agonist also bound with varying affinities between species, but showed a different affinity profile to the antagonists. In contrast, recombinant human C5a had similar affinity for PMNs of all species investigated. The low correlation between the affinities of the antagonists and the agonist between species either suggests that different receptor residues are important for distinguishing between agonist/antagonist binding, or that the agonist and antagonist peptides bind to two distinct sites within the C5aR.

Selection of novel ligands from a whole-molecule randomly mutated C5a library.

Novel antagonists of the proinflammatory leukocyte chemoattractant C5a have been produced from a phage display library of whole-molecule random mutants. The cDNA for the inflammatory polypeptide C5adR(74) was used as template in a PCR reaction doped with the mutagenic nucleoside triphosphates dPTP [dP: 6-(2-deoxy-beta-D-ribofuranosyl)-3,4-dihydro-8H-pyrimido-[4,5-c][1,2]oxazin-7-one] and 8-oxodGTP (8-oxodG: 8-oxo-2'-deoxyguanosine) to allow the introduction of mutations in a highly controlled manner throughout the cDNA. The resultant library of mutants was displayed on bacteriophage M13 using a jun/fos linker sequence. Functional polypeptides were isolated by several rounds of selection against the receptor for C5a expressed on the surface of CHO cells. From this selection procedure, a limited number of variants of C5adR(74) were obtained. When expressed as free polypeptide, the binding affinities of the selected C5adR(74) sequences were increased 5-fold relative to wild-type protein. Site-directed mutagenesis of the C-terminus of these variants resulted in the production of antagonists of C5adR(74) activity.

Risk factors for meningococcal disease in university halls of residence.

A retrospective ecological study was undertaken to identify social and environmental factors associated with increased incidence of meningococcal disease in university halls of residence. A standardized questionnaire was sent to UK universities and colleges of higher education outside London, for distribution to halls containing at least 50 students. Incidence rate ratios of invasive meningococcal disease were obtained for a range of social and environmental variables. Multi-variable Poisson regression analysis identified 3 factors as having a strong association: a high proportion of first year undergraduate residents (P = 0.0008), decreasing smokiness of the hall bar (P < 0.0001), and opening of hall bar before 1990 (P = 0.0001). The inverse relationship between disease incidence and smokiness of bars was an unexpected finding, and may be due to confounding factors. Universities should continue to promote awareness of meningococcal disease, encourage vaccination of first year students against serogroup C disease, and where appropriate, take measures to reduce overcrowding.

Modulation of ligand selectivity by mutation of the first extracellular loop of the human C5a receptor.

The cyclic C5a receptor antagonist, phenylalanine [L-ornithine-proline-D-cyclohexylalanine-tryptophan-arginine] (F-[OPchaWR]), has approximately 1000-fold less affinity for the C5a receptor (C5aR) on murine polymorphonuclear leukocytes than on human. Analysis of C5aR from different species shows that a possible cause of this difference is the variation in the sequence of the first extracellular loop of the receptor. The mouse receptor contains Y at a position analogous to P(103) in the human receptor, and D at G(105). To test this hypothesis, we expressed human C5aR mutants (P(103)Y, G(105)D and the double mutant, P(103)Y/G(105)D) in RBL-2H3 cells and investigated the effects of these mutations on binding affinity and receptor activation. All three mutant receptors had a higher affinity for human C5a than the wild-type receptor, but showed no significant difference in the ability of F-[OPchaWR] to inhibit human C5a binding. However, all of the mutant receptors had substantially lower affinities for the weak agonist, C5a des Arg(74) (C5adR(74)), and two altered receptors (G(105)D and P(103)Y/G(105)D) had much lower affinities for the C-terminal C5a agonist peptide analogue, L-tyrosine-serine-phenylalanine-lysine-proline-methionine-proline-leucine-D-alanine-arginine (YSFKPMPLaR). Although it is unlikely that differences at these residues are responsible for variations in the potency of F-[OPchaWR] across species, residues in the first extracellular loop are clearly involved in the recognition of both C5a and C5a agonists. The complex effects of mutating these residues on the affinity and response to C5a, C5adR(74), and the peptide analogues provide evidence of different binding modes for these ligands on the C5aR.

Analysis of receptor/ligand interactions using whole-molecule randomly-mutated ligand libraries.

