Purification of soluble CD14 fusion proteins and use in an electrochemiluminescent assay for lipopolysaccharide binding

CD14, a 55kDa lipopolysaccharide binding glycoprotein, is a key element in both LPS-mediated activation of cells and endotoxin detoxification. A gene fragment containing residues 1-348 of the human LPS receptor CD14, representing the extracellular form of the molecule, was fused to the CH(2)-CH(3) portion of the human IgG heavy chain or to a 6x His tag and transfected into CHO cells. Stable cell lines of each were grown to produce recombinant protein in unsupplemented serum free media and CD14His was purified by ion-exchange chromatography. After passive immobilization onto a carbon surface both forms of the CD14 fusion proteins bound LPS-biotin in a dose-dependent manner in an electrochemiluminescent assay. Binding was inhibited by the anti-CD14 antibody S39 as well as by unlabeled LPS. This report describes an efficient method of purifying CD14 and a novel assay to detect bioactive lipopolysaccharide.

Identification of lipopolysaccharide-binding proteins in porcine milk

Septicemia and endotoxemia initiated by bacterial lipopolysaccharide (LPS) are relatively common in suckling and weaned piglets. Maternal milk is a source of both nutrition and immune protection for piglets. Passive transfer of colostral antibodies is necessary for protection of neonatal piglets against diseases, but the concentration of immunoglobulins in milk rapidly declines during the 1st wk of lactation in all mammals. We hypothesized, therefore, that nonimmunoglobulin substances in milk contribute to the innate protection of neonates against septicemia during the suckling period. Using LPS-affinity chromatography for isolation of LPS-binding proteins and liquid chromatography-mass spectrometry for their identification, we identified in porcine milk the following proteins with LPS-binding capacity: lactoferrin, soluble CD14, serum amyloid A, alpha-S1 casein, beta-casein, and kappa-casein. For lactoferrin, alpha-S1 casein, and kappa-casein, in vitro pepsin digestion did not inhibit LPS-binding activity, whereas combined digestion with pepsin and pancreatin abolished it. The biologic functions of these LPS-binding proteins and peptides were not determined.

Tuberculosis bacilli still posing a threat. Polymorphism of genes regulating anti-mycobacterial properties of macrophages

One third of the earth's population is infected with Mycobacterium tuberculosis, but only 5-10% of the infected individuals will develop active disease over their lifetime. To identify the genes responsible for the variation in the human susceptibility/resistance to tuberculosis (TB) we determined the polymorphisms of three genes crucial for the function of macrophages, in TB patients and healthy controls with no past history of TB. We found no association between the polymorphisms of the NRAMP-INT4, MBL (codons 52, 54, 57) and CD14-159 genes and TB in a Caucasian Polish population. However, we have suggested a possible involvement of CD14 and MBL molecules in the host-mycobacteria interactions on the basis of the significant increase in the serum CD14 and MBL in TB patients compared to healthy controls.

Purification and characterization of human soluble CD14 expressed in Pichia pastoris

CD14 is a protein that mediates lipopolysaccharide (LPS)-induced biological responses such as activation of a transcriptional factor, nuclear factor (NF)-kappaB. It exists as a soluble form (sCD14) in serum and mediates LPS responses of epithelial and endothelial cells as well as a membrane-bound form (mCD14) on monocytes and macrophages. To obtain sCD14 in large quantity for its structural and functional characterization, we expressed the full-length form of human recombinant sCD14 (rsCD14) in a methylotrophic yeast, Pichia pastoris. The recombinant protein was expressed as a major protein in the culture supernatant and purified by ammonium sulfate precipitation, followed by three steps of ion exchange chromatographies. Finally, 1.6 mg of the protein was obtained in high purity from 2L of the supernatant and its identity to sCD14 was confirmed by NH(2)-terminal amino acid sequence analysis. The purified protein was found to have N-linked sugars by an analysis of enzymatic deglycosylation. A native PAGE analysis revealed that the protein was able to form complexes with LPS. In addition, the rsCD14 protein could mediate the LPS-mediated activation of NF-kappaB in human embryonic kidney 293 cells transfected with Toll-like receptor 4 and MD-2, indicating that the purified protein is biologically active. Thus, the rsCD14 protein expressed in P. pastoris and highly purified in a large amount is useful for its structural and functional studies.

