Altered CD45 expression in C77G carriers influences immune function and outcome of hepatitis C infection

Background

A polymorphism in exon 4 (C77G) of CD45 that alters CD45 splicing has been associated with autoimmune and infectious diseases in humans.

Objective

To investigate the effect of C77G in hepatitis C virus (HCV) infected individuals and study the phenotype and function of peripheral blood mononuclear cells (PBMC) from healthy and hepatitis C infected C77G carriers.

Results

C77G individuals showed an increased proportion of primed CD45RA and effector memory CD8 T cells and more rapid activation of the lymphocyte specific protein tyrosine kinase (Lck) following CD3 stimulation. Transgenic mice with CD45 expression mimicking that in human C77G variants had more activated/memory T cells, more rapid proliferative responses, and activation of Lck.

Conclusions

Changes in CD45 isoform expression can alter immune function in human C77G variants and CD45 transgenic mice. The C77G allele may influence the outcome of HCV infection.     

Unusual case presentations associated with the CD45 C77G polymorphism

CD45, the leucocyte common antigen, is a haematopoietic cell specific tyrosine phosphatase. Human polymorphic CD45 variants are associated with autoimmune and infectious diseases and alter the phenotype and function of lymphocytes, establishing CD45 as an important regulator of immune function. Here we report four patients with diverse diseases with unusual clinical features. All four have the C77G polymorphism of CD45 exon 4, which alters the splicing and CD45RA/CD45R0 phenotype of lymphocytes. We suggest that C77G may be a contributing factor in these unusual cases.     

A transmembrane protein–tyrosine phosphatase receptor type C (CD45) exon A point mutation (77 C to G) is not associated with the development of type 1 diabetes mellitus in a German population

To investigate whether a C to G transversion at position 77 in exon A of the CD45 gene is associated with the development of diabetes mellitus type 1 (T1D), we studied 165 patients and 220 control individuals. The frequency of the 77G allele in the control group was 1.1%, which was not significantly different from the 1.2% found in the patient group (P = 0.922). The C to G transversion does not seem to be associated with susceptibility for T1D.     

No association between transmembrane protein-tyrosine phosphatase receptor type C (CD45) exon A point mutation (77C>G) and idiopathic dilated cardiomyopathy

To investigate whether a 77C>G polymorphism in exon A of the CD45 gene causing a variant CD45RA expression pattern is associated with the development of idiopathic dilated cardiomyopathy (DCM), we studied a total of 414 individuals (104 patients and 310 controls). CD45RA expression pattern on lymphocytes was examined by flow cytometric analysis and subsequently the CD45 77C>G polymorphism was genotyped by polymerase chain reaction-allele specific restriction enzyme analysis (PCR-ASRA). We found 5 patients and 8 control individuals displaying the variant CD45RA expression pattern. All identified individuals carried the heterozygous CD45 77C>G polymorphism. The frequency of the 77G allele in the patient group was 2.4%, which was not significantly different from 1.3% found in the control group (p=0.327). In conclusion, the data of this preliminary study could not reveal any association between the CD45 77C>G polymorphism and susceptibility to idiopathic DCM in a German population.     

Effect of activation of protein kinase C on CD45 isoform expression and CD45 protein tyrosine phosphatase activity in T cells

The T200/leukocyte common antigen (CD45) is a family of at least five large-molecular weight glycoproteins, which are differentially expressed on T cell subsets. The CD45 antigen consists of a variable heavily glycosylated exterior domain, a single membrane-spanning region, and a large cytoplasmic domain that has protein tyrosine phosphatase (PTPase) activity. In this study, we examined the effects of activation of protein kinase C (PKC) on the phosphorylation and expression of CD45 isoforms and PTPase activity in human T cells. After activation of PKC by phorbol 12-myristate 13-acetate (PMA), CD45RA expression rapidly increased within the first 24 h, whereas CD45R0 expression did not change within this time. However by 48 h, expression of CD45R0 also began to increase. Metabolic labeling showed that the rapid increment in CD45RA expression observed after PMA stimulation is primarily due to increased de novo synthesis of the 205-kDa and not the 220-kDa molecule. PMA treatment resulted in the phosphorylation of each CD45 isoform to a degree corresponding to its relative surface expression. Significantly, we found that the phosphorylation of CD45 by PKC activation down-regulated CD45 PTPase activity.     

