Membrane cofactor protein (MCP; CD46): isoform-specific tyrosine phosphorylation

Membrane cofactor protein (MCP; CD46) is a widely expressed type 1 transmembrane glycoprotein that inhibits complement activation on host cells. It also is a receptor for several pathogens including measles virus, Streptococcus pyogenes, Neisseria gonorrhea, and Neisseria meningitidis. That MCP may have signaling capability was suggested by its microbial interactions. That is, binding of MCP on human monocytes by measles virus hemagglutinin or cross-linking by an anti-MCP Ab resulted in IL-12 down-regulation, while binding to MCP by Neisseria on epithelial cells produced a calcium flux. Through alternative splicing, MCP is expressed on most cells with two distinct cytoplasmic tails of 16 (CYT-1) or 23 (CYT-2) amino acids. These play pivotal roles in intracellular precursor processing and basolateral localization. We investigated the putative signal transduction pathway mediated by MCP and demonstrate that CYT-2, but not CYT-1, is phosphorylated on tyrosine. We examined MCP tail peptides and performed Ab cross-linking experiments on several human cell lines and MCP isoform transfectants. We found an MCP peptide of CYT-2 was phosphorylated by a src kinase system. Western blots of the cells lines demonstrated that cells bearing CYT-2 were also phosphorylated on tyrosine. Additionally, we provide genetic and biochemical evidence that the src family of kinases is responsible for the latter phosphorylation events. In particular, the src kinase, Lck, is required for phosphorylation of MCP in the Jurkat T cell line. Taken together, these studies suggest a src family-dependent pathway for signaling through MCP.     

Human membrane cofactor protein (MCP, CD46): multiple isoforms and functions

Human membrane cofactor protein (MCP, CD46) is a 45-70 kDa protein with genetic and tissue-specific heterogeneity, and is expressed on all nucleated cells. MCP consists from N-terminus of 4 short consensus repeats (SCRs), 1-3 serine/threonine-rich (ST) domains, a transmembrane domain (TM) and a cytoplasmic tail (CYT). More than 8 isoforms are generated secondary to alternative splicing due to combinations of various exons encoding the ST, TM and CYT domains. It serves as a cofactor of serine protease factor I for inactivation of complement C3b and C4b. Its primary role is to protect host cells from homologous complement attack by inactivating C3b/C4b deposited on the membrane. It also acts as receptors for measles virus (MV), some kinds of bacteria and for a putative ligand on oocytes. MV infection causes temporal host immune suppression, which may appear secondary to signaling events through MCP on macrophages and dendritic cells. These functional properties of human MCP may facilitate xenotransplantation and may be useful in the generation of animal models of measles by creating human MCP-expressing animals.     

Membrane cofactor protein (MCP or CD46) is a cellular pilus receptor for pathogenic Neisseria

The Bacillus subtilis RecR protein is required for DNA repair and recombination in vivo . In its N-terminal portion, RecR possesses potential zinc-ligand structures associated with the multicysteine (C₄) superfamily. The number and arrangement of the cysteine residues is suggestive of RecR being a zinc-finger protein. One of the four cysteines (Cys-60) has been replaced by a Ser (C60S) or an Ala (C60A) residue to generate the recR60 and recR601 genes, respectively. B. subtilis recR60 , recR601 or Δ recR1 (a null-mutant allele) cells are 10-, 134- and 144-fold more sensitive to 10 mM methanesulphonate and 95-, 900- and 1100-fold more sensitive to the lethal effect of 100 μM 4-nitroquinoline-1-oxide (4NQO) than the wild-type strain, respectively. The RecR zinc-ligand C₄ motif does not seem to be accessible, because the protein is highly resistant to oxidation and moderately resistant to reduction. We have determined by different biochemical methods that RecR is a zinc metalloprotein whose cysteine residues have a structural and/or functional role.     

Dissecting sites important for complement regulatory activity in membrane cofactor protein (MCP; CD46)

Membrane cofactor protein (MCP; CD46), a widely distributed regulator of complement activation, is a cofactor for the factor I-mediated degradation of C3b and C4b deposited on host cells. MCP possesses four extracellular, contiguous complement control protein modules (CCPs) important for this inhibitory activity. The goal of the present study was to delineate functional sites within these modules. We employed multiple approaches including mutagenesis, epitope mapping, and comparisons to primate MCP to make the following observations. First, functional sites were located to each of the four CCPs. Second, some residues were important for both C3b and C4b interactions while others were specific for one or the other. Third, while a reduction in ligand binding was invariably accompanied by a parallel reduction in cofactor activity (CA), other mutants lost or had reduced CA but retained ligand binding. Fourth, two C4b-regulatory domains overlapped measles virus interactive regions, indicating that the hemagglutinin docks to a site important for complement inhibition. Fifth, several MCP regulatory areas corresponded to functionally critical, homologous positions in other CCP-bearing C3b/C4b-binding proteins. Based on these data and the recently derived crystal structure of repeats one and two, computer modeling was employed to predict MCP structure and examine active sites.     

Characterization of a cDNA clone coding for human testis membrane cofactor protein (MCP,CD46)

Membrane cofactor protein (MCP) is a complement regulatory protein that acts as a cofactor for the cleavage of C3b and C4b by the serine protease factor I. We have previously reported the characterization of a functional MCP molecule on the acrosomal membrane. This protein migrated as a single band with a molecular weight of 40,000 Da, which is 10,000–20,000 Da smaller than the known MCP molecules, and is devoid of N-and O-linked sugars. We have proposed that the difference in molecular weight resulted from the lack of sugars. To investigate if this is due to the absence of glycosylation sites, we have characterized a cDNA clone from a human testis cDNA library. This cDNA corresponds to a peculiar MCP form previously described, which is characterized by the presence of the serine/threonine/proline-rich exon C (STP^C) and the cytoplasmic tail known as CYT², and we conclude that the absence of mature oligosaccharide of the sperm MCP cannot be totally attributed to a defect of N- and O-glycosylation sequences but rather reflects an alteration of the mechanisms of glycosylation in spermatozoa. The presence of functional MCP on the acrosomal membrane, as well as the other complement regulatory protein, decay-accelerating factor, strongly suggests that these proteins may act concomitantly to protect the acrosome-reacted spermatozoa from the attack of the complement present in the female genital tract. © 1993 Wiley-Liss, Inc.     

Interaction of monoclonal anti-peptide antibodies with lysozyme

The interaction of monoclonal anti-peptide antibodies with the free peptide and its protein counterpart has been evaluated for hen egg white lysozyme and the peptide constituting residues 38 to 45. Fluorescence methodology has been developed for the measurement of association constants based on resonance energy transfer between the excited tryptophan of antibody and bound peptide ligand conjugated to a fluorescent probe. Five antibodies, four IgM and one IgG, have been assayed by ELISA, and have demonstrated binding to the adsorbed peptide alone, to the adsorbed lysozyme alone, or to both. Multivalent interaction with the adsorbed ligand is a key factor in the efficacy of binding. Measurement of binding constants in homogeneous solution, by equilibrium dialysis and energy transfer, demonstrated that lysozyme was bound to an IgG antipeptide antibody with an association constant (4 X 10(2) M-1) 200-fold less than that for the free peptide (8 X 10(4) M-1). It was also inferred for IgM that an association constant of the order of 10(2) M-1 was sufficient to effect selective interaction in a system providing multivalent interaction. The shared conformations between protein and peptide, implied by the specific reactivity of the anti-peptide antibody with the protein, points to structural fluctuations of the surface regions and residues of globular proteins.     

Alternatively spliced RNAs encode several isoforms of CD46 (MCP), a regulator of complement activation

Five alternative cDNA clones were isolated for CD46, also known as the membrane cofactor protein (MCP) for the factor I-mediated cleavage of the complement convertases. One of these cDNA clones (a) was identical to an earlier MCP clone. The other four CD46 clones 3ontained the four NH₂-terminanl short consensus repeat (SCR) units of MCP, but differed at the region encoding the carboxyl-terminal of the protein which includes an extracellular segment rich in Ser, Thr, and Pro residues, a hydrophobic membrane-spanning domain, and a 33 amino acid cytoplasmic tail. The different CD46 cDNAs have variously: (b) inserted a 93 base pair (bp) exon resulting in a new cytoplasmic tail of 26 amino acids; (c) deleted a 42 bp exon from the extracellular Ser/Thr rich region; (d) used a cryptic splice acceptor sequence to delete 37 bp from an exon encoding transmembrane sequence; or (e) failed to splice the intron after the four SCR units. These were shown by northern blot and polymerase chain reaction to arise by alternative splicing of CD46 RNA. Forms (a), (b), and (c) of CD46 RNA are common in placental RNA, but (d) was rare, and (e) was incompletely processed and therefore aberrant. The polymerase chain reaction (PCR) was used to map the sites of the intron/exon junctions and demonstrate further possible splice variants of CD46. The alternative RNAs for CD46 may correlate to the different isoforms of CD46 found in different tissues, tumors, and in serum.The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession number M58050. Address correspondence and offprint requests to: D. F. J. Purcell.     

Characterisation of the complement-regulatory proteins decay-accelerating factor (DAF,CD55) and membrane cofactor protein (MCP,CD46) on a human colonic adenocarcinoma cell line

 To avoid destruction by complement, normal and malignant cells express membrane glycoproteins that restrict complement activity. These include decay-accelerating factor (DAF, CD55), membrane cofactor protein (MCP, CD46) and protectin (CD59), which are all expressed on colonic adenocarcinoma cells in situ. In this study we have characterised the C3/C5 convertase regulators DAF and MCP on the human colonic adenocarcinoma cell line HT29. DAF was found to be a glycosyl-phosphatidylinositol-anchored 70-kDa glycoprotein. Blocking experiments with F(ab′)₂ fragments of the anti-DAF monoclonal antibody BRIC 216 showed that DAF modulates the degree of C3 deposition and mediates resistance to complement-mediated killing of the cells. The expression and function of DAF were enhanced by tumour necrosis factor α (TNFα) and interleukin-1β (IL-1β). Cells incubated with interferon γ (IFNγ) did not alter their DAF expression. Two MCP forms were expressed, with molecular masses of approximately 58 kDa and 68 kDa, the lower form predominating. MCP expression was up-regulated by IL-1β, but not by TNFα or IFNγ. Expression of DAF and MCP promotes resistance of colonic adenocarcinoma cells to complement-mediated damage, and represents a possible mechanism of tumour escape. Received: 18 July 1995 / Accepted: 4 January 1996     

Identification of the streptococcal M protein binding site on membrane cofactor protein (CD46)

Adherence of group A streptococcus (GAS) to keratinocytes is mediated by an interaction between human CD46 (membrane cofactor protein) with streptococcal cell surface M protein. CD46 belongs to a family of proteins that contain structurally related short consensus repeat (SCR) domains and regulate the activation of the complement components C3b and/or C4b. CD46 possesses four SCR domains and the aim of this study was to characterize their interaction with M protein. Following confirmation of the M6 protein-dependent interaction between GAS and human keratinocytes, we demonstrated that M6 protein binds soluble recombinant CD46 protein and to a CD46 construct containing only SCRs 3 and 4. M6 protein did not bind to soluble recombinant CD46 chimeric proteins that had the third and/or fourth SCR domains replaced with the corresponding domains from another complement regulator, CD55 (decay-accelerating factor). Homology-based molecular modeling of CD46 SCRs 3 and 4 revealed a cluster of positively charged residues between the interface of these SCR domains similar to the verified M protein binding sites on the plasma complement regulators factor H and C4b-binding protein. The presence of excess M6 protein did not inhibit the cofactor activity of CD46 and the presence of excess C3b did not inhibit the ability of CD46 to bind M6 protein by ELISA. In conclusion, 1) adherence of M6 GAS to keratinocytes is M protein dependent and 2) a major M protein binding site is located within SCRs 3 and 4, probably at the interface of these two domains, at a site distinct from the C3b-binding and cofactor site of CD46.     

Immunochemical studies of human erythropoietin using site-specific anti-peptide antibodies. Identification of a functional domain

Anti-peptide antibodies that bind to the amino terminus of human erythropoietin (residues 1-26) do not inhibit the hormone's biological activity, indicating that this region of the protein does not play a role in receptor recognition (Sytkowski, A. J., and Fisher, J. W. (1985) J. Biol Chem. 260, 14727-14731). We have now identified six other regions of the primary sequence that are relatively hydrophilic and, therefore, have a higher probability of being accessible to such antibody probes. Antibodies raised against synthetic peptides homologous to five of these regions, corresponding to residues 40-59, 80-99, 99-118, 111-129, and 131-150 recognize erythropoietin, confirming the prediction based upon relative hydrophilicity. Antibodies to a carboxyl terminal peptide 147-166 failed to bind the hormone, presumably due to steric hindrance imposed by a disulfide bond between Cys161 and one of the other cysteinyl residues. The antibodies were affinity purified on the relevant immobilized peptide and their capacity to inhibit (neutralize) erythropoietin's activity was assessed. Only anti-peptide 99-118 and anti-peptide 111-129 antibodies inhibited erythropoietin. This effect was reversed by excess peptide, demonstrating that the neutralizing action of the antibody was due to its antigen-specific binding. The results strongly suggest that the portion of erythropoietin's amino acid sequence represented by these peptides plays a functional role in the hormone's action, most probably by forming part of the receptor-binding domain.     

Generation of anti-peptide monoclonal antibodies which recognize mature CSF-2 alpha (IL 3) protein

The colony-stimulating factor CSF-2 alpha (IL 3) has been purified to homogeneity, the protein sequenced, and the gene encoding this lymphokine cloned. Knowledge of the protein sequence permitted the synthesis of peptides corresponding to the amino terminus of the molecule. These peptides, after conjugation to palmitic acid, were used to immunize mice. Spleen cells from mice immunized with one of these peptides (CSF-2 alpha 1-14) were fused with the myeloma cell line NS-1. The fusion resulted in the isolation of two hybridoma cell lines, designated 6A5 and 4D4, that secreted antibodies that were specific for the immunizing peptide. The antibodies did not react with a closely related peptide CSF-2 alpha 7-16. The antibodies were capable, however, of recognized CSF-2 alpha protein as judged by the ability of the antibodies to remove CSF-2 alpha activity from culture medium of PHA-stimulated LBRM-33-5A4 cells, to immunoprecipitate radiolabeled CSF-2 alpha protein, and to detect CSF-2 alpha protein bound to nitrocellulose membranes.     

Probes of beta-galactosidase structure with antibodies. Reaction of anti-peptide antibodies against native enzyme.

Antibodies were prepared against 18 tryptic and cyanogen bromide peptides from beta-galactosidase ranging in size from 15 to 96 amino acid residues representing more than 80% of the polypeptide chain. They were tested for binding capacity and affinity toward their homologous antigens and toward the whole native protein. Nine antisera bound to beta-galactosidase; these had been raised against certain peptides from the central and carboxyl-terminal regions of the poly-peptide chain. Based on these results a preliminary model of the three-dimensional structure of the folded protein is suggested.     

The binding of monoclonal antibodies to cell surface molecules. Quantitative analysis of the reactions and cross-reactions of an antibody (MB40.3) with four HLA-B molecules

The MB40.3 monoclonal antibody binds to four distinct HLA-B molecules; B7, B40, B40*, and B27. With Fab' fragments only the interaction with B7 and B40 was detected and the affinity for both was the same (1-2 X 10(8) M-1) suggesting the epitope is shared by the two molecules. Unlike many antibodies for which low affinity is due to a high-dissociation constant, that of MB40.3 results from a very low-association rate constant, coupled with a low-dissociation constant. In consequence, the affinity and avidity of Fab', F(ab')2, and IgG for B7 and B40 were found to be of a similar magnitude, soluble B7 was a more efficient competitor for antibody than cell surface B7 and in practice antibody bivalency was of little importance. The forward rate constant could be increased by removing Fc from the antibody or by removing sialic acid from the cells by treatment with neuraminidase. The neuraminidase treatment also produced an increase in the number of detectable cell surface HLA-A,B molecules. The affinity of MB40.3 for B40* and B27 was estimated to be less than 4 X 10(6) as no binding with Fab' was detected due to a high-dissociation rate. For these two HLA-B molecules bivalent attachment was critical, and it increased the strength of interaction with cell surface B40* and B27 to a point where the avidities were comparable to those obtained with B7 and B40, with B40* interacting more strongly than B27. The epitopes recognized by MB40.3 on B40* and B27 were thus shown to be structurally different from each other and from those on B7 and B40. The properties of this antibody contrast with those of other anti-HLA-A,B we have studied (Ways, J.P., and Parham, P. (1983) Biochem. J. 216, 423-432).     

Type-specific immunodetection of human heart fatty acid-binding protein with polyclonal anti-peptide antibodies

Summary In order to develop specific antibodies against human heart cytoplasmic fatty acid-binding protein (HFABP_c), four oligo-peptides of 15–20 amino-acids each and corresponding with different antigenic parts of the human H-FABP_c molecule, were synthesized. Polyclonal antibodies against these synthetic peptides were raised in mice (Balb/C) and rabbits (Flemish giant). When tested in enzyme linked immunosorbent assays (ELISA, antibody-capture assay), antisera against three of the four peptides showed a high immunoreactivity with the synthetic peptide selected for immunization as well as with the native human H-FABP_c. Some cross-reactivity with the other synthetic peptides was observed for the rabbit antisera but not for those from mice. Polyclonal antibodies against synthetic peptides can be applied for the specific detection of the native protein in biological preparations containing proteins that show a high degree of homology with the protein to be assayed.     

Structure-function analysis of casein kinase 2 with synthetic peptides and anti-peptide antibodies.

Casein kinase 2 (CK2) is a ubiquitous, multifunctional protein-seryl/threonyl kinase that has been implicated in cellular regulation. Synthetic peptides were patterned after three highly conserved regions in CK2: the N terminus (CK2-NT); the lysine-rich, kinase subdomain III segment (CK2-III) (nomenclature of Hanks et al. (Hanks, S. K., Quinn, A. M., and Hunter, T. (1988) Science 241, 42-52)); and a 10-residue segment located near kinase subdomain X that is shared between CK2 and p34cdc2 (CK2/cdc2). The CK2-III and CK2/cdc2 peptides markedly stimulated the autophosphorylation of the alpha- and alpha'-subunits of purified CK2 from sea star oocytes, and they elicited up to 2-fold increases in its casein or phosvitin phosphotransferase activity. These peptides completely reversed nearly total inhibition of CK2 phosphotransferase activity toward itself, casein, and phosvitin by either heparin or poly(Glu,Tyr; 4:1), whereas CK2-NT was ineffective. Elution of CK2 from heparin-agarose with the CK2-III peptide indicated that this region of CK2 might mediate heparin binding to CK2. Affinity-purified rabbit polyclonal antibodies developed against both CK2-III and CK2/cdc2, but not CK2-NT, also produced up to 1.8-fold enhancements of the casein and phosvitin phosphotransferase activities of purified CK2. All three of the antipeptide antibody preparations immunoreacted with the alpha- and alpha'-subunits of CK2 on Western blots. These studies indicate that kinase subdomains III and X are involved in the modulation of CK2 phosphotransferase activity.     

Site-directed anti-peptide antibodies define the topography of the beta-adrenergic receptor

Molecular cloning has revealed the primary structure of a number of G-protein-linked receptors. The organization and topography of these proteins predicted to have seven hydrophobic membrane-spanning domains, in contrast, have not been established. Antibodies were prepared against 11 peptides corresponding to each of the hydrophilic sequences of the hamster beta 2-adrenergic receptor. Each of the anti-peptide antibodies displayed immunoreactivity for its synthetic peptide antigen and beta 2-adrenergic receptor (Mr 65,000) on blots of cell membranes and of purified receptor. All but three anti-peptide antisera also displayed immunoreactivity toward human placental and rat fat cell beta 1-adrenergic receptors, reflecting the level of sequence identity that exists between the two subtypes, Chinese hamster ovary cells stably transfected with an expression vector harboring the cDNA encoding the hamster beta 2-adrenergic receptor provided a cell type with 2 million receptors/cell, suitable for in situ localization of the sequences used as antigens. Indirect immunofluorescence of intact and permeabilized cells performed with these site-directed anti-peptide antibodies permitted the assignment of the general topography of each of the hydrophilic sequences of this G-protein-linked receptor. The results support the predictive value of hydropathy analysis for one class of membrane proteins with multiple transmembrane-spanning domains.     

Rat membrane cofactor protein (MCP; CD46) is expressed only in the acrosome of developing and mature spermatozoa and mediates binding to immobilized activated C3

The rat analogue of the complement regulator membrane cofactor protein (MCP; CD46) was recently cloned and analysis at the mRNA level suggested that expression was restricted to testis. In light of the proposed roles of human MCP in sperm-egg interaction, we undertook to analyze rat MCP expression at the protein level in order better to address its putative role in fertilization. Recombinant fusion proteins comprising antibody Fc and specific domains of rat MCP were generated and used to develop a monoclonal antibody, MM.1, specific for rat MCP. Immunohistochemistry using these reagents confirmed the reported testis-specific expression of MCP in sexually mature rats and demonstrated that MCP was expressed only by spermatozoa and their immediate precursors in spermiogenesis, spermatids. Prepubertal male rats did not express MCP, and there was no evidence of MCP expression at any site in the embryo. Spermatozoal MCP expression was restricted to the inner acrosomal membrane, exposed only after fixation or induction of the acrosome reaction. Acrosome-reacted but not unreacted spermatozoa bound methylamine-activated C3 immobilized on plastic. The retention of MCP at this subcellular site, which is probably crucial to sperm-egg interaction, and the functional demonstration of binding to activated C3 strengthen suggestions from human studies that MCP may play an important role in fertilization. The reagents and results described here will enable studies of the role of spermatozoal MCP in sperm-egg interaction using a relevant animal model system.     

Identification of multiple extracellular signal-regulated kinases (ERKs) with antipeptide antibodies.

A protein kinase characterized by its ability to phosphorylate microtubule-associated protein-2 (MAP2) and myelin basic protein (MBP) is thought to play a pivotal role in the transduction of signals from many receptors in response to their ligands. A kinase with such activity, named extracellular signal-regulated kinase 1 (ERK1), is activated rapidly by numerous extracellular signals, requires phosphorylation on tyrosine to be fully active, and in vitro can activate a kinase (a ribosomal S6 protein kinase) that is downstream in phosphorylation cascades. From the protein sequence predicted by the rat ERK1 cDNA, peptides were synthesized and used to elicit antibodies. The antibodies recognize both ERK1; a closely related kinase, ERK2; and a third novel ERK-related protein. Using these antibodies we have determined that ERK1 and ERK2 are ubiquitously distributed in rat tissues. Both enzymes are expressed most highly in brain and spinal cord as are their mRNAs. The third ERK protein was found in spinal cord and in testes. The antibodies detect ERKs in cell lines from multiple species, including human, mouse, dog, chicken, and frog, in addition to rat, indicating that the kinases are conserved across species. ERK1 and ERK2 have been separated by chromatography on Mono Q. Stimulation by insulin increases the phosphorylation of both kinases on tyrosine residues, as assessed by immunoblotting with phosphotyrosine antibodies, and retards their elution from Mono Q. Each of these ERKs appears to account for a distinct peak of MBP kinase activity. The activity in each peak is diminished by incubation with either phosphatase 2a or CD45. Therefore, both enzymes have similar modes of regulation and appear to contribute to the growth factor-stimulated MAP2/MBP kinase activity measured in cell extracts.     

Recognition of size and charged states of antigens by anti-peptide antibodies

The effects of the size and characteristics of peptide antigens on recognition and equilibrium between antigens and antibodies were studied by immunization of peptides with different characteristics. Four to five residues in the peptides were recognized by antibodies, and the charged states of the residues in the epitope strongly affected the immunointeraction. These results suggest a guideline for the selection of antigenic determinants to obtain antibodies suitable for immunoaffinity chromatography.