Bacterial fimbriae and their peptides activate human gingival epithelial cells through Toll-like receptor 2

Gingival epithelial cells are a central component of the barrier between oral microflora and internal tissues. Host responses to periodontopathic bacteria and surface components containing fimbriae are thought to be important in the development and progression of periodontal diseases. To elucidate this mechanism, we established immortalized human gingival epithelial cells (HGEC) that were transfected with human papillomavirus. HGEC predominantly expressed Toll-like receptor (TLR) 2, but not TLR4 or CD14. They also induced interleukin-8 (IL-8) production when stimulated with Porphyromonas gingivalis fimbriae and Staphylococcus aureus peptidoglycan, but not Escherichia coli-type synthetic lipid A. Furthermore, an active synthetic peptide composed of residues 69 to 73 (ALTTE) of the fimbrial subunit protein, derived from P. gingivalis and similar to a common component of cell wall peptidoglycans in parasitic bacteria, N-acetylmuramyl-L-alanyl-D-isoglutamine (MDP), significantly induced IL-8 production and NF-kappaB activation in HGEC, and these cytokine-producing activities were augmented by a complex of soluble CD14 and lipopolysaccharide-binding protein (LBP). IL-8 production in HGEC stimulated with these bacterial components was clearly inhibited by mouse monoclonal antibody to human TLR2. These findings suggest that P. gingivalis fimbrial protein and its active peptide are capable of activating HGEC through TLR2.

The lipopolysaccharide co-receptor CD14 is present and functional in seminal plasma and expressed on spermatozoa

CD14 is a 54 000-molecular weight (MW) glycolipid-anchored membrane glycoprotein, expressed on myeloid cells, which functions as a member of the lipopolysaccharide (LPS) receptor complex. Soluble forms of CD14 have been reported in plasma, cerebrospinal fluid, amniotic fluid and breast milk. In plasma and breast milk, soluble CD14 has been implicated as a regulator of T- and B-cell activation and function. Expression of CD14 in the male reproductive system has not previously been investigated. We here show that soluble CD14 is present in seminal plasma at levels comparable to those in serum. Spermatozoa expressed CD14 on their membranes, as demonstrated by fluorescence microscopy and flow cytometry. Post-vasectomy, the levels of seminal plasma CD14 (spCD14) were much reduced, implying an origin distal to the point of transection of the vas deferens. Ultracentrifugation analyses demonstrated that spCD14 was not associated with lipid complexes, indicating that it lacks the glycolipid anchor. Purified spCD14 mediated activation by LPS of CD14-negative cells. These findings suggest that CD14 may play a hitherto unexplored role in immune defence and cell activation in the male reproductive tract.

Soluble CD14 in human breast milk and its role in innate immune responses

Immune factors secreted in milk are important for health in the neonatal gut. We have detected the bacterial pattern recognition receptor, soluble CD14 (sCD14) in human breast milk at different times during lactation. The molecule occurs in a single form in milk, in contrast to human serum, in which there are two isoforms. Produced by mammary epithelial cells, milk sCD14 mediates secretion of innate immune response molecules such as interleukin-8, tumor necrosis factor-alpha, and epithelial neutrophil activator-78 by CD14-negative intestinal epithelial cells exposed to lipopolysaccharide (LPS) or bacteria. Although present at low concentrations in milk, LPS-binding protein may be implicated in the biological effects observed. Our findings support the premise that milk sCD14 acts as a 'sentinel' molecule and immune modulator in homeostasis and in the defense of the neonatal intestine. In so doing, it may prevent the immune and inflammatory conditions of the gut to which non-breastfed infants are predisposed.

Expression of IL-18 mRNA and secretion of IL-18 are reduced in monocytes from patients with atopic dermatitis

BACKGROUND

IL-18 has been found to be an IFN-gamma-inducing factor that plays an important role in T(H)1 cell activation. Recently, IL-18 has also been found to enhance a T(H)2 cellular response in a specific setting.

OBJECTIVE

The aim of this study was to elucidate the role of monocytes and soluble factors, with special focus on IL-18, in the pathogenesis of atopic dermatitis (AD).

