人补体膜辅助调节蛋白MCP的基因克隆及其真核表达的研究

目的　克隆获得编码人补体膜辅助调节蛋白（ ＭＣＰ） 的ｃＤＮＡ,并对其在真核细胞的表达及功能进行研究。方法　应用ＲＴＰＣＲ 方法,从Ｕ９３７ 细胞总ＲＮＡ 中扩增编码人ＭＣＰ 分子的ｃＤＮＡ片段, 快速克隆于ｐＧＥＭＴＥａｓｙ 载体,测定其序列。将该片段重组于ｐＬＸＳＮ 载体,电穿孔转染ＮＩＨ３Ｔ３ 细胞,经ＦＡＣＳ 检测筛选表达ＭＣＰ 的阳性细胞克隆,用补体溶破试验鉴定其抑制人补体溶破的功能。结果　ＲＴＰＣＲ 扩增得到１ １４４ｂｐ 的编码人ＭＣＰ 分子的ｃＤＮＡ 片段,序列分析表明该ｃＤＮＡ编码的蛋白为ＳＴＣ＋ ＣＹＴ２ 亚型。细胞转染筛选获得多个表达ＭＣＰ 的ＮＩＨ３Ｔ３ 阳性细胞克隆,补体溶破试验证实其具有抑制人补体经典途径和旁路途径溶破的功能。结论　本研究为进一步探讨不同亚型结构的ＭＣＰ 分子与功能的关系及其应用奠定了基础。     

Molecular cloning of a pig homologue of membrane cofactor protein (CD46)

Organs of transgenic pigs that express human complement regulatory proteins are under assessment as an alternative to transplantation. A major barrier to the transplantation of pig organs is the hyperacute rejection caused by pre-existing antibodies and complement. Pig cells are very susceptible to human complement, presumably because pig cell- surface complement regulatory proteins are inefficient against it. Expression of human complement regulatory proteins, such as decay- accelerating factor and membrane cofactor proteins (MCP or CD46), by means of transgenes would confer resistance to human complement upon pig cells, thereby preventing hyperacute rejection. To express sufficient levels of human complement regulatory proteins at appropriate sites, regulatory elements of genes of pig membrane-bound complement regulatory proteins would be useful. To obtain their cDNAs, we transfected human cells with a pig cDNA library, selected cells by incubation with pig complement and rescued the plasmids. We cloned a cDNA for the pig homologue of MCP, pMCP. The cDNA encoded a predicted protein of 363 amino acids with 42% amino acid identity with human MCP. The pMCP consisted of four short consensus repeats, a Ser/Thr/Pro-rich domain, and transmembrane and cytoplasmic domains. Recombinant soluble pMCP that lacked transmembrane and cytoplasmic domains had factor I cofactor activity in C3b cleavage, indicating that it is functionally, as well as structurally homologous to MCP. FACS analysis with anti-pMCP mAb demonstrated that pMCP is expressed on all blood leukocytes, erythrocytes, and on endothelial and epithelial cell lines.      

The effect of disodium cromoglycate (DSCG) on in vitro proliferation of CD4+, CD8+, and CD19+ cell populations derived from allergic and healthy donors

The effect of disodium cromoglycate (DSCG) on in vitro proliferation of CD4⁺ and CD8⁺ T cells and CD19⁺ B cells, positively selected by immunomagnetic separation, was investigated. The cells were obtained from allergic patients with moderate serum IgE levels and mild to moderate atopic dermatitis, and healthy controls. The different cell subfractions were stimulated with mitogens or specific allergens, as well as cell supernatants from the lymphoblastoid B- (RPMI 8866) and T-hybridoma (166 A₂) cell lines. Proliferative responses of T- and B-cell subsets stimulated with mitogens together with recombinant interleukin-2 (rIL-2) or accessory cells (AC) could be inhibited by DSCG. In allergic individuals, significant allergen-specific stimulation could be observed in the CD8-depleted peripheral blood mononuclear cell (PBMC) fractions. Isolated CD4⁺ T cells, without AC or IL-2, could also be stimulated with specific allergen, but the responses were rather low. DSCG inhibited, concentration dependently, all allergen-induced responses. Interestingly, only atopic derived CD4⁺ and CD8⁺ T cells were stimulated by soluble low-affinity IgE receptor (Fc?RII/sCD23) and IgE binding factor (IgEBF), including IgE enhancing factor, present in culture supernatants from RPMI 8866 and 166 A₂, respectively. These responses were also inhibited by DSCG. This was in contrast to the amplifying effect of DSCG on spontaneously proliferating RPMI 8866 and 166 A₂ cells, cultured in fresh cRPMI 1640 medium without sCD23 and IgE enhancing factor. Our results show that DSCG delivers an inhibitory signal or signals to PBMC subpopulations expressing Fc?RII/sCD23, either upregulated by phytohemagglutinin in normal and atopic cells, or by allergens or sCD23 in atopic cells. The findings suggest that sCD23 in supernatants or in serum may reverse the general inhibitory mode of DSCG.     

Soluble forms of membrane cofactor protein (CD46, MCP) are present in plasma, tears, and seminal fluid in normal subjects.

We have established an ELISA for determination of membrane cofactor protein (MCP, CD46) both solubilized from cell membranes and released in body fluids. In this assay, mouse MoAbs against MCP, M177 and M160 whose epitopes were different, were used as capture and detection antibodies, respectively. The NP-40 concentration in samples for MCP to be measured must be less than 0.05%. The detection limit of this MCP assay was 0.5 ng. The assay was used to quantify solubilized membrane MCP, and soluble MCP in normal human plasma, serum, urine, saliva, tears, and seminal fluid, and culture media of tumour cell lines. Soluble MCP was barely detected in the conditioned media of the cell lines. The levels of sMCP in plasma and serum were 10-60 ng/ml and that in tears, 0-50 ng/ml. Seminal fluid contained about 10-fold more soluble MCP than serum. Soluble MCP was not detectable by this assay in the other body fluids, suggesting that their MCP levels were less than the detection limit, if any.     

Comparison of Nine Commercially Available Clostridium difficile Toxin Detection Assays,a Real-Time PCR Assay for C. difficile tcdB,and a Glutamate Dehydrogenase Detection Assay to Cytotoxin Testing and Cytotoxigenic Culture Methods

The continuing rise in the incidence of Clostridium difficile infection is a cause for concern, with implications for patients and health care systems. Laboratory diagnosis largely relies on rapid toxin detection kits, although assays detecting alternative targets, including glutamate dehydrogenase (GDH) and toxin genes, are now available. Six hundred routine diagnostic diarrheal samples were tested prospectively using nine commercial toxin detection assays, cytotoxin assay (CYT), and cytotoxigenic culture (CYTGC) and retrospectively using a GDH detection assay and PCR for the toxin B gene. The mean sensitivity and specificity for toxin detection assays were 82.8% (range, 66.7 to 91.7%) and 95.4% (range, 90.9 to 98.8%), respectively, in comparison with CYT and 75.0% (range, 60.0 to 86.4%) and 96.1% (91.4 to 99.4%), respectively, in comparison with CYTGC. The sensitivity and specificity of the GDH assay were 90.1% and 92.9%, respectively, compared to CYT and 87.6% and 94.3%, respectively, compared to CYTGC. The PCR assay had the highest sensitivity of all the tests in comparison with CYT (92.2%) and CYTGC (88.5%), and the specificities of the PCR assay were 94.0% and 95.4% compared to CYT and CYTGC, respectively. All kits had low positive predictive values (range, 48.6 to 86.8%) compared with CYT, assuming a positive sample prevalence of 10% (representing the hospital setting), which compromises the clinical utility of single tests for the laboratory diagnosis of C. difficile infection. The optimum rapid single test was PCR for toxin B gene, as this had the highest negative predictive value. Diagnostic algorithms that optimize test combinations for the laboratory diagnosis of C. difficile infection need to be defined.Clostridium difficile is a major nosocomial pathogen causing a range of symptoms from mild to severe diarrhea and is the etiological agent of pseudomembranous colitis. The incidence of C. difficile infection has increased markedly in many countries, notably associated with the epidemic spread of PCR ribotype 027 (NAP1) since its recognition in the United States and Canada (6, 7, 13). It is essential to have accurate laboratory diagnosis of C. difficile infection to ensure patients receive appropriate treatment and that correct infection control measures are put in place. Also, inaccurate testing will potentially lead to poor quality surveillance data that may lead to inappropriate infection prevention measures.The cytotoxin assay (CYT), first described by Chang et al., detects the toxins produced by C. difficile in the supernatants of patient feces, using both antitoxin-protected and nonprotected cell monolayers (2). This assay is commonly used as the gold standard method for comparison in toxin kit evaluations, although its use in routine microbiology laboratories has largely been superseded. Cytotoxogenic culture (CYTGC) has been used as an alternative gold standard method to CYT testing, i.e., where CYT testing is performed using culture supernatants instead of directly from the fecal sample (1). These are lengthy assays, however, with results delayed for 24 to 48 h for the CYT and for more than 72 h for the CYTGC assay.Rapid, commercially available, toxin detection kits removed the need for laboratories to maintain the cell lines necessary for CYT testing. Although originally designed to detect either toxin A or toxin B, the kits currently available detect both toxins to enable detection of toxin A-negative, toxin B-positive strains. Alternative detection methods have now been developed, including an assay that detects a surface-associated enzyme of C. difficile, glutamate dehydrogenase (GDH). Zheng et al. reported that the Techlab C. diff Chek-60 GDH assay had good sensitivity compared to CYT testing of 92%, but it had a low specificity of 89.1% and poor positive predictive value (PPV) of 57.7% (21). Commercial molecular diagnostic tests, such as the BD GeneOhm C. difficile PCR assay, which detects the tcdB toxin gene of C. difficile, are now available. A recent study compared this assay to CYT testing and found a sensitivity and specificity of 90.9% and 95.2%, respectively (15). The PPVs of the BD GeneOhm C. difficile PCR assay were only 70.2% compared with CYT testing and 89.5% compared with CYTGC (15), with a prevalence of toxin-positive fecal samples of 15.2%.Despite numerous evaluations of C. difficile testing methods, no evaluation has compared all methods on the same sample set. This study compared six commercially available enzyme immunoassays (EIAs) and three lateral-flow assays for detection of C. difficile toxins A and B, a PCR assay for detection of the tcdB gene of C. difficile, and an assay for detection of C. difficile-specific GDH, with CYT testing and CYTGC.     

Analysis of cyclin-dependent kinase inhibitor genes (CDKN2A,CDKN2B,and CDKN2C) in childhood rhabdomyosarcoma

p16^INK4A, p15^INK4B, and p18 proteins are highly specific inhibitors of cyclin-dependent serine/threonine kinase (CDK) activities required for G1-S transition in the eukaryotic cell division cycle. Mutations, mainly homozygous deletions, of the CDKN2A (p16^INK4A/MTSI) gene have been recently found in tumor cell lines and in many primary tumors. We looked for homozygous deletions of CDKN2A, CDKN2B (p15^INK4B), and CDKN2C (p18) in 12 primary rhabdomyosarcoma (RMS) specimens and in five cell lines established from this cancer type. By means of polymerase chain reaction (PCR) and PCR-single strand conformation polymorphism (PCR-SSCP), we analyzed the presence of biallelic gene deletion or point mutation causing gene function loss. All the examined tumor cell lines (100%) and three of 12 (25%) primary tumors showed homozygous deletion of CDKN2A. Furthermore, no aberrant bands in primary tumors were detected via SSCP, suggesting the absence of mutations in the coding region. In all cases the deleted area at 9p21 also involved the CDKN2B gene. Conversely, no homozygous deletion or point mutations were detected when CDKN2C was analyzed. Our results strongly indicate that the p16^INK4A (and/or p15^INK4B) protein plays a key role in the development and/or progression of childhood rhabdomyosarcoma and suggest that this CDK-inhibitor protein might control proliferation and/or differentiation of human muscle cells. Moreover, alteration of CDKN2C does not appear to be involved in the genesis of rhabdomyosarcoma. Genes Chromosom Cancer 15:217–222 (1996). © 1996 Wiley-Liss, Inc.     

THE POLYMORPHIC HUMAN TLX-B/CD46/MCP SYSTEM AND ITS IMPLICATIONS IN TRANSPLANTATION AND REPRODUCTION

TLX antigens have been found on most peripheral blood cells, trophoblasts, seminal vesicle cells and sperms. These antigens seem to be associated with the membrane co-factor protein (MCP) and the CD46 antigen. Alloantibodies to TLX antigens with FctRII-blocking features were obtained by transfusion of leucocytes or platelets. Preliminary population studies revealed that alloantibodies to TLX/CD46/MCP recognize four overlapping specificities. The terminology TLX-B was introduced with specificities TLX-BI, B2, B3, B4 and frequencies obtained in the population were: 38%, 46%, 42% and 26%, respectively. Family studies showed an independent segregation of the TLX and HLA alleles. At the cellular protein on trophoblast, the alloantibody detected a glycoprotein of 66-67 kDa molecular mass, which may correspond to the a chain of the TLX/CD46/MCP isotypes. A direct association of the alloantibody with FctRII could be excluded thus its FctR blocking feature is probably based on an indirect functional effect. After transfusion and in pregnancy the induction of TLX alloantibody production depended on the mismatching in the TLX/CD46/MCP phenotypes. Probable associations were revealed in the case of recurrent habitual abortion between the lack of FCTR blocking antibody production and the matched TLX specificities of the couples. After transfusion, TLX alloantibody production with FCTR and MLR blocking function was induced only when the recipient was lacking the TLX specificities expressed on the donor cells. Suppression of MLR was found only when TLX specificity in sera corresponded to the TLX specificity of the effector cell. The immunopathological importance of these findings in transplantation and reproductive medicine has yet to be clarified.     

Selective inhibition of PGE2 production in cells transfected withc-fms encoded CSF-1 receptor genes by the tyrosine kinase inhibitor,ST638

In this study, we investigated the effect of ST638, a novel tyrosine kinase inhibitor, on TPA and ionomycin-stimulated PGE₂ production after transfection ofc-fms encoded CSF-1 receptor (CSF-1R) DNA (with or without transforming activity) into the myeloid progenitor cell line, 32D. ST638 inhibited prostaglandin E₂ (PGE₂) production induced after transfection of normalc-fms into 32D cell line, but failed to inhibit PGE₂ production induced in 32D cells transformed withc-fms containing a point mutation at tyrosine 969 in the intracellular domain (substitution with phenylalanine) and at leucine 301 in the extracellular domain (substitution with serine). The selective effect on PGE₂ production in normalc-fms-bearing cells by ST638 may indicate the presence of different induction pathways, one sensitive to ST638 and the other not. Alternatively, the phosphorylation site at tyr⁹⁶⁹ inc-fms may be a site of ST638 action, and upon its removal from the transformingc-fms, ST638 loses its inhibitory effect.     

Lack of p56 lck expression correlates with CD4 endocytosis in primary lymphoid and myeloid cells

In cell lines the endocytic properties of CD4 are regulated through its association with the src -family tyrosine kinase p56 ^lck . In lymphoid cell lines expressing p56 ^lck , CD4 is restricted to the cell surface and undergoes only limited internalization. Phosphorylation of the cytoplasmic domain of CD4 causes p56 ^lck to dissociate and activates an endocytosis signal leading to the internalization of CD4 through clathrin-coated pits. In p56 ^lck -negative transfected cell lines CD4 is constitutively internalized, but internalization is inhibited when p56 ^lck is expressed in these cells. We now demonstrate that these endocytic properties of CD4 determined in transfected cell lines hold true for CD4 naturally expressed on myeloid cell lines (HL-60 and U937), as well as on primary lymphocytes, monocytes and macrophages isolated from human blood. CD4 showed limited internalization on p56 ^lck -positive lymphocytes, but was rapidly internalized in p56 ^lck -negative monocytes and macrophages. Surprisingly, rapid internalization of CD4 was seen with the lymphocytes from one unidentified donor. In these cells we failed to detect p56 ^lck expression by Western blotting.     

Membrane cofactor protein (MCP; CD46) expression in transgenic mice.

Human membrane cofactor protein (MCP; CD46) is a widely distributed complement regulator. In the mouse, expression of MCP is largely restricted to the testis while a related, widely expressed protein (Crry) appears to perform MCP's (CD46) regulatory activity. We have developed two mouse strains transgenic for human MCP (CD46) utilizing an approximately 400 kb YAC clone carrying the complete gene. A third mouse strain was generated using an overlapping YAC clone isolated from a second library. The expression of human MCP (CD46) in these mouse strains was characterized by immunohistochemistry, FACS, Western blotting and RT-PCR. No differences were detected in the isoform pattern or distribution among the three strains, although the expression level varied according to how many copies of the gene were integrated. The expression profile closely mimicked that observed in humans, including the same pattern of isoform expression as the donor. In addition, tissue-specific isoform expression in the kidney, salivary gland and brain paralleled that observed in man. The transgenic mice expressed low levels of MCP (CD46) on their E, in contrast to humans but in line with most other primates. These mice should be a useful tool to analyse tissue-specific expression, to establish animal models of infections and to characterize the role of MCP (CD46) in reproduction.     

CD23/CD21 interaction is required for presentation of soluble protein antigen by lymphoblastoid B cell lines to specific CD4+ T cell clones

Previous studies have documented a role for membrane-bound CD23 (the low affinity FcεRII) in presentation of alloantigens by B cells. The aim of the present study was to examine the involvement of cell surface CD23 in presentation of more conventional soluble protein antigens to T cells. We show that antibodies to CD23 and to its lymphocyte-associated second ligand, CD21, inhibit presentation of the cow's milk allergen casein, by autologous CD23⁺CD21⁺ B-EBV cell lines to casein-specific HLA-DP-restricted CD4⁺ T cell clones obtained from patients with either reaginic or enterophatic forms of cow's milk protein intolerance. Maximal inhibition was achieved when the antibodies were added at the initiation of the culture. The absence of specific inhibition by an anti-DRα monoclonal antibody (mAb) argues against a steric hindrance phenomenon impeding access of the T cell receptor to major histocompatibility complex class II molecules. Rather, anti-CD23 and anti-CD21 mAb-induced inhibition of antigen presentation seems to affect at least partly, heterotypic conjugate formation through CD23/CD21 interaction. Double immunofluorescence labeling of the T cell clones and antibody inhibition of T/B conjugate formation shows that functional CD23 and CD21 molecules are induced on T cells following contact with B-EBV cell lines. Taken together, these data indicate that CD23/CD21 interactions between T and B cells are required for presentation of soluble protein antigens by B-EBV cell lines to specific CD4⁺ T cells. The potential implications of these findings for allergen-specific T cell activation are discussed.     

Expression and function of the murine CD95/FasR/APO-1 receptor in relation to B cell ontogeny

Mice defective in Fas-mediated apoptosis (lpr phenotype) have an intrinsic B cell abnormality that predisposes them to autoantibody production. To investigate potential roles for the Fas receptor (FasR) in B cell tolerance, FasR expression and function were evaluated at different stages of B cell development. FasR expression was very low or absent on pro- and pre-B cells, but was detected in early B cell lines and was up-regulated following IFN-γ-induced maturation of the pre-B cell line 70-Z. Whereas FasR expression was very low in resting mature sIgM⁺ B cells, expression was markedly increased following mitogen activation and was also elevated in two mature sIgG⁺ lymphoma lines. FasR expression correlated strongly with the ability of B cells to undergo Fas-mediated apoptosis. In addition, although Fas did not appear to play a direct role in apoptosis mediated by cross-linking of sIg with anti-IgM, anti-FasR and sublethal concentrations of anti-Ig were additive in the induction of apoptosis in the early B cell line WEHI 231. These findings suggest that the Fas pathway is not involved in the elimination of pro- and pre-B cells, but are compatible with an ancillary role for FasR in the elimination of early B cells and elimination of mature B cells following activation.     

Molecular remodelling of human CD46 for xenotransplantation: designing a potent complement regulator without measles virus receptor activity

In pig-to-human discordant xenotransplantation, human complement (C) is a major barrier to long survival of xenografts. The current idea on how to cope with this barrier is that human complement regulatory proteins are forcibly expressed on xenografts to serve as safeguards against host C-induced hyperacute rejection of xenografts. Co-expression of decay-accelerating factor (DAF) (CD55) and membrane cofactor protein (MCP) (CD46) would be the first choice for this trial, because most of the human cells are protected from C-mediated damage by two different modes with these two kinds of C-regulators. Many problems have arisen, however, for MCP expression on grafts. (i) MCP acts as a measles virus receptor, which may function to render donor pigs measles virus (MV) sensitive. (ii) MCP signals immune suppression which causes devastation of the recipient's immune responses. (iii) MCP exerts relatively low self-protective activity against C compared with other cofactors; development of more efficient forms is desirable. (iv) Grafts with a high expression level of MCP are difficult to produce. In this study, we made a number of cDNA constructs of MCP, expressed them on swine endothelial cell lines, and tested cell-protective potency and MV susceptibility. The short consensus repeat 1 (SCR1)-deleted MCP with glycosyl phosphatidylinositol (GPI)-anchored form (Delta1MCP-PI) of MCP was found to be most suitable for the purpose of overcoming these problems. However, it was also found that MV induces two modes of cytopathic effect (CPE) on swine endothelial cells, either MCP-dependent or -independent. Here, we discuss these two points which will be raised through study of MCP-transgenic animals.     

Modeling how CD46 deficiency predisposes to atypical hemolytic uremic syndrome

Mutations in complement regulatory proteins predispose to the development of aHUS. Approximately 50% of patients bear a mutation in one of three complement control proteins, factor H, factor I, or membrane cofactor protein (MCP; CD46). Another membrane regulator that is closely related to MCP, decay accelerating factor (DAF; CD55) thus far has shown no association with aHUS and continues to be investigated. The goal of this study was to compare the regulatory profile of MCP and DAF and to assess how alterations in MCP predispose to complement dysregulation. We employed a model system of complement activation on Chinese hamster ovary (CHO) cell transfectants. The four regularly expressed isoforms of MCP and DAF inhibited C3b deposition by the alternative pathway. DAF, but not MCP, inhibited the classical pathway. Most patients with MCP-aHUS are heterozygous and express only 25-50% of the wild-type protein. We, therefore, analyzed the effect of reduced levels of wild-type MCP and found that cells with lowered expression levels were less efficient in inhibiting alternative pathway activation. Further, a dysfunctional MCP mutant, expressed at normal levels and identified in five patients with aHUS (S206P), failed to protect against C3b amplification on CHO cells, even if expression levels were increased 10-fold. Our results add new information relative to the necessity for appropriate expression levels of MCP and further implicate the alternative pathway in disease processes such as aHUS.     

Involvement of CD44 variant isoforms in hyaluronate adhesion by human activated T cells

The standard, 85–95-kDa form of the hyaluronic acid (HA) receptor CD44 and a number of CD44 mRNA splice variants play important roles in immune responses and tumor metastasis. Variants carrying exon 6 (v6), or 9 (v9) products are transiently expressed on activated human T cells. Here, modulation experiments with specific monoclonal antibodies (mAb) indicate that v6 and v9 are expressed independently on distinct sets of CD44 molecules, and that their combined expression is necessary for HA adhesion. Moreover, the finding that mAb-mediated cross-linking of v6 and v9 promoted cytosolic free Ca²⁺ mobilization and co-stimulated CD3-triggered T cell proliferation indicates that v6 and v9 possess signaling and effector function activation ability. Finally, HA-mediated signaling appears to be required for variant-dependent adhesion to HA. The observation that soluble HA promoted cytosolic free Ca²⁺ mobilization indicates that HA-induced Ca²⁺ mobilization can occur during T cell-HA interaction. Since Ca²⁺ mobilization was inhibited by pretreatment of cells with an anti-CD44 mAb directed against the HA-binding domain of CD44, CD44 receptors appear to be involved in HA-mediated signal transduction. The requirement of cytosolic free Ca²⁺ for adhesion is shown by the fact that ionomycin (a Ca²⁺ ionophore) stimulated, and EGTA (a Ca²⁺ chelator), inhibited HA adhesion. In addition, cytoskeletal functional activation is required for cell adhesion to HA, since drugs that block actin polymerization, such as cytochalasin B, or actomyosin contraction, such as the calmodulin antagonist W-7, inhibited cell adhesion to HA. As this adhesion is also ADP ribosylation-sensitive, it may involve a GTP-dependent function of CD44v, i.e. ankyrin binding. Our data indicate that there is a functional hierarchy among the CD44 molecules expressed on human peripheral blood T cells and that the splice variants, as compared to the standard form, exhibit a greater HA binding ability which involves CD44-mediated signaling and effector function activation.     

A cytotoxic CD40/p55 tumor necrosis factor receptor hybrid detects CD40 ligand on herpesvirus saimiri-transformed T cells

The B cell activation molecule CD40 and the p55 tumor necrosis factor receptor (p55TNFR) belong to the same family of structurally conserved proteins. We constructed a chimeric receptor consisting of the CD40 extracellular and transmembrane domains and the p55TNFR intracellular domain. This receptor hybrid retained the biological activity and the ligand specificity of the respective wild-type receptor domains. Thus it exerted a marked cytotoxic effect in three different transfected cell lines after activation not only with anti-CD40 antibody but also with CD40 ligand (CD40L) in soluble and membrane-bound forms. Using hybrid-transfected baby hamster kidney cells we demonstrated that herpesvirus saimiri-transformed human CD4⁺ T lymphocytes constitutively express bioactive CD40 ligand on their surface. The hybrid receptor-based assay was highly specific for CD40 activating reagents and more sensitive than an assay measuring CD40-mediated B cell rescue from apoptosis. Hence CD40/p55TNFR transfectants may be useful for dissecting CD40L-mediated events in T-B cell interactions, and also to detect a defective CD40L molecule in putative hyper-IgM syndrome patients.