Galectin-1, a natural ligand for the receptor-type protein tyrosine phosphatase CD45.

Galectin-1 binds preferentially to N-acetyllactosamine residues on oligosaccharides associated with several cell surface glycoconjugates. In the present work, placental galectin-1 has been identified to be a natural ligand for the receptor-type protein tyrosine phosphatase CD45. The binding of galectin-1 to CD45 was detected by affinity chromatography of NP 40 solubilized Jurkat T cell membranes on galectin-1 agarose followed by immunoblotting of the galectin-1 agarose bound fraction applying monoclonal antibodies to CD45 isoforms. The PTPase activity of the galectin-1 agarose binding membrane fraction could be inhibited by sodium orthovanadate. Preincubation of Jurkat T cell membrane preparations with galectin-1 decreased the membrane-associated PTPase activity in a concentration-dependent manner. Incubation of Jurkat cells with galectin-1 suppressed the immunoprecipitated PTPase activity of CD45. Galectin-1 stimulates the cell surface expression of phosphatidylserine an early indicator of apoptosis. In CD45+ Jurkat T cells, galectin-1 induces higher levels of phosphatidylserine when compared with CD45- Jurkat cells. These observations indicate that galectin-1-mediated ligation of CD45 is involved in the induction of apoptosis in Jurkat T cells.     

The CD45 tyrosine phosphatase: a positive and negative regulator of immune cell function

The CD45 phosphotyrosine phosphatase is one of the most abundant glycoproteins expressed on immune cells. Previously, the serpentine twists and turns of the CD45 research field have tended to draw attention to CD45 either as a positive or negative regulator of immune cell function. This review draws heavily on CD45 knockout mouse data to emphasize that CD45 has both positive and negative actions in regulating receptor thresholds, and these roles vary according to cell lineage and developmental stage. Previously conflicting results are reconciled in a model suggesting how CD45 regulates the p56(lck)tyrosine kinase in T cell signalling and development.     

A transmembrane protein-tyrosine phosphatase receptor type C (CD45) exon A point mutation (77 C to G) is not associated with the development of type 1 diabetes mellitus in a German population.

To investigate whether a C to G transversion at position 77 in exon A of the CD45 gene is associated with the development of diabetes mellitus type 1 (T1D), we studied 165 patients and 220 control individuals. The frequency of the 77G allele in the control group was 1.1%, which was not significantly different from the 1.2% found in the patient group (P = 0.922). The C to G transversion does not seem to be associated with susceptibility for T1D.     

Integrin CD11a cytoplasmic tail interacts with the CD45 membrane-proximal protein tyrosine phosphatase domain 1

Leucocyte adhesion receptor integrin CD11aCD18 and the transmembrane receptor‐like protein tyrosine phosphatase (RPTP) CD45 mediate immune synapse formation and signalling during antigen presentation. Previous cocapping studies on human naïve T cells demonstrate an interaction between CD11aCD18 and CD45. CD45 cross‐linking also has an effect on the ligand‐binding activity of CD11aCD18. However, the mode of interaction between CD11aCD18 and CD45 remains unclear. Herein, yeast two‐hybrid analysis identified a partial CD45 cytoplasmic tail interacting with that of CD11a. The CD45 cytoplasmic tail comprises a membrane proximal (Mp) region, protein tyrosine phosphatase domain 1 (D1), spacer, D2, and carboxyl terminus. CD45 Mp‐D1 was found to be the main interacting region for the CD11a cytoplasmic tail. In contrast, the full‐length CD45 cytoplasmic tail interacted weakly with that of CD11a. It has been reported that CD45 Mp‐D1 but not the full‐length cytoplasmic tail forms a homodimer whose enzymatic activity is inhibited. Our in vitro binding and enzymatic assays showed that the homodimeric CD45 cytoplasmic tail interacts with that of CD11a. The biological function of CD45 dimerization and its association with CD11a remains to be investigated.     