METHODS

The release of cytokines from PBMCs and purified monocytes was measured through use of ELISA; mRNA expression was evaluated by RT-PCR. The results from patients with AD were compared with those from healthy controls.

RESULTS

IL-18 secretion was reduced in both unstimulated and lipopolysaccharide-stimulated monocytes from patients with AD. The mRNA expression of IL-18 and IL-1 beta-converting enzyme was significantly reduced in unstimulated monocytes from patients with AD (P <.03 and P <.01, respectively). Patients with AD had an elevated secretion of prostaglandin E(2) (PGE(2)) from unstimulated PBMCs (P <.001). The anti-PGE(2) antibody reversed the suppressive effect of PGE(2) on IL-18 secretion in unstimulated PBMCs from patients with AD.

CONCLUSIONS

Decreased IL-18 production, together with a significantly reduced IL-18 and ICE mRNA expression in unstimulated monocytes and elevated PGE(2) secretion from PBMCs, was associated with the pathogenesis of AD.

[Clone and expression of human soluble CD14 and study of its function]

Human soluble CD14(sCD14) cDNA fragment was amplified using total RNA extracted from U937 cells by RT-PCR of sCD14 gene, and the recombinant expression plasmid pEF1/HisC/sCD14 348aa was constructed. Then the expression in eukaryotic cell was carry out by liposome transfection method. It demonstrated that the expression level was relatively high by scanning map identification. The expressed product was purified by immunoaffinity chromatography and the purity was above 90%. The changes of CD14 brought by LPS stimulating U937 cell proved the product had the function of combine with LPS.

A CD14-independent LPS receptor cluster

Bacterial lipopolysaccharide (LPS), the major structural component of the outer wall of Gram-negative bacteria, is a potent initiator of an inflammatory response and serves as an indicator of bacterial infection. Although CD14 has been identified as the main LPS receptor, accumulating evidence has suggested the possible existence of other functional receptor(s). In this study, using affinity chromatography, peptide mass fingerprinting and fluorescence resonance energy transfer, we have identified four new proteins that form an activation cluster after LPS ligation and are involved in LPS signal transduction. Here we present evidence that implicates heat shock proteins 70 and 90, chemokine receptor 4 and growth differentiation factor 5 as the main mediators of activation by bacterial lipopolysaccharide.

Soluble CD14 enriched in colostrum and milk induces B cell growth and differentiation

Induction of resting B cell growth and differentiation requires a complex series of temporally coordinated signals that are initiated on contact with activated helper T cells. These signals complement one another, each rendering the B cell susceptible to factors supporting progressive activation. Here, we demonstrate that soluble CD14 (sCD14) bypasses the physiological sequelae of events that limit B cell activation. B cell growth and differentiation in vitro is induced by both native and recombinant forms of sCD14 at nanomolar concentrations. sCD14-mediated cellular activation does not require membrane CD14 expression, depends on a region of CD14 that is not involved in lipopolysaccharide binding, and requires functional Toll-like receptor 4. Consistent with biological activity of sCD14 in vitro, its administration to neonatal mice enhances Ig secretion. The results presented establish sCD14 as a naturally occurring soluble B cell mitogen of mammalian origin.

Expression and refolding of functional fragments of the human lipopolysaccharide receptor CD14 in Escherichia coli and Pichia pastoris

CD14 is a high-affinity cellular receptor specific for bacterial lipopolysaccharides (LPS), present in the bacterial cell wall. Binding of LPS to CD14 initiates the innate component of immune response and triggers a response that can lead to septic shock. In order to provide recombinant protein for the study of LPS-CD14 molecular interactions we have expressed human CD14 in Escherichia coli and Pichia pastoris. In bacteria, the protein was produced in high yield in the form of inclusion bodies. We have optimized the procedure for its refolding and generated correctly folded protein. A procedure to monitor the refolding efficiency by using conformation-specific anti-human CD14 monoclonal antibody has been established. A fragment of 152 amino acids of CD14 which retains the ability to bind LPS has been produced in a methylotrophic yeast, P. pastoris, expression system. The recombinant protein from yeast is glycosylated and secreted into the medium. The CD14 fragment was purified to homogeneity by immunoaffinity chromatography. Recombinant CD14 from both bacteria and yeast bind to LPS.