We report a novel method for the analysis of protein ligands using a whole molecule mutagenesis/phage display system. The cDNA for the inflammatory polypeptide C5a was used as template in a PCR reaction doped with mutagenic nucleoside triphosphates (dP and 8-oxo-2'deoxyguanosine (8-oxodG)) to allow introduction of mutations in a highly controlled manner throughout the cDNA. The resultant library of mutants was displayed on the surface of phage and functional polypeptides were selected by several rounds of selection against the cells bearing the receptor for C5a. Following selection only a limited number of residues in C5a were found to be mutated, suggesting that mutations in key residues involved in the maintenance of structure and in receptor binding had been eliminated. The selected C5a sequences had a higher affinity for receptor than wild type phage-C5a conjugates. As this method for analysing the functional characteristics of proteins does not rely on knowledge a priori of structure, it may be useful for affinity maturation or analysis in a wide range of protein ligand/receptor systems.

Antibody cross-linking of human CD9 and the high-affinity immunoglobulin E receptor stimulates secretion from transfected rat basophilic leukaemia cells.

Previous studies have shown that antibody cross-linking of the tetraspanin protein CD9 stimulates the degranulation of platelets and eosinophils, although the mechanism of activation is unclear. In this work we transfected human CD9 into the rat basophilic leukaemia (RBL-2H3) cell line and studied the stimulation of secretion from these cells in response to a panel of anti-CD9 antibodies. Intact immunoglobulin G1 (IgG1) antibodies activated transfected cells whereas F(ab')2 fragments of antibody and an intact IgG2a did not. Stimulation of secretion was inhibited by co-incubation with monomer murine immunoglobulin E (IgE) but not with an IgG1 isotype control, indicating that the response involves the endogenous high-affinity IgE receptor (FcepsilonRI). The anti-CD9 antibody activation curve was biphasic, and supraoptimal antibody concentrations stimulated little or no degranulation, indicating that multivalent binding of human CD9 molecules is necessary for the formation of an active complex with rat FcepsilonRI. Immunoprecipitation of FcepsilonRI under mild detergent conditions co-precipitated CD9, suggesting the presence of pre-existing complexes of CD9 and FcepsilonRI that could be activated by antibody cross-linking. These data are further evidence that tetraspanins are involved in FcepsilonRI signalling and may reflect the participation of tetraspanins in the formation of complexes with other membrane proteins that use components of Fc receptors for signal transduction.

Identification of amino acid residues in CD81 critical for interaction with hepatitis C virus envelope glycoprotein E2.

Human CD81 has been previously identified as the putative receptor for the hepatitis C virus envelope glycoprotein E2. The large extracellular loop (LEL) of human CD81 differs in four amino acid residues from that of the African green monkey (AGM), which does not bind E2. We mutated each of the four positions in human CD81 to the corresponding AGM residues and expressed them as soluble fusion LEL proteins in bacteria or as complete membrane proteins in mammalian cells. We found human amino acid 186 to be critical for the interaction with the viral envelope glycoprotein. This residue was also important for binding of certain anti-CD81 monoclonal antibodies. Mutating residues 188 and 196 did not affect E2 or antibody binding. Interestingly, mutation of residue 163 increased both E2 and antibody binding, suggesting that this amino acid contributes to the tertiary structure of CD81 and its ligand-binding ability. These observations have implications for the design of soluble high-affinity molecules that could target the CD81-E2 interaction site(s).

Pharmacological characterization of antagonists of the C5a receptor.

1. Potent and highly selective small molecule antagonists have recently been developed by us for C5a receptors (C5aR) on human polymorphonuclear leukocytes (PMN). In this study we compared a new cyclic antagonist, F-[OPdChaWR], with an acyclic derivative, MeFKPdChaWr, for their capacities to bind to C5aR on human PMN and human umbilical artery membranes. We also compared their inhibition of myeloperoxidase (MPO) secretion from human PMNs and their inhibition of human umbilical artery contraction induced by human recombinant C5a. 2. In both PMNs and umbilical artery, the cyclic and acyclic C5a antagonists displayed insurmountable antagonism against C5a. There were differences in selectivities for the C5aR with F-[OPdChaWR] (pKb 8.64+/-0.21) being 30 times more potent than MeFKPdChaWr (pKb 7.16+/-0.11, P<0.05) in PMNs, but of similar potency (pKb 8.19+/-0.38 vs pKb 8.28+/-0.29, respectively) in umbilical artery. This trend was also reflected in their relative binding affinities, both antagonists having similar affinities (-logIC50 values) for C5aR in umbilical artery membranes (F-[OPdChaWR], 7.00+/-0.46; MeFKPdChaWr, 7.23+/-0.17), whereas in PMN membranes the C5aR affinity of the cycle F-[OPdChaWR] (7.05+/-0. 06) was four times higher than that of acyclic MeFKPdChaWr (6.43+/-0. 24, P<0.05). 3. In summary, the results reveal that these antagonists are insurmountable in nature against C5a for C5aR on at least two human cell types, and the differences in relative receptor binding affinities and antagonistic potencies against C5a are consistent with differences in receptors within these cell types. The nature of these differences is yet to be elucidated.

