Complete exon-intron organization of the human leukocyte common antigen (CD45) gene

Ten genomic DNA clones encoding the human leukocyte common Ag (LCA, CD45) gene were isolated by screening human genomic DNA libraries with LCA cDNA probes. One genomic DNA clone contains the promoter region and the first two exons, as determined by primer extension analyses and S1 nuclease protection studies as well as nucleotide sequence determination. The first exon does not encode a peptide, while the second exon contains the initiation ATG codon and encodes the signal peptide. The other nine genomic DNA clones, which are separated from the first genomic clone by an unknown distance, are connected and span a total of 73 kb. The nine connected genomic clones encode a total of 31 exons. The 33 exons encoded by these 10 genomic clones account for the entire cDNA sequences including the 5' and 3' untranslated sequences. Exon 3 and exons 7 through 15 encode the extracellular domain sequences that are common to all LCA isoforms. Differential usage of exons 4, 5, and 6, generates at least five distinct LCA isoforms. Exon 16 encodes the transmembrane peptide. The cytoplasmic region of the leukocyte common antigens is composed of two homologous domains. Exons 17 through 24 encode the first domain, and exons 25 through 32 encode the second domain. The comparison of these exons indicated that the homologous domains were generated by duplication of several exons. The most 3' exon (exon 33) encodes the carboxy terminus of the LCA molecules and includes the entire 3' untranslated sequence.     

Selected antibodies to leukocyte common antigen (CD45) inhibit human neutrophil chemotaxis.

The CD45 Ag family is a group of high m.w. glycoproteins that are expressed on the plasma membranes of all leukocytes. CD45 has protein tyrosine phosphatase activity and appears to regulate signal transduction and lymphocyte activation by specific association with receptor molecules on T and B lymphocytes. However, little is known about CD45 function in neutrophils (PMN). In this study, PMN were incubated with CD45 mAb and tested for their chemotactic responses to four unrelated chemo-attractants: FMLP, leukotriene B4 (LTB4), recombinant human C5a (C5a), and recombinant human neutrophil-activating protein-1, recently designated IL-8. A panel of CD45 mAb including an IgM mAb, AHN-12.1, and six IgG1 mAb, AHN-12, AHN-12.2, AHN-12.3, AHN-12.4, HLe-1, and KC56(T200), were tested for their effects on PMN chemotaxis. PMN chemotaxis was evaluated with two different membrane assays; one assay quantified the total number of migrating PMN and the other assayed the leading front of migrating PMN. AHN-12.1 and KC56(T200) significantly inhibited PMN chemotaxis to LTB4 and C5a. AHN-12.1 slightly inhibited PMN chemotaxis to FMLP, but KC56(T200) did not. In contrast, AHN-12 and HLe-1 did not significantly inhibit PMN chemotaxis to any of the chemoattractants. None of the CD45 mAb inhibited PMN chemotaxis to neutrophil-activating protein-1/IL-8. None of the CD45 mAb inhibited PMN superoxide production. These results suggest that PMN CD45 epitopes may interact with LTB4 and C5a receptor-associated molecules and regulate chemotactic responses.     

Monoclonal antibodies to the leukocyte common antigen (CD45) inhibit IgE-mediated histamine release from human basophils.

mAb were selected that inhibited IgE-mediated histamine release from human basophils. The two mAb, HB 9AB6 and HB 10AB2, are of the IgG1 subclass and have a 50% inhibitory concentration of 0.16 to 1.1 micrograms/ml. The mAb required several hours of incubation with the basophils at 37 degrees C to induce maximum inhibition. Neither mAb directly released histamine from human basophils nor did they inhibit release induced by formylmethionine tripeptide, calcium ionophore A23187, or PMA. There was little inhibition of IgE-mediated release when the cells were preincubated with the mAb at 4 degrees C. By FACS analysis the 2 mAb bound to all peripheral blood leukocytes and immunoprecipitated a approximately 200-kDa protein from peripheral blood leukocytes and several cell lines of human origin. In binding studies and by sequential immunoprecipitation the 2 mAb and a known anti-CD45 mAb bound to the same protein. However, the mAb recognized different epitopes. Therefore, mAb to the CD45 surface Ag, a membrane protein tyrosine phosphatase, inhibits IgE-receptor mediated histamine release from human basophils. The data suggest a link between protein tyrosine phosphorylation and high affinity IgE receptor-mediated signal transduction in human basophils.     