HLA-DR inhibits granulocytic differentiation without inducing apoptosis of CD34 cells

Hematopoietic progenitors express HLA-DR molecules. However the significance of HLA-class II molecules on CD34+ cells remains unknown. The primary role of HLA-class-II molecules is antigen presentation although a second role, that of signal transduction, has been established in B cells. The role of HLA-DR in hematopoiesis was examined by determining the ability of CD34+ progenitor cells to differentiate to "Colony Forming Unit Granulocyte-Macrophage" (CFU-GM) and "Burst Forming Unit Erythrocyte" (BFU-E) in the presence of anti-HLA-DR monoclonal antibody. We observed a reduction in the number of CFU-GM which was due in part to down regulation of granulocyte rather than monocyte differentiation. These observations suggest that HLA-DR signals can regulate myelopoiesis. We point out especially the role of the HLA-DR molecule in the switch of CFU-GM between granulocyte or monocyte lineages. Although HLA-DR mediated apoptosis has been described in mature B lymphocytes apoptosis of CD34+ cells was excluded as a mechanism.

Functional and phenotypic analysis of thymic CD34+CD1a- progenitor-derived dendritic cells: predominance of CD1a+ differentiation pathway

Whether thymic dendritic cells (DC) are phenotypically and functionally distinct from the monocyte lineage DC is an important question. Human thymic progenitors differentiate into T, NK, and DC. The latter induce clonal deletion of autoreactive thymocytes and therefore might be different from their monocyte-derived counterparts. The cytokines needed for the differentiation of DC from thymic progenitors were also questioned, particularly the need for GM-CSF. We show that various cytokine combinations with or without GM-CSF generated DC from CD34+CD1a- but not from CD34+CD1a+ thymocytes. CD34+ thymic cells generated far fewer DC than their counterparts from the cord blood. The requirement for IL-7 was strict whereas GM-CSF was dispensable but nonetheless improved the yield of DC. CD14+ monocytic intermediates were not detected in these cultures unless macrophage-CSF (M-CSF) was added. Cultures in M-CSF generated CD14-CD1a+ DC precursors but also CD14+CD1a- cells. When sorted and recultured in GM-CSF, CD14+ cells down-regulated CD14 and up-regulated CD1a. TNF-alpha accelerated the differentiation of progenitors into DC and augmented MHC class II transport to the membrane, resulting in improved capacity to induce MLR. The trafficking of MHC class II molecules was studied by metabolic labeling and immunoprecipitation. MHC class II molecules were transported to the membrane in association with invariant chain isoforms in CD14+ (monocyte)-derived and in CD1a+ thymic-derived DC but not in monocytes. Thus, thymic progenitors can differentiate into DC along a preferential CD1a+ pathway but have conserved a CD14+ maturation capacity under M-CSF. Finally, CD1a+-derived thymic DC and monocyte-derived DC share very close Ag-processing machinery.

Surface phenotype analysis of CD16+ monocytes from leukapheresis collections for peripheral blood progenitors

In peripheral blood progenitor cell (PBPC) collections from patients with solid tumour or haematological malignancy, monocytes were separated into two subpopulations. The majority of monocytes expressed CD14 at a high density without CD16 antigen (the CD14+CD16- monocytes). The remaining monocytes co-expressed CD14 and CD16 (the CD14+CD16+ monocytes). These CD14+CD16+ monocytes amounted to 20.6 +/- 15.8%, while those in peripheral blood (PB) obtained from healthy volunteers were 7.3 +/- 3.1% (P < 0.05). When subdividing the CD14+CD16+ monocytes into CD14brightCD16dim and CD14dimCD16bright cells, both populations were found to be increased in PBPC collections. Since typical CD14+CD16+ monocytes are the CD14dimCD16bright population, we compared the additional surface antigens on CD14dimCD16bright monocytes with those of CD14+CD16- monocytes. In PBPC collections, the CD14dimCD16bright monocytes exhibited lower levels of CD11b, CD15, CD33 and CD38 expression and higher levels of CD4, CD11a, CD11c and MHC class II, and also revealed a higher percentage of CD4+ cells and a lower percentage of CD15+ cells and CD38+ cells, compared with the CD14+CD16- monocytes. When compared with the CD14dimCD16bright monocytes in PB, those in PBPC collections exhibited higher expression of CD4 and lower expression of CD11b, and also showed higher percentages of CD4+ cells and CD38+ cells and a lower percentage of CD11b+ cells. These results suggest that PBPC collections may be rich in the CD14+CD16+ monocytes in which the proportion of the immature population is increased. It is likely that these monocytes participate in the haematological and immune recovery after PBPC transplantation.