Functional expression of chemokine receptor CXCR4 on human epithelial cells.

Chemokines and their receptors play an important role in the process of leucocyte recruitment at sites of inflammation. However, recent evidence suggests that these proteins can also regulate non-leucocyte cell functions such as angiogenesis, migration and proliferation. We have investigated the expression of the CXC chemokine receptor 4 (CXCR4) on primary cultures of type II alveolar epithelial cells, their transformed counterpart, the A549 cell line and also on other epithelial cell lines from various tissues. We found that all epithelial cell types tested express mRNA for CXCR4. Flow cytometric analysis and immunocytochemical staining shows that CXCR4 chemokine receptor is abundantly expressed on the surface of A549 epithelial cells. Furthermore, A549 cells responded to the CXCR4 ligand, stromal-derived factor-1alpha (SDF-1alpha) with a rapid and robust calcium mobilization and not to other CXC chemokines, suggesting that CXCR4 is functionally active and is able to couple to G-protein signalling mechanisms. A549 cells did not proliferate in response to either SDF-1alpha or interleukin-8 (IL-8) CXC chemokines. These findings may have important implications for epithelial physiology and pathology.

Cxc chemokine receptor expression on human endothelial cells.

CXC chemokines play a important role in the process of leukocyte recruitment and activation at sites of inflammation. However, recent evidence suggests that these molecules can also regulate endothelial cell functions such as migration, angiogenesis and proliferation. In this study we have investigated CXC chemokine receptor expression in both primary cultures of human umbilical vein endothelial cells (HUVEC) and the spontaneously transformed HUVEC cell line, ECV304. We found that both cell types express mRNA for chemokine receptors CXCR1, CXCR2 and CXCR4, but not CXCR3. Flow cytometric analysis revealed low levels of CXCR1 but higher levels of CXCR4 cell surface expression. HUVECs responded to SDF-1alpha with a rapid and robust calcium flux, however no calcium flux was seen with either IL-8 or Gro-alpha. HUVECs and ECV304 cells did not proliferate in response to CXC chemokines, although ECV304 cells did migrate towards SDF-1alpha and IL-8. These data demonstrate that HUVECs and the endothelial cell line, ECV304 express functional CXC chemokine receptors.

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 influence of Lys68 in decepeptide agonists of C5a on C5a receptor binding, activation and selectivity.

The potent, conformationally biased C5a agonist peptide YSFKPMPLaR (C5a65-74, Y65, F67, P69, P71, D-Ala73) was used as a template to gain insight into the nature and importance of lysine at position 68 in the peptide-receptor interaction. A panel of YSFKPMPLaR analogs with systematic substitutions for Lys68 was evaluated for C5a receptor (C5aR) binding affinity and activation in two well-characterized assay systems: human polymorphonuclear leukocytes (PMNs) and human fetal artery. In addition, we determined the activity of these new analogs in transfected rat basophilic leukemia (RBL) cells in which the Glu at position 199 of the C5aR (wtGlu199) was replaced by a Gln (C5aR-Gln199) or a Lys (C5aR-Lys199). Our results indicated that Lys68 in YSFKPMPLaR plays an important role in binding the C5aR expressed on PMNs and RBL cells. Furthermore, the data indicated that Lys68 interacted with Glu199 of the C5aR in PMNs and RBL cells. In human fetal artery, however, Lys68 substitutions had little or no effect on activity, which suggested that the receptor conformation may be different in this tissue. Thus, the interaction between Lys68 of the decapeptide agonist and Glu199 of the C5aR may be cell type-specific and may form the molecular basis for tissue-specific responses to C5a agonists.