Enhanced frequency of a PTPRC (CD45) exon A mutation (77C-->G) in systemic sclerosis

A point mutation in exon A (C to G transversion at position 77) of human PTPRC (CD45) has recently been associated with the development of multiple sclerosis (MS) for at least a subgroup of patients. In the present report, we studied the frequency of the 77C-->G transversion in two other autoimmune diseases namely systemic sclerosis (SSc) and systemic lupus erythematosus (SLE). The mutation was found with significantly enhanced frequency in patients suffering from SSc suggesting that PTPRC could play a role as susceptibility gene not only in MS but also in other autoimmune diseases. Further understanding of the mode of interaction of mutant PTPRC with other susceptibility genes may uncover mechanisms common in various autoimmune disorders.     

Abnormal CD45RC expression and elevated CD45 protein tyrosine phosphatase activity in LEC rat peripheral CD4+ T cells

LEG rats are known to show a maturational arrest in the development of CD4⁺8⁺ to CD4⁺8^? cells in the thymus. Despite the blockade of maturation of CD4⁺8^? thymocytes, CD4⁺ T cells were observed in peripheral lymphoid organs, and these cells exhibit a defect in interleukin-2 (IL-2) production upon concanavalin A (Con A) stimulation. Although peripheral CD4⁺ cells in normal rat highly expressed CD45RC (CD45RC^high), the level of CD45RC expression was low (CD45RC^low) in LEC rat peripheral CD4⁺ cells. However, CD4⁺ cells from both strains highly expressed CD45 when those cells were stained by pan-CD45 mAb, suggesting that LEC rat CD4⁺ cells are deficient in expression of the CD45RC isoform, but not of CD45 molecules. When backcross rats from (F344 × LEC)F₁ × LEC were examined, the phenotype for CD45 expression pattern in CD4⁺ cells was clearly correlated with IL-2 production level in response to Con A stimulation. Thus, CD45RC^low cells exhibit a defect in IL-2 production, while CD45RC^high cells show normal IL-2 production. Protein tyrosine phosphatase (PTPase) activity in the membrane fraction of LEC rat CD4⁺ cells was threefold higher than that of normal rat CD4⁺ cells. Con A stimulation led to an increase in tyrosine phosphorylation levels, especially 100- and 40-kDa proteins, in normal rat CD4⁺ cells. In LEC rat CD4⁺ cells, however, the level of tyrosine phosphorylation in those proteins were very low. These results suggest that an elevated CD45 PTPase activity is responsive for a defect in IL-2 production in LEC rat peripheral CD4⁺ T cells.     

Altered CD45 isoform expression in C77G carriers influences cytokine responsiveness and adhesion properties of T cells

The C77G polymorphism in exon A of the human CD45 gene occurs with low frequency in healthy individuals. An enhanced frequency of C77G individuals has been reported in cohorts of patients suffering from multiple sclerosis, systemic sclerosis, autoimmune hepatitis, hepatitis C and human immunodeficiency virus (HIV)-1. C77G individuals overexpress CD45RA isoforms on activated/memory T cells. We have shown previously that aberrant expression of CD45RA isoforms enhances the intensity of T cell receptor (TCR) signalling. Here we report that the C77G polymorphism also influences the responsiveness of T cells to cytokines and alters their adhesion properties. When stimulated by interleukin (IL)-2, C77G T cells proliferated more strongly than wild-type controls and showed accelerated phosphorylation of Janus kinase (Jak1). Furthermore, C77G T cells exhibited a higher tendency to form homotypic aggregates in culture which could be enhanced significantly by antibody-mediated triggering of the variant CD45RA molecules. These data indicate that the changes in CD45 isoform combination resulting from C77G may not only affect TCR signalling but also cytokine-driven T cell responses and cellular adhesion. Altered immune responsiveness may enhance susceptibility of C77G carriers for certain diseases.     

Protein tyrosine phosphatase receptor-type C exon 4 gene mutation distribution in an Italian multiple sclerosis population

In this study, we investigate the role of the C-->G mutation in position 77 of exon 4 of the protein tyrosine phosphatase receptor-type C (PTPRC) gene, coding for the CD45 molecule, for the development of multiple sclerosis (MS) in an Italian continental population. The PTPRC mutated genotype has been recently described as associated with MS in three different case-control studies carried out in German MS patients, whereas similar studies performed in the US and Swedish populations failed to demonstrate such an association. The C-->G transition in position 77 was found in a small number of Italian MS patients and in none of the matched group of healthy controls (Fisher exact test, P value=0.02). This finding suggests a role, in at least a group of patients, for the PTPRC mutation in genetic susceptibility to MS.     

The role of the protein tyrosine phosphatase CD45 in regulation of B lymphocyte activation

The transmembrane protein tyrosine phosphatase CD45 is expressed throughout B cell development and differentiation, with the exception of terminally differentiated plasma cells on which its expression is down regulated. Numerous studies using CD45-deficient B cell lines and CD45-deficient mice have clearly demonstrated that CD45 plays an important role in modulating the signal that is transduced via the B cell antigen receptor by regulating the phosphorylation state of Src family kinases. Spatial and temporal controls enable CD45 to promote B cell antigen receptor signal transduction by constitutively maintaining Src family kinases in a partially active state, such that the B cell is able to effectively respond to an antigenic challenge. Moreover, CD45 is required for optimal activation of Ca2+-dependent and MAP kinase-dependent signal transduction pathways in the B cell. The net result is that CD45 affects the B cell response by controlling the relative threshold of sensitivity to a given antigenic stimulus. Thus, CD45 expression and function is required for normal B cell development, tolerance induction, and responsiveness to antigen.     

FoxP3: a genetic link between immunodeficiency and autoimmune diseases

It has long been observed that patients with autoimmune diseases also have immune deficiency. How these two opposite extremes of immunity can be found in the same individual is largely unclear. Here we review the evidence that a FoxP3 defect may provide a critical link between autoimmunity and immune deficiency. Disruption of FoxP3 results in severe autoimmune syndromes in both human and mice. Bone marrow chimera experiments indicate that FoxP3 defects in both hematopoietic and non-hematopoietic cells are required for the development of severe autoimmune disease. FoxP3 mutation in the hematopoietic cells impairs the development of regulatory T cells (Treg). Our data demonstrate that the mutation in non-hematopoietic cells results in deficient thymopoiesis. Defective T cell production may be an underlying cause of T cell hyperproliferation, which together with Treg defects, may lead to fatal autoimmune disease in mouse and man.     

Interaction of CD4:lck with the T cell receptor/CD3 complex induces early signaling events in the absence of CD45 tyrosine phosphatase.

Antibody-mediated ligation of the CD3/T cell antigen receptor (TcR) activates phospholipase C (PLC) via a tyrosine kinase signaling pathway that requires expression of the transmembrane tyrosine phosphatase CD45. In normal T cells, CD3-mediated PLC activation is significantly augmented by co-ligation of CD3 with the CD4 co-receptor; however, unlike CD3-associated tyrosine kinases, antibody-induced activation of the CD4-associated tyrosine kinase p56lck does not require CD45 expression. To explore the role of CD45 in the CD3 and CD4 activation pathways further, we examined the effect of CD3/CD4 cross-linking on tyrosine phosphorylation and activation of phospholipase C in CD45- mutant cells of the T cell leukemia line HPB.ALL. In accord with previous observations, anti-CD3 stimulation of the CD45-deficient cells failed to activate tyrosine kinases, or PLC as measured by mobilization of intracellular calcium. However, we show here that ligation of CD3 with CD4 leads to tyrosine phosphorylation of PLC gamma 1 and elevation in the intracellular free Ca2+ concentration in CD45- cells that is in excess of that seen in CD45+ cells. Since CD4 stimulation alone did not activate PLC, a component of the CD3 signaling pathway must be independent of CD45. Anti-CD4-induced tyrosine phosphorylation and activation of CD4-associated lck was also enhanced in CD45- cells, suggesting that increased lck activation compensates for the defect in CD3/TcR signaling, such that interaction of the CD3 signaling pathway with the CD4-associated pathway activates PLC even in the absence of CD45. The data demonstrate that the requirement for CD45 in coupling CD3/TcR to the PI-PLC activation cascade is not absolute, but rather substantiates a role for CD45 in modifying molecular interactions that control T cell activation.     

Leukocyte cell surface enzymology: CD45 (LCA, T200) is a protein tyrosine phosphatase

During 1987, striking advances were made in defining the receptors and ligands for cell-to-cell adhesion interactions involving leukocytes. In 1988, two major leukocyte differentiation antigens, CD10 (cALLA) and CD45 (LCA, T200), were shown to be enzymes while two other markers, CD4 and CD8, were found to be associated with an enzyme. In this article, Ed Clark and Jeff Ledbetter discuss recent findings in the emerging area of leukocyte cell surface enzymology with emphasis on CD45, a membrane-associated protein tyrosine phosphatase (PTPase)2,3.     

Detection of restricted isoform expression and tyrosine phosphatase activity of CD45 in murine dendritic cells

CD45 is a cell surface transmembrane tyrosine phosphatase. It is expressed as distinct protein isoforms via alternative splicing of exons 4, 5 and 6. In T and B lymphocytes, CD45 is thought to play a critical role in antigen-dependent signaling through their respective antigen receptor complexes. However, the isoform expression and enzymatic activity of CD45 in other leukocytes remains largely unknown. Here, we examine the isoform expression and phosphatase activity of CD45 in murine dendritic cells (DC). Flow cytometric double-labeling analysis and biochemical analysis of purified splenic DC CD45 demonstrate that DC express both the CD45RB and CD45RO isoforms. Flow cytometric analyses of freshly isolated splenic DC and thymic DC also indicate the expression of CD45RB and CD45RO on these DC populations. In addition, we find that purified splenic DC CD45 possesses a high level of intrinsic tyrosine phosphatase activity. These data therefore establish the restricted isoform expression pattern of CD45 in murine DC and demonstrate that cells lacking specific antigen receptor complexes have active tyrosine phosphatase activity associated with CD45.     

Oxidative inactivation of CD45 protein tyrosine phosphatase may contribute to T lymphocyte dysfunction in the elderly

The decline in T lymphocyte function during ageing has been linked to changes in intracellular signalling pathways. Oxidative damage has long been thought to be involved in the ageing process and we investigated a link between ageing, oxidation and T cell signalling focusing on the membrane phosphatase CD45. We investigated the relative sensitivity of CD45 to oxidative inactivation and then compared the phosphatase activity of CD45 in blood lymphocytes from elderly and young volunteers and related this to intracellular levels of the antioxidant glutathione. The CD45 phosphatase was particularly sensitive to oxidative inactivation compared to total Jurkat T cell PTP activity. The IC50 with H(2)O(2) was 3 mM for CD45 at which concentration there was a minimal decrease in global PTP activity. In normal peripheral blood CD4(+) T cells the IC50 was much lower at 54 microM. In a group of elderly healthy individuals, whose T cell responses to mitogen were depressed, PB lymphocyte CD45 phosphatase activity was decreased by about 60% compared to young controls. There was no difference in intracellular levels of glutathione. The loss of CD45 activity in lymphocytes from the elderly may underlie poor T cell function associated with ageing. The relative sensitivity of CD45 to oxidative damage may result from its location in the plasma membrane, where it might be more accessible to extracellular oxidants.     

CD45 phosphotyrosine phosphatase and p56lck protein tyrosine kinase: a functional complex crucial in T cell signal transduction.

Tyrosine phosphorylation of several intracellular proteins is observed very early during T cell activation. p56lck, a non-receptor src-like protein tyrosine kinase (PTK) which is associated with the intracellular domains of CD4 and CD8 co-receptors, has been implicated in these early signal transduction events. Furthermore, recent experiments indicate that the receptor phosphotyrosine phosphatase, CD45, might be important in the regulation of p56lck PTK activity and that its expression is required for the generation of second messenger molecules following TCR triggering. Here, using co-capping experiments and double indirect immunofluorescence microscopy in functional human T lymphocytes, a specific co-distribution of a significant fraction of p56lck with CD45, but not with several other cell surface proteins, has been revealed. This is the first demonstration of a physical interaction between a receptor phosphotyrosine phosphatase and a PTK under physiologically relevant conditions. In addition, after antibody-induced capping of CD4, both a co-localization of p56lck and CD4, and concomitantly a significant increase in intracellular phosphotyrosine at the sites of CD4 caps were observed. In strong contrast to these results, co-clustering of CD4 with CD45 did not result in any detectable intracellular phosphotyrosine at the cap sites. These data indicate that CD45 can act on CD4-associated phosphoproteins in viable human T lymphocytes. Further, this provides evidence that p56lck PTK is a substrate of CD45 phosphotyrosine phosphatase in vivo and thereby supports the idea that CD45 is an early regulator of T cell activation involved in the modulation of the coupling of receptor-triggered events to intracellular signalling pathways.