CD14 transgenic mice expressing membrane and soluble forms: comparisons of levels of cytokines and lethalities in response to lipopolysaccharide between transgenic and non-transgenic mice

Two different metallothionein promoter-mouse CD14 fusion genes were constructed. The membrane form of the CD14 fusion gene, designated M14M, contained the full-length CD14 cDNA sequence, whereas the soluble form of the fusion gene, designated M14S, was truncated to lack the sequence for the phosphatidylinositol-anchoring site. Expression of transgenic RNA in M14M and M14S mice on the basal diet was abundant in the liver. After maintenance with water containing ZnSO4 (50 mM) for 4 days, expression of transgenic RNA in M14M and M14S mice was strong in the small intestine. Immunohistochemical analysis demonstrated CD14 expression in these organs in M14S and M14M mice. Levels of CD14 in sera from M14S mice after zinc administration were significantly higher than these animals maintained with normal water, M14M mice after zinc administration and non-transgenic mice. Sera from M14S and M14M mice after stimulation with lipopolysaccharide LPS (LPS) demonstrated significantly lower levels of tumor necrosis factor-alpha and IL-6 than those from non-transgenic mice. Lethality in endotoxin shock produced by i.p. injection of 30-40 microg/g body wt LPS was not different between M14S, M14M and non-transgenic mice. However, survival rates in the lethal Shwartzman reaction induced by priming and challenge injections of LPS were significantly higher in M14M and M14S mice than in non-transgenic mice.

Heterotrimeric G proteins physically associated with the lipopolysaccharide receptor CD14 modulate both in vivo and in vitro responses to lipopolysaccharide

Septic shock induced by lipopolysaccharide (LPS) triggering of cytokine production from monocytes/macrophages is a major cause of morbidity and mortality. The major monocyte/macrophage LPS receptor is the glycosylphosphatidylinositol (GPI)-anchored glycoprotein CD14. Here we demonstrate that CD14 coimmunoprecipitates with Gi/Go heterotrimeric G proteins. Furthermore, we demonstrate that heterotrimeric G proteins specifically regulate CD14-mediated, LPS-induced mitogen-activated protein kinase (MAPK) activation and cytokine production in normal human monocytes and cultured cells. We report here that a G protein binding peptide protects rats from LPS-induced mortality, suggesting a functional linkage between a GPI-anchored receptor and the intracellular signaling molecules with which it is physically associated.

Lack of correlation between soluble CD14 and IL-6 in meningococcal septic shock

Meningococcal sepsis is a good model to study the dynamic response of cytokines and other soluble factors in vivo in the early stages of the disease. Levels of soluble CD14, interleukin-6 (IL-6), IL-6 receptor (IL-6R), and C-reactive protein (CRP) have been measured in plasma from 26 children with septic shock (nine of whom had disseminated intravascular coagulation) and from ten control children. All samples were collected at the onset, before treatment, and, when possible, 24 and 48 hours later. At admission, patients had significantly higher levels of IL-6 (p < 0.001) and CRP (p < 0.001), and lower levels of IL-6R (p < 0.005) than normal controls. After 24 hours, there was a significant increase of sCD24 (p < 0.05) and CRP (p < 0.001). Although IL-6 showed a progressive decline since the onset, its levels were always higher than controls. There was an inverse correlation between IL-6 and both IL-6R (p < 0.001) and CRP (p < 0.001), probably due to the later increase of CRP. Nevertheless, sCD14 did not correlate with IL-6 levels. We have confirmed the finding of IL-6 as a sensitive and reliable inflammatory marker in septic shock. Moreover, the ratio IL-6/IL-6R may have a prognostic value, given a putative role of IL-6R in modulating the effects of IL-6 in meningococcal sepsis.