The leukocyte common antigen (CD45) of the Pacific hagfish,Eptatretus stoutii: implications for the primordial function of CD45

CD45, originally known as the leukocyte common antigen, is a prototypical transmembrane protein tyrosine phosphatase that plays a critical role in signal transduction through T-cell and B-cell receptors, as well as in T-cell and B-cell development. In the present study, we show that the Pacific hagfish, widely believed to lack the adaptive immune system, has CD45. The presence of CD45 in jawless fish is consistent with the recent discovery that CD45 also plays a crucial role in innate immunity via the regulation of signaling through type I and type II cytokine receptors. It is likely that CD45 was recruited to activate lymphocytes through antigen receptors encoded by rearranging genes in jawed vertebrates.     

Demonstration that the leukocyte common antigen CD45 is a protein tyrosine phosphatase

It has been proposed on the basis of amino acid sequence homology that the leukocyte common antigen CD45 represents a family of catalytically active, receptor-linked protein tyrosine phosphatases [Charbonneau, H., Tonks, N. K., Walsh, K. A., & Fischer, E. H. (1988) Proc. Natl. Acad. Sci. U.S.A. 85, 7182-7186]. The present study confirms that CD45 possesses intrinsic protein tyrosine phosphatase (PTPase) activity. First, a mouse monoclonal antibody to CD45 (mAb 9.4) specifically eliminated, by precipitation, PTPase activity from a high Mr fraction containing CD45, prepared by gel filtration (Sephacryl S200) of a Triton X-100 extract of human spleen. Second, PTPase activity was demonstrated in a highly purified preparation of CD45 that was eluted with a high pH buffer from an affinity column, constructed from the same antibody. Third, on sucrose density gradient centrifugation, PTPase activity was only found in those fractions that contained CD45 as determined by Western analysis. When CD45 was caused to aggregate, first by reacting it with mAb 9.4 and then adding a secondary, cross-linking anti-mouse mAb, the PTPase activity shifted to the same higher Mr fractions that contained CD45. No shift in CD45 or PTPase was observed following addition of a control IgG2a. On this basis, it is concluded that CD45 is a protein tyrosine phosphatase.     

Genomic structure and sequence of the leukocyte common antigen (CD45) from the pufferfish Fugu rubripes and comparison with its mammalian homologue

The leukocyte common antigen (CD45) is a transmembrane protein tyrosine phosphatase expressed only in nucleated hematopoietic cells. It can be expressed as different isoforms depending on the cell type and the state of activation or differentiation and it is known to play a crucial role in the maturation and differentiation of B and T lymphocytes. However, the regulation of CD45 expression and function has been difficult to study due to the complexity of the gene in mammals. In this paper, we report the isolation and characterization of a CD45 orthologue gene from the Japanese pufferfish Fugu rubripes (Fugu). The Fugu CD45 cDNA sequence contains an open reading frame of 1,246 amino acids with a variable extracellular region as a result of the alternative splicing of two exons. The intracellular region is organized into two highly conserved tyrosine phosphatase domains. The extracellular region is not conserved except in some structural domains. The Fugu CD45 gene has a similar exon/intron organization to that of mammals except in the 5' end where some exons are missing or fused together. By contrast, the gene is ten times smaller in Fugu due to the small size of the introns. These studies show a greater flexibility to evolve at the 5' end of the gene and provide clues to the functionally important domains of the molecule. In addition, the lower complexity of this gene in Fugu should allow easier mapping of its regulatory sequences.     

Modulation of immune cell signalling by the leukocyte common tyrosine phosphatase,CD45

CD45 is a leukocyte specific transmembrane glycoprotein and a receptor-like protein tyrosine phosphatase (PTP). CD45 can be expressed as several alternatively spliced isoforms that differ in the extracellular domain. The isoforms are regulated in a cell type and activation state-dependent manner, yet their function has remained elusive. The Src family kinase members Lck and Lyn are key substrates for CD45 in T and B lymphocytes, respectively. CD45 lowers the threshold of antigen receptor signalling, which impacts T and B cell activation and development. CD45 also regulates antigen triggered Fc receptor signalling in mast cells and Toll-like receptor (TLR) signalling in dendritic cells, thus broadening the role of CD45 to other recognition receptors involved in adaptive and innate immunity. In addition, CD45 can affect immune cell adhesion and migration and can modulate cytokine production and signalling. Here we review what is known about the substrate specificity and regulation of CD45 and summarise its effect on immune cell signalling pathways, from its established role in T and B antigen receptor signalling to its emerging role regulating innate immune cell recognition and cytokine production.     

Bispecific targeting of CD20 and CD19 increases polyfunctionality of chimeric antigen receptor T-cell products in B-cell malignancies

Background aimsSelective immune pressure contributes to relapse due to target antigen downregulation in patients treated with anti-CD19 chimeric antigen receptor (CAR) T cells. Bispecific lentiviral anti-CD20/anti-CD19 (LV20.19) CAR T cells may prevent progression/relapse due to antigen escape. Highly polyfunctional T cells within a CAR T-cell product have been associated with response in single-antigen-targeted anti-CD19 CAR T cells.MethodsThe authors performed a single-cell proteomic analysis to assess polyfunctional cells in our LV20.19 CAR T-cell product. Analysis was limited to those treated at a fixed dose of 2.5 × 10⁶ cells/kg (n = 16). Unused pre-infusion CAR T cells were thawed, sorted into CD4/CD8 subsets and stimulated with K562 cells transduced to express CD19 or CD20. Single-cell production of 32 individual analytes was measured and polyfunctionality and polyfunctional strength index (PSI) were calculated.ResultsFifteen patients had adequate leftover cells for analysis upon stimulation with CD19, and nine patients had adequate leftover cells for analysis upon stimulation with CD20. For LV20.19 CAR T cells, PSI was 866–1109 and polyfunctionality was 40–45%, which were higher than previously reported values for other CAR T-cell products.ConclusionsStimulation with either CD19 or CD20 antigens resulted in similar levels of analyte activation, suggesting that this product may have efficacy in CD19– patient populations.     

Characterization of CD45 and CD45R monoclonal antibodies using transfected mouse cell lines that express individual human leukocyte common antigens

Five cell lines that express one of five isoforms of the human leukocyte common Ag (CD45) were established by transfecting a murine pre-B cell line with leukocyte common Ag cDNA constructs. Using these cell lines, the specificities of CD45 and CD45R mAb were examined. Of the 43 mAb tested, 25 antibodies recognized sequences common to all five isoforms, 16 antibodies recognized isoforms that include exon A encoded sequences, one antibody recognized isoforms that include exon B encoded sequences, and one antibody recognized only the isoform that does not include either exon A, B, or C encoded sequences.     

The B lymphocyte adhesion molecule CD22 interacts with leukocyte common antigen CD45RO on T cells and alpha 2-6 sialyltransferase, CD75, on B cells.

Functional maturation of B lymphocytes correlates with expression of the B lineage-specific cell surface glycoprotein CD22. Two CD22 polypeptides have been characterized and suggested to play a role in B cell-B cell interaction as well as in B cell adhesion to monocytes. In this work we provide evidence that CD22 is directly involved in the cognate interaction between B and T cells. One of the two CD22 polypeptides, CD22 beta, interacts with a specific ligand on a subpopulation of CD4+ T cells. Our results suggest that the T cell ligand of CD22 is CD45RO, an isoform of the leukocyte common antigen class of phosphotyrosine phosphatases associated with the helper T cell phenotype. We further demonstrate that CD22 recognizes a second ligand, CD75, expressed predominantly on activated B cells and shown to be a cell surface alpha 2-6 sialyltransferase.     

Monoclonal B-cell hyperplasia and leukocyte imbalance precede development of B-cell malignancies in uracil-DNA glycosylase deficient mice

Ung-deficient mice have reduced class switch recombination, skewed somatic hypermutation, lymphatic hyperplasia and a 22-fold increased risk of developing B-cell lymphomas. We find that lymphomas are of follicular (FL) and diffuse large B-cell type (DLBCL). All FLs and 75% of the DLBCLs were monoclonal while 25% were biclonal. Monoclonality was also observed in hyperplasia, and could represent an early stage of lymphoma development. Lymphoid hyperplasia occurs very early in otherwise healthy Ung-deficient mice, observed as a significant increase of splenic B-cells. Furthermore, loss of Ung also causes a significant reduction of T-helper cells, and 50% of the young Ung(-/-) mice investigated have no detectable NK/NKT-cell population in their spleen. The immunological imbalance is confirmed in experiments with spleen cells where the production of the cytokines interferon gamma, interleukin 6 and interleukin 2 is clearly different in wild type and in Ung-deficient mice. This suggests that Ung-proteins, directly or indirectly, have important functions in the immune system, not only in the process of antibody maturation, but also for production and functions of immunologically important cell types. The immunological imbalances shown here in the Ung-deficient mice may be central in the development of lymphomas in a background of generalised lymphoid hyperplasia.     

Characterization and expression of the human leukocyte-common antigen (CD45) gene contained in yeast artificial chromosomes.

The leukocyte-common antigen (CD45) is a transmembrane protein tyrosine phosphatase expressed uniquely by cells of hematopoietic origin. There are multiple isoforms of CD45 that are generated by the variable use of three exons (exons 4-6). The use of the variable exons results in changes near the amino-terminus of the mature glycoprotein. The gene is located on chromosome 1 for both human and mouse in a region that is homologous between these two species. This conserved linkage group contains a number of genes of immunological interest, such as the genes for complement regulatory proteins and the FCG2 receptor. Yeast artificial chromosomes provide a vector system in which large fragments of foreign DNA can be isolated and are suited to long-range physical mapping. To this end, three yeast artificial chromosomes containing the human CD45 gene have been isolated and characterized. They overlap to span 475 kb, establishing the largest physical map for DNA within the conserved linkage group. The CD45 gene is entirely encoded within one yeast artificial chromosome clone as determined by mapping with cDNA probes. A mouse B cell line transfected with this YAC clone expressed the low-molecular-weight isoform of the protein into the cell surface. The size of the human CD45 gene was determined to be approximately 120 +/- 10 kb.     

Manipulation of CD45 antigen in transplantation tolerance

CD45 is known to have tyrosine phosphatase activity for signal transduction of T cells. Immunomodulation of CD45 has been tried to prevent T cell-mediated graft rejection in organ transplantation. In vitro study showed that blockade of CD45RB, an alternative splicing isoform of CD45, inhibited proliferative response of T cells after allogeneic stimulation. Treatment with a monoclonal antibody (mAb) against CD45RB induced long-term allograft acceptance in some mouse organ transplantation models. In a rat heart allograft model, a single injection of anti-rat CD45 (RT7) mAb which bound to allomorphic region of RT7 also induced allograft acceptance. CD45/RT7 is also a useful tool of targeting hematopoietic cells, because of the selective expression on all hematopoietic cells. There are two allomorphic forms of CD45 (RT7a and RT7b) in the rat. Using RT7 system, a rat heart allograft model from RT7a donors to RT7b recipients was designed to test functional relevance of graft-associated hematopoietic cells (microchimerism) to allograft acceptance. Then donor-derived hematopoietic cells were selectively depleted using anti-RT7a mAb in vivo. Depletion on day 0 prevented allograft acceptance and was associated with severe acute or chronic graft rejection, while depletion on day 18 after transplantation showed no effect. This experimental study showed a crucial role of microchimerism in induction phase of allograft acceptance. In conclusion, the CD45/RT7 system is not only a target molecule for tolerance induction, but also an useful tool for experimental models in transplantation immunology. In this review, we introduce basic properties of CD45 and recent results with manipulation of CD45.     

B-cell maturation in chimaeric mice deficient for the heat stable antigen (HSA/mouse CD24)

The murine differentiation marker heat stable antigen (HSA) is a GPI-anchored surface glycoprotein showing strong expression on immature B- and T-lymphocytes and gradually reduced expression during maturation. Although HSA has been suggested to be involved in adhesion and/or signalling, its function has not been clearly demonstrated so far. In order to elucidate the function of HSA, we analysed chimaeric mice that were generated by targeted disruption of both HSA alleles in ES cells. These mice contain normal numbers of peripheral B-cells and normal serum IgM and IgG titres of ES cell-derived allotype, demonstrating that HSA expression on B-cells is not an absolute requirement for their maturation. However, a reduction in immature B-cells in the bone marrow and an altered degree of bone marrow and blood chimaerism suggest that HSA expression influences the maturation of B-cells.     

Biochemical nature and topographic localization of epitopes defining four distinct CD45 antigen specificities. Conventional CD45, CD45R, 180 kDa (UCHL1) and 220/205/190 kDa

The biochemical nature and relative topographic localization of Ag determinants recognized on CD45 molecular complex by mAb defining four distinct Ag specificities (conventional CD45, CD45R, 180 kDa and 220/205/190 kDa) have been investigated. These Ag specificities display a differential biochemical, cellular, and histochemical distributions and are important in the definition of CD4-positive complementary functional T cell subsets and/or distinct stages of thymic maturation. Protease treatment of either CD45-positive cells or purified CD45 molecules revealed that both conventional CD45 and 180-kDa (UCHL1 epitope) Ag specificities are defined by epitopes present on a protease-resistant domain which is internal to the protease-sensitive epitopes defining both CD45R and 220/205/190-kDa Ag specificities. In addition, it is shown that carbohydrate moieties are contributing to the epitopes recognized by both the anti-180-kDa UCHL1 and the anti-220/205/190-kDa mAb. Neuraminidase treatment, which cleaves sialic acids either from N- or O-linked oligosaccharides, abrogated the reactivity of both mAb. However, N-glycanase treatment, which selectively cleaves N-linked sugars, did not affect the recognition of these two epitopes. Thus, these results demonstrate that the Ag determinants recognized by the UCHL1 and the anti-220/205/190-kDa mAb, which are topographically unrelated, are associated with sialic acids from O-linked-type oligosaccharides, emphasizing the contribution of carbohydrates to the Ag heterogeneity of CD45 molecular complex.     

Interactions of CD45-associated protein with the antigen receptor signaling machinery in T-lymphocytes.

CD45 is a transmembrane protein tyrosine phosphatase playing an essential role during T-cell activation. This function relates to the ability of CD45 to regulate p56(lck), a cytoplasmic protein tyrosine kinase necessary for T-cell antigen receptor (TCR) signaling. Previous studies have demonstrated that CD45 is constitutively associated in T-lymphocytes with a transmembrane molecule termed CD45-AP (or lymphocyte phosphatase-associated phosphoprotein). Even though the exact role of this polypeptide is unclear, recent analyses of mice lacking CD45-AP have indicated that its expression is also required for optimal T-cell activation. Herein, we wished to understand better the function of CD45-AP. The results of our studies showed that in T-cells, CD45-AP is part of a multimolecular complex that includes not only CD45, but also TCR, the CD4 and CD8 coreceptors, and p56(lck). The association of CD45-AP with TCR, CD4, and CD8 seemed to occur via the shared ability of these molecules to bind CD45. However, binding of CD45-AP to p56(lck) could take place in the absence of other lymphoid-specific components, suggesting that it can be direct. Structure-function analyses demonstrated that such an interaction was mediated by an acidic segment in the cytoplasmic region of CD45-AP and by the kinase domain of p56(lck). Interestingly, the ability of CD45-AP to interact with Lck in the absence of other lymphoid-specific molecules was proportional to the degree of catalytic activation of p56(lck). Together, these findings suggest that CD45-AP is an adaptor molecule involved in orchestrating interactions among components of the antigen receptor signaling machinery. Moreover, they raise the possibility that one of the functions of CD45-AP is to recognize activated Lck molecules and bring them into the vicinity of CD45.     

The 2H4 (CD45R) antigen is selectively decreased in multiple sclerosis lesions

To analyze expression of the 2H4 (CD45R) Ag on inflammatory cells in the central nervous system immune response, immunohistochemical staining with a panel of anti-T cell mAb was performed on central nervous system tissues from 12 patients with multiple sclerosis (MS) and 8 patients with viral encephalitis. Only rare cells were stained with anti-2H4 in MS plaques, plaque edges, and adjacent white matter, whereas 2H4+ cells were more numerous in viral encephalitis (p less than 0.001). By contrast, no quantitative differences were found between MS plaque edges and viral encephalitis with anti-4B4 (helper-inducer function associated), anti-CD4, anti-CD3, and anti-IL-2R mAb, although there were fewer CD8+ cells in MS (p less than 0.01). These data indicate that the 2H4 Ag is selectively decreased and, because it is associated with suppressor-inducer function of CD4+ cells, that there may be a defect in the down-regulation of the in situ immune response in MS.     

Antibodies to the common leukocyte antigen (T200) inhibit an early phase in the activation of resting human B cells

T191, a monoclonal antibody reactive with the T200 common leukocyte antigen, profoundly inhibits an early event(s) associated with alpha-immunoglobulin M (alpha IgM)/T cell replacing factor (TRF) or alpha IgM/recombinant interleukin 1 and 2 (rIL 1 and rIL 2)-induced tonsillar B cell proliferation. Kinetic analysis of T191-mediated inhibition indicated that the antibody exerts its effect within 12 to 24 hr of the initiation of cultures and rapidly loses its activity thereafter. Small resting B cells are most sensitive to T191 inhibition, whereas B cells with increasing buoyant density (presumably reflecting stages of increased activation) become progressively T191 insensitive. Analysis of RNA synthesis subsequent to alpha IgM crosslinking of surface immunoglobulin demonstrated that T191 reduced [3H]uridine incorporation by up to 38% during the first 20 hr of culture. In contrast to the effects seen with alpha IgM stimulated B cells, T191 had no inhibitory effect upon phorbol myristate acetate-induced B cell proliferation. The inhibitory effect upon B cell proliferation observed with T191 is not unique among other alpha-T200 antibodies. Four of five previously described alpha-T200 monoclonal antibodies had similar inhibitory effects (82 to 57% maximum inhibition of [3H]thymidine incorporation). However, 13.3, an alpha-T200 monoclonal antibody previously shown to block natural killer (NK) cell-mediated killing was without effect. Likewise, those antibodies capable of inhibiting B cell proliferation failed to block NK-mediated cytolysis. Antibody binding experiments together with proliferation inhibition studies suggest that all of the monoclonal antibodies tested recognized distinct epitopes on the T200 antigen. Both observations are of significance because they demonstrate that the effects seen with anti-T200 antibodies represent an interference with highly specific functional regions on the T200 molecules.     

A nonfucosylated human antibody to CD19 with potent B-cell depletive activity for therapy of B-cell malignancies

A human anti-CD19 antibody was expressed in fucosyltransferase-deficient CHO cells to generate nonfucosylated MDX-1342. Binding of MDX-1342 to human CD19-expressing cells was similar to its fucosylated parental antibody. However, MDX-1342 exhibited increased affinity for FcγRIIIa-Phe158 and FcγRIIIa-Val158 receptors as well as enhanced effector cell function, as demonstrated by increased potency and efficacy in antibody-dependent cellular cytotoxicity (ADCC) and phagocytosis assays. MDX-1342 showed dose-dependent improvement in survival using a murine B-cell lymphoma model in which Ramos cells were administered systemically. In addition, low nanomolar binding to cynomolgus monkey CD19 and increased affinity for cynomolgus monkey FcγRIIIa was observed. In vivo administration of MDX-1342 in cynomolgus monkeys revealed potent B-cell depletion, suggesting its potential utility as a B-lymphocyte depletive therapy for malignancies and autoimmune indications.     

The efficacy of anti-CD19 chimeric antigen receