Regulation of CD147 cell surface expression: involvement of the proline residue in the CD147 transmembrane domain

CD147, also known as extracellular matrix metalloproteinase inducer, is a regulator of matrix metalloproteinase production and serves as a signaling receptor for extracellular cyclophilins. Here we demonstrate that the cell surface expression of CD147 is regulated by cyclophilins via the transmembrane domain of CD147. Solution binding experiments demonstrated that the transmembrane domain was both necessary and sufficient for CD147 binding to cyclophilin A (CypA). Treatment with cyclosporin A significantly reduced surface expression of CD147 and of CD8-CD147 fusion protein carrying the extracellular domain of CD8 fused to the transmembrane and cytoplasmic domains of CD147, but did not affect expression of CD8. Peptide binding studies demonstrated specific interaction between CypA and the proline-containing peptide from the CD147 transmembrane domain. Mutation of this proline residue reduced binding of CD147-derived peptides to CypA and also diminished transport of CD147 to the plasma membrane without reducing the total level of CD147 expression. These results suggest involvement of a cyclophilin-related protein in CD147 cell surface expression and provide molecular details for regulation of CD147 trafficking by cyclophilins.     

Identification of four sites of stimulated tyrosine phosphorylation in the MUC1 cytoplasmic tail

MUC1 is an integral membrane protein expressed on the apical surface of epithelial cells where it acts as a signaling receptor. Its cytoplasmic tail (CT) contains seven, highly conserved tyrosine residues, some of which are constitutively phosphorylated and serve as recognition sites for SH2 domain proteins involved in intracellular signal transduction. However, no studies have determined which MUC1 tyrosines are phosphorylated or which signaling pathways are activated in response to stimulation of its ectodomain. In this report, we used our previously characterized CD8/MUC1 chimeric protein that is tyrosine phosphorylated on the MUC1 CT in response to extracellular treatment with CD8 antibody and performed site-directed mutagenesis of all seven tyrosines, both individually and in multiple combinations, to identify the particular sites of stimulated phosphorylation. We observed four phosphorylation sites, three present in sequence motifs with known signaling potential (Y(20), Y(46), and Y(60)) and one previously uncharacterized (Y(29)). These results are discussed in the context of the role of MUC1 in signal transduction.     

The simian immunodeficiency virus envelope glycoprotein contains multiple signals that regulate its cell surface expression and endocytosis

The cell surface expression of the envelope glycoproteins (Envs) of primate immunodeficiency viruses is, at least in part, regulated by endocytosis signal(s) located in the Env cytoplasmic domain. Here, we show that a membrane proximal signal that directs the simian immunodeficiency virus (SIV) Env to clathrin‐coated pits, and is conserved in all SIV and human immunodeficiency virus Envs, conforms to a Yxxø motif (where x can be any amino acid and Ø represents a large hydrophobic residue). This motif is similar to that described for a number of cellular membrane proteins. By surface plasmon resonance we detected a high affinity interaction between peptides containing this membrane proximal signal and both AP1 and AP2 clathrin adaptor complexes. Mutation of the tyrosine in this membrane proximal motif in a SIV Env with a prematurely truncated cytoplasmic domain leads to a ≥25‐fold increase in Env expression on infected cells. By contrast, the same mutation in an Env with a full‐length cytoplasmic domain increases cell surface expression only 4‐fold. We show that this effect results from the presence of additional endocytosis signals in the full‐length cytoplasmic domain. Chimeras containing CD4 ecto‐ and membrane spanning domains and a full‐length SIV Env cytoplasmic domain showed rapid endocytosis even when the membrane proximal tyrosine‐based signal was disrupted. Mapping experiments indicated that at least some of the additional endocytosis information is located between residues 743 and 812 of Env from the SIV_mac239 molecular clone. Together, our findings indicate that the cytoplasmic domain of SIV Env contains multiple endocytosis and/or trafficking signals that modulate its surface expression on infected cells, and suggest an important role for this function in pathogenesis.     

Ecto 5'-nucleotidase and nonspecific alkaline phosphatase. Two AMP-hydrolyzing ectoenzymes with distinct roles in human airways

In human airways, extracellular adenosine regulates epithelial functions supporting mucociliary clearance, an important airway defense mechanism against bacterial infection. Thus, defining the mechanisms of adenosine generation is critical for elucidating the role of this nucleoside in airway homeostasis. In this study, we identified the source of adenosine on the mucosal surface of human airway epithelia. Polarized primary cultures of human nasal or bronchial epithelial cells were assayed for transepithelial transport, cytosolic and cell surface adenosine production. Ussing chamber experiments indicated that serosal 1 microM [(3)H]adenosine was not transported to the mucosal compartment. Messenger RNA for the cytosolic AMP-specific 5'-nucleotidase (CN-I) was not detected in human bronchial epithelial cells, suggesting that mucosal adenosine did not originate from intracellular pools. In contrast, extracellular 0.1 mm ATP was rapidly dephosphorylated into adenosine on the mucosal epithelial surface. We identified two ectonucleotidases that mediated the conversion of AMP to adenosine: ecto 5'-nucleotidase (ecto 5'-NT, CD73) and alkaline phosphatase (AP). Both mucosal and serosal epithelial surfaces displayed ecto 5'-NT activity (K(m) = 14 microM, V(max) = 0.5 nmol x min(-1) x cm(-2)), whereas AP activity was restricted to the mucosal surface (K(m,)(high) = 36 microM, V(max) = 1.2 nmol x min(-1) x cm(-2); K(m,)(low) = 717 microM, V(max) = 2.8 nmol x min(-1) x cm(-2)). In bronchial cultures and tissues, ecto 5'-NT accounted for >80% of total activity toward 0.01 mm AMP, compared with <15% for 5 mm AMP. The proximal airway AP isoform was identified as nonspecific AP (NS AP) by levamisole sensitivity and mRNA expression. The two ectoenzymes presented opposite airway distributions, ecto 5'-NT and NS AP mRNA dominating in higher and lower airways, respectively. Collectively, these experiments support a major role for extracellular nucleotide catalysis and for ecto 5'-NT and NS AP in the regulation of adenosine concentrations on airway surfaces.     

Human CD8 beta, but not mouse CD8 beta, can be expressed in the absence of CD8 alpha as a beta beta homodimer

The T cell coreceptor CD8 exists on mature T cells as disulfide-linked homodimers of CD8 alpha polypeptide chains and heterodimers of CD8 alpha- and CD8 beta-chains. The function of the CD8 alpha-chain for binding to MHC class I and associating with the tyrosine kinase p56lck was demonstrated with CD8 alpha alpha homodimers. CD8 alpha beta functions as a better coreceptor, but the actual function of CD8 beta is less clear. Addressing this issue has been hampered by the apparent inability of CD8 beta to be expressed without CD8 alpha. This study demonstrates that human, but not mouse, CD8 beta can be expressed on the cell surface without CD8 alpha in both transfected COS-7 cells and murine lymphocytes. By creating chimeric proteins, we show that the murine Ig domain of CD8 beta is responsible for the lack of expression of murine CD8 beta beta dimers. In contrast to CD8 alpha alpha, CD8 beta beta is unable to bind MHC class I in a cell-cell adhesion assay. Detection of this form of CD8 should facilitate studies on the function of the CD8 beta-chain and indicates that caution should be used when interpreting studies on CD8 function using chimeric protein with the murine CD8 beta beta Ig domain. In addition, we demonstrate that the Ig domains of CD8 alpha are also involved in controlling the ability of CD8 to be expressed. Mutation of B- and F-strand cysteine residues in CD8 alpha reduced the ability of the protein to fold properly and, therefore, to be expressed.     

T cell receptor-alpha beta lacking the beta-chain V domain can be expressed at the cell surface but prohibits T cell maturation.

A TCR-beta gene lacking V domain sequences (delta V-TCR-beta) was inserted into the germline of mice. Expression of the transgene inhibited endogenous TCR-beta, but not TCR-alpha gene rearrangement and expression. The mutated TCR-beta gene affected alpha beta T cell development: the common thymocyte pool was normal in cell number, with cells expressing CD4 and CD8, but the mature, "CD3bright" population expressing either CD4 or CD8 molecules was reduced by 90%. To help understand these effects on TCR-beta gene rearrangement and T cell development, biosynthesis of the delta V-TCR-beta protein was analyzed in a tumor cell line derived from a transgenic mouse. Despite absence of the V domain, the delta V-TCR-beta chain paired with endogenous TCR-alpha chains and assembled with CD3 gamma, -delta, -epsilon, and -zeta components in the endoplasmatic reticulum, followed by transport through the Golgi complex to the plasma membrane. Therefore, assembly of the complex, and even cell surface expression, may be relevant for allelic exclusion of the TCR-beta gene. In the common thymocyte population, the CD3 components, endogenous TCR-alpha, and the delta V-TCR-beta gene product were expressed at the RNA level, but endogenous TCR-beta was not. The TCR-alpha delta beta/CD3 complex was present at the cell surface at low levels and was functional in terms of anti-CD3-induced Ca2+ mobilization. The observed arrest of alpha beta T cell development at the CD4+8+ thymocyte stage indicates that ligand recognition by the TCR, with contribution of the beta-chain V domain, is not required for transition of CD4-8- thymocytes to the CD4+8+ phenotype, but necessary for entry into the "single positive," CD3bright differentiation stage.     

Phosphorylation of mouse thymocyte CD4 and CD8: regulation of surface expression.

Murine T cell surface antigens, CD4 and CD8 are phosphorylated in response to phorbol 12-myristate 13-acetate, a protein kinase C activator, but not phosphorylated after concanavalin A, Ca2+ ionophore or dibutyryl-cAMP treatment. We examined the cell surface expression of both antigens and show that surface CD4 on CD4+CD8+ and CD4+CD8- thymocytes is rapidly decreased after PMA treatment, while CD8 expression is unaffected. Prolonged PMA treatment, which down-regulates protein kinase C, allows CD4 reexpression only in the CD4+CD8- population, suggesting that different mechanisms of cell surface antigen expression are operating in the two thymocyte subpopulations.     

The negative effect of human immunodeficiency virus type 1 Nef on cell surface CD4 expression is not species specific and requires the cytoplasmic domain of CD4.

The nef gene product of human immunodeficiency virus type 1 has been shown to induce CD4 downregulation from the surface of human cells. To determine if this effect is species specific, we used a retroviral vector to transduce the human immunodeficiency virus type 1 nef gene into murine cells expressing human, chimpanzee, or murine CD4. Our results indicate that Nef induces cell surface downregulation of all three molecules. We also determined that Nef is functional in murine T cells and induces downregulation of both murine CD4 and CD8 (Ly-2) from the cell surface. In contrast, Nef does not downregulate cell surface expression of human CD8 in either murine or human cells. By using a mutant of human CD4 lacking its cytoplasmic domain and a human CD4/CD8 chimera, we determined that the cytoplasmic domain of CD4 is required for its downregulation by Nef. Transduction with a control vector had no effect on CD4 cell surface levels, indicating that retroviral transduction by itself has no significant effect on the cell surface levels of CD4. These results show that the observed downregulation of CD4 by Nef is independent of human-specific factors, is not species specific, and requires the cytoplasmic domain of CD4.     

A second subunit of CD8 is expressed in human T cells.

The CD8 glycoprotein plays important functions in T cell development and in T cell activation. In rodents, CD8 is a heterodimer, consisting of an alpha-chain (Lyt2) and a beta-chain (Lyt3). In humans, only the alpha-chain has been detected, and it has been thought that CD8 consists of homodimers of this protein. We have isolated functional cDNA clones encoding human CD8 beta, and show that the CD8 beta protein is expressed on the surface of CD8+ human T cells. cDNA clones encoding multiple forms of the human CD8 beta-chain have been isolated and characterized. These structural variants, which are likely to arise by alternative splicing, differ in the sequences encoding the cytoplasmic domain, which can consist of 19, 30, or 52 amino acids. One of the cDNAs lacks nucleotide sequences corresponding to a hydrophobic transmembrane domain, and may encode a secreted CD8 beta protein. The protein product of the human CD8 beta gene can be detected by a recently described anti-CD8 monoclonal antibody, 597. Expression of the epitope recognized by this antibody requires co-expression of the CD8 alpha and CD8 beta gene products. About 90% of human CD8 alpha positive thymocytes and peripheral blood lymphocytes express CD8 beta at the cell surface. Expression of the CD8 beta chain is thus conserved between human and rodents, and the variant CD8 beta polypeptides may have distinct roles in T cell function and development.     

The cytoplasmic domain of CD4 is sufficient for its down-regulation from the cell surface by human immunodeficiency virus type 1 Nef.

Human immunodeficiency virus type 1 Nef down-regulates surface expression of murine and human CD4 but not human CD8. We recently reported that the cytoplasmic domain of CD4 is required for its down-regulation by Nef. Using a chimeric molecule composed of the extracellular and transmembrane domains of human CD8 fused to the cytoplasmic domain of human CD4, we show here that the cytoplasmic domain of CD4 is sufficient for down-regulation by Nef. Since the cytoplasmic domain of CD4 is also the site of its association with p56lck, we used a series of CD4 mutants to determine whether the regions of the cytoplasmic domain of CD4 required for down-regulation by Nef are the same as those required for p56lck binding. Our results indicate that the portion of the cytoplasmic domain required for the down-regulation of CD4 by Nef overlaps with the binding site of p56lck, but the cysteine residues which are essential for the association of CD4 with p56lck are not required. This observation raised the possibility that Nef competes with p56lck for binding to CD4. However, under conditions which are considerably milder than those permissive for coimmunoprecipitation of CD4 and p56lck, we found no evidence for an association between Nef and CD4. While a decrease in total CD4 was observed in lysates of cells expressing Nef, the levels of p56lck were not significantly affected. Pulse-chase experiments further revealed a decrease in the half-life of CD4 in Nef-expressing cells. These results show that the decrease in surface CD4 expression induced by Nef is mediated at least in part by a decrease in the half-life of CD4 protein. These results also indicate that a large portion of p56lck is free of CD4 in T cells expressing Nef, which could have a significant effect on T-cell function.     

The retention factor p11 confers an endoplasmic reticulum-localization signal to the potassium channel TASK-1

The interaction of the adaptor protein p11, also denoted S100A10, with the C-terminus of the two-pore-domain K+ channel TASK-1 was studied using yeast two-hybrid analysis, glutathione S-transferase pull-down, and co-immunoprecipitation. We found that p11 interacts with a 40 amino-acid region in the proximal C-terminus of the channel. In heterologous expression systems, deletion of the p11-interacting domain enhanced surface expression of TASK-1. Attachment of the p11-interacting domain to the cytosolic tail of the reporter protein CD8 caused retention/retrieval of the construct in the endoplasmic reticulum (ER). Attachment of the last 36 amino acids of p11 to CD8 also caused ER localization, which was abolished by removal or mutation of a putative retention motif (H/K)xKxxx, at the C-terminal end of p11. Imaging of EGFP-tagged TASK-1 channels in COS cells suggested that wild-type TASK-1 was largely retained in the ER. Knockdown of p11 with siRNA enhanced trafficking of TASK-1 to the surface membrane. Our results suggest that binding of p11 to TASK-1 retards the surface expression of the channel, most likely by virtue of a di-lysine retention signal at the C-terminus of p11. Thus, the cytosolic protein p11 may represent a 'retention factor' that causes localization of the channel to the ER.     

Nonequivalent effects of PKC activation by PMA on murine CD4 and CD8 cell-surface expression

The membrane glycoproteins CD4 (L3T4) and CD8 (Lyt2) are expressed on distinct populations of mature murine T lymphocytes, and are thought to be receptors for monomorphic determinants expressed on MHC class II and class I molecules, respectively. Although they differ in their ligand specificity, it has been presumed that CD4 and CD8 perform equivalent functions in the T cells that bear them. Since activation of protein kinase C (PKC) is known to cause rapid down-regulation of various receptors, including the T cell receptor complex (TcR complex), we treated cells with phorbol 12-myristate 13-acetate (PMA), a PKC activator, to determine whether cell-surface expression of CD4 and CD8 would be similarly affected by this intracellular mediator. Brief or relatively prolonged treatment with PMA induced mature murine T cells to reduce their surface expression of the TcR complex and of CD4, but not of CD8. Similarly, PMA rapidly induced transfected L cells to down-regulate surface CD4 expression, but had no effect on surface CD8 expression. Most significantly, PMA treatment induced CD4+CD8+ immature thymocytes to rapidly reduce their surface CD4 expression, but, again, it had no immediate effect on the surface expression of CD8. These results indicate that CD4 and TcR complex cell-surface expression are both sensitive to PKC activation by brief treatment with PMA, whereas CD8 expression is not, and suggest that CD4 and CD8 surface expression levels are regulated by distinct intracellular mechanisms.     

Structural requirements for catalysis,expression, and dimerization in the CD26/DPIV gene family

Dipeptidyl peptidase IV (DP-IV/CD26), fibroblast activation protein (FAP), DP-like 1 (DPL1), DP8, DP9, and DPL2 comprise the CD26 gene family. CD26/DP-IV has roles in liver disease, T cell costimulation, chemokine biology, type II diabetes, and tumor biology. DPIV substrates include the glucagonlike peptides, neuropeptide Y, and the chemokines CCL3, CCL5, CCL11, CCL22, and CXCL12. We have proposed that the extracellular region of CD26 is analogous to prolyl oligopeptidase in consisting of an alpha/beta hydrolase domain contributed by both N- and C-terminal portions of the polypeptide and a seven-blade beta-propeller domain. Replacing the C-terminal portion of the predicted alpha/beta hydrolase domain of CD26 (residues 501-766) with the homologous portion of DP8 or DP9 produced intact proteins. However, these chimeric proteins lacked dimerization and peptidase activity, suggesting that CD26 dimerization requires the C-terminal portion of the alpha/beta hydrolase domain. Deleting some N-terminal residues of the alpha/beta hydrolase domain of CD26 ablated peptidase activity and greatly diminished cell surface expression. Together with previous data that CD26 peptidase activity requires the C-terminal 20 residues, this suggests that peptidase activity requires the entire alpha/beta hydrolase domain. The catalytic triad of DP8 was shown to be Ser(739)-Asp (817)-His(849). Glu(259) of DP8, a residue distant from the catalytic triad yet greatly conserved in the CD26 gene family, was shown to be required for peptidase activity. These data concord with our predicted CD26 structure, indicate that biosynthesis of a functional fragment of CD26 is difficult, and confirm the functional homology of DP8 with CD26.     

CD154 variants associated with hyper-IgM syndrome can form oligomers and trigger CD40-mediated signals

X-linked hyper-IgM syndrome is a rare immunodeficiency disorder resulting from mutations in the gene encoding the CD40 ligand (CD154) molecule. These mutations are very heterogeneous, ranging from a single point mutation to a large deletion in the open reading frame. To investigate the molecular mechanisms that are responsible for the functional defect of these mutants, we examined the biochemical properties of 14 hyper-IgM-related CD154 mutant proteins produced by transient expression in COS7 cells. We show that deletion mutants lacking a significant portion of the tumor necrosis factor homologous domain cannot be stably produced. In contrast, point mutants can be detected as oligomers. Surprisingly, gene products of two point mutants, Thr-211 --> Asp and Met-36 --> Arg, can bind to the receptor, CD40. For Thr-211 --> Asp variant, it is comparable to the wild-type protein in its surface expression level, biochemical structure, and functional activities. Thus, it appears that this mutation is a polymorphism of CD154 gene. For Met-36 --> Arg variant, although it is interactive with CD40, it has a much lower surface expression level than wild-type protein. We propose that Met-36 --> Arg mutant represents a prototype of a defective CD154 family whose low cell surface expression of intrinsically active protein is simply insufficient to trigger productive signals through CD40.     

Differential expression of the human CD8beta splice variants and regulation of the M-2 isoform by ubiquitination

The CD8alphabeta heterodimer functions as a coreceptor with the TCR, influencing the outcome of CD8(+) T cell responses to pathogen-infected and tumor cells. In contrast to the murine CD8B gene, the human gene encodes alternatively spliced variants with different cytoplasmic tails (M-1, M-2, M-3, and M-4). At present, little is known about the expression patterns and functional significance of such variants. We used quantitative RT-PCR to demonstrate differential mRNA expression patterns of these splice variants in thymocytes and in resting, memory, and activated primary human CD8(+) T cells. In total CD8(+) T cells, mRNA levels of the M-1 variant were the most predominant and levels of M-3 were the least detected. The M-4 isoform was predominant in effector memory CD8(+) T cells. Upon stimulation of CD8(+) T cells, the M-2 variant mRNA levels were elevated 10-20-fold relative to resting cells in contrast to the other isoforms. Curiously, the M-2 isoform was not expressed on the cell surface in transfected cell lines. Using fluorescent chimeras of the extracellular domain of mouse CD8beta fused to the cytoplasmic tails of each isoform, the M-2 isoform was localized in a lysosomal compartment regulated by ubiquitination of a lysine residue (K215) in its cytoplasmic tail. In contrast, upon short-term stimulation, the M-2 protein localized to the cell surface with the TCR complex. The relatively recent evolution of CD8B gene splice variants in the chimpanzee/human lineage is most likely important for fine-tuning the CD8(+) T cell responses.     

Tcl-30, a new T cell-specific gene expressed in immature glucocorticoid-sensitive thymocytes.

Glucocorticoid treatment induces programmed cell death (apoptosis) in susceptible T lymphocytes. We have previously isolated and characterized 13 genes induced by agents that cause apoptosis in the murine thymoma cell line, WEHI-7TG. One of these genes, now designated Tcl-30, encodes a 2.4-kb mRNA that is specifically expressed in thymus. Sequence analysis of a full-length cDNA for Tcl-30 reveals a potential open reading frame of 454 amino acids that shares sequence identity to a human placental-specific protein of unknown function, PP11. The putative protein encoded by Tcl-30 also contains a cysteine-rich somatomedin B-like domain found in vitronectin, PP11, and the plasma cell membrane glycoprotein, PC-1. Subpopulations of murine thymocytes sorted on the basis of their expression of the CD4, CD8, and surface heat-stable Ag (HSA) were analyzed by an RNase protection assay to determine the expression of Tcl-30 as a function of T cell development. Tcl-30 was expressed exclusively in the HSA+ T cell populations (CD4-CD8-HSA+; CD4+CD8-HSA+; CD4-CD8+HSA+; and CD4+CD8+HSA+) and not in the HSA- single positive T cell populations (CD4+CD8- or CD4-CD8+) of the thymus or spleen. Therefore, we conclude that Tcl-30 expression is lost during T cell maturation and is absent at the most mature stages of T cell development. The function of Tcl-30 is unknown; however, the CD4+CD8+ double-positive subpopulation expressing Tcl-30 represents thymocytes destined to undergo massive intrathymic cell death. The possibility that Tcl-30 expression may define a population of T lymphocytes that is sensitive to glucocorticoid-mediated apoptosis is discussed.     

The molecular chaperone calnexin is expressed on the surface of immature thymocytes in association with clonotype-independent CD3 complexes.

Immature thymocytes express clonotype-independent CD3 complexes that, when engaged by anti-CD3 antibodies, can signal CD4-CD8- thymocytes to differentiate into CD4+CD8+ cells. Clonotype-independent CD3 complexes consist of CD3 components associated with an unknown 90 kDa surface protein. We now report the surprising finding that this 90 kDa surface protein is the molecular chaperone calnexin, an integral membrane protein previously thought to reside only in the endoplasmic reticulum (ER). We found that calnexin-CD3 complexes escaping to the cell surface utilize interchain associations distinct from those utilized by calnexin-CD3 complexes remaining within the ER. Specifically, we demonstrate that carbohydrate-mediated luminal domain interactions that are necessary for formation of most internal calnexin-CD3 complexes destined to be expressed on the cell surface, and we provide evidence that cytoplasmic domain interactions between calnexin and CD3 epsilon chains mask calnexin's ER retention signal, permitting calnexin and associated proteins to escape ER retention. Thus, the present study demonstrates that partial T cell antigen receptor complexes can escape the ER of immature thymocytes in association with their molecular chaperone to be expressed at low levels on the cell surface where they may function as a signaling complex to regulate thymocyte maturation.