Quantitation of surface CD14 on human monocytes and neutrophils

The absolute number of membrane-expressed CD14, the most important endotoxin receptor, on human monocytes and neutrophils shows remarkable variation in the literature. To quantify these numbers two fluorescence methods using fluorescein isothiocyanate (FITC)-labeled monoclonal antibodies (mAb) were applied. A commercially available set of standard beads was used in flow cytometry to quantitate CD14 with eight different mAbs. Independent from their isotype the various mAbs showed minor differences and indicated that peripheral blood monocytes expressed 99,500-134,600 (115,400 +/- 10,600) and neutrophils 1,900-4,400 (3,300 +/- 800) CD14 receptors. There was no significant difference in CD14 expression on leukocytes in unprocessed freshly obtained whole blood and after a Ficoll isolation procedure. However, a short temperature shift resulted in a 1.3- to 1.6-fold up-regulation of CD14. The results obtained with the reference beads were verified with fluorescence Scatchard analysis and spectrofluorometry using mAb 26ic-FITC and showed 109,500 CD14 per monocyte and 6,700 CD14 per neutrophil. For comparison the number of CD14 on the monocytic THP-1 cells and Fc gamma-receptors on human leukocytes were determined using the reference beads and flow cytometry and gave results comparable to published data. Our data indicate that resting human monocytes express roughly 110,000 CD14 molecules on their surface using a simple fluorometric assay. Correct determination of the number of CD14 and other cell surface receptors is of importance in the monitoring of septic patients.

A three-step procedure for the purification of human basophils from buffy coat blood

OBJECTIVE AND DESIGN

We report a method for basophil purification from buffy coats, which avoids positive selection of the cells and gives rise to good purity, yield and functional integrity of the cells.

SUBJECTS

Buffy coat blood (concentrated leukocyte fraction derived from 450 ml venipuncture donations) obtained from healthy blood donors (n = 51).

METHODS

Basophils were enriched by a three-step process starting with Ficoll density centrifugation (1.6 +/- 0.1% basophil purity) followed by counter current centrifugal elutriation (17.7 +/- 1.4% basophil purity). The final stage involved negative selection using Dynal immunomagnetic beads directed against CD2, CD14, CD16 and CD19 positive cell contaminants. Functional integrity of which was assessed by comparing the anti-IgE or calcium ionophore A23187 induced histamine release from basophils obtained from each enrichment step. Furthermore, basophil morphology was investigated using light and electron microscopy.

RESULTS

The final mean basophil purity of 67.3 +/- 1.4% with a yield of 3.5 +/- 0.5 x 10(6) basophils and a recovery of 21.8 +/- 2.4% was achieved. Net histamine release from basophils stimulated with optimal concentrations of anti-human IgE was 39.1 +/- 6.5% after Ficoll centrifugation, 41.6 +/- 7.7% following elutriation and 35.7 +/- 6.8% from the final purified fraction. Additionally, basophils enriched with our method showed intact morphology by electron microscopy and were functionally active to non-immunological stimulation.

CONCLUSIONS

These results compare favourably with previous studies, which have often required the use of positive selection via the Fc epsilon RI receptor, which may result in cell degranulation, or cell sorting, which cannot be applied to large cell numbers. Our method provides a reproducible technique for basophil enrichment when large numbers of functionally intact basophils are required.

Detection and biochemical characteristics of the receptor for complexes of soluble CD14 and bacterial lipopolysaccharide

Soluble CD14 (sCD14) has been found to bind LPS and mediate LPS activation of several cell types. It has been postulated that sCD14-LPS complexes induce cell responses by interacting with a cell surface structure, which, in turn, triggers cell activation. There has been no biochemical evidence, however, for a direct interaction of sCD14 with a cell surface structure, and the putative receptor has not been identified. To rigorously test this hypothesis, we studied the interaction of human rsCD14 with cells in the absence of serum and in the presence and the absence of LPS. We found 1) there was specific and saturable binding of 125I-sCD14, indicative of a typical receptor-ligand interaction, to several cell types, including endothelial cells, epithelial cells, astrocytes, and human monocytes; 2) specific binding to all the cell types and IL-6 induction in membrane-bound CD14 (mCD14)-negative cells occurred only when both sCD14 and LPS were present; 3) competitive displacement experiments of 125I-sCD14 binding to astrocytes and Scatchard plots revealed a binding of high affinity (Kd = 3.3 +/- 0.4 nM) and approximately 25,000 single class binding sites/cell; 4) the steady state for the association of 125I-sCD14 was obtained after 180-200 min; 5) chemical cross-linking experiments revealed the association of sCD14 with a binding structure of approximately 216 kDa; 6) binding of 125I-sCD14 to CD14-expressing cell transfectants was about 50% lower than that to nontransfected cells. Maximal binding, however, was recovered after removing mCD14, suggesting that the sCD14-LPS receptor may also interact with mCD14. These results provide direct biochemical evidence for the existence of a cell surface signal-mediating binding structure for LPS-bearing sCD14 and suggest that this structure may represent the signaling unit of the postulated multimeric LPS receptor in mCD14-bearing cells.

Analysis of the CD14 receptor associated with bovine alveolar macrophages

Previous studies have suggested the existence of a bovine homolog of the membrane-associated CD14 receptor (mCD14) on macrophages, and functional similarity of bovine mCD14 receptor activity to that reported for other species. Bovine alveolar macrophages (bAM) reportedly possess two mRNA transcripts of 1.5 and 3.1 kb for CD14, rather than a single 1.5 kb transcript as reported for other species. The purpose of this study was to determine the molecular mass of the bovine CD14 receptor, and to determine if the two mRNA transcripts for bovine CD14 yield either a single or two different gene products. Culture supernatant from 125I-surface-labeled bAM was examined for the existence of bovine CD14 using SDS-PAGE and autoradiography. A single protein band of 49 kD was immunoprecipitated from the supernatant using anti-CD14 monoclonal antibodies (MAb). Macrophage-derived mRNA was subjected to hybrid-selection using a human CD14 cDNA probe immobilized on a nitrocellulose filter. The resultant, selected bovine mRNA was then utilized for in vitro translation, and protein of 38-40 kD was synthesized. This size is consistent with an unglycosylated CD14 receptor protein. Protein was also synthesized from total RNA by in vitro translation, and was immunoprecipitated with anti-CD14 monoclonal antibodies. A doublet-band of protein was seen at 38 kD using SDS-PAGE and autoradiography. Anti-CD14 antibodies were also used to inhibit serum- and LPS-dependent bovine macrophage activation as measured by tissue factor expression, which is compatible with the presence and function of CD14 receptors on macrophages. These results collectively demonstrate that a receptor consistent with CD14 is present on bovine macrophages, the form of the receptor released into supernatants is 49 kD, and that it functions as an LPS receptor on these cells.

Characterisation of bovine lipopolysaccharide binding protein and the in vivo acute phase response to Pasteurella haemolytica Type A

Lipopolysaccharide binding protein (LBP) is a liver-derived acute phase protein which is implicated in modulating the host responses to lipopolysaccharide (LPS) from Gram-negative bacteria. LBP interacts with circulatory LPS to form complexes which bind to the CD14 receptor or cells of the monocytic lineage and neutrophils resulting in their activation. This causes the release of mediators and cytokines which are responsible for initiating the acute phase response. LBP-like activity has now been identified in bovine serum and in this study LBP has been purified from acute phase bovine serum using ion exchange chromatography. On sodium dodecyl sulphate polyacrylamide electrophoresis, bovine LBP demonstrated a single band with a molecular mass of 58 kDa. Bovine LBP enhanced the binding of LPS to human monocytes while enzymatic removal of the CD14 receptor abrogated this interaction. Furthermore, bovine LBP increased the sensitivity of monocytes to LPS by at least 100-fold. Depletion of LBP by means of antibodies to bovine LBP inhibited the serum mediated LPS binding to monocytes. Antibodies to rabbit LBP or recombinant human LBP did not cross-react with bovine LBP. Studies on the kinetics of LBP activity in calves during the acute phase response demonstrated a four-fold increase in the serum concentration 36 h after a single intratracheal inoculation of Pasteurella haemolytica A1. The findings of this study indicate that cattle possess a LPS detection mechanism comparable to that described in man and experimental animals in which LBP forms complexes in serum with circulatory LPS enhancing the signal to the immune system to mount a host response. The isolation of LBP will allow further investigations into LBP-mediated responses to LPS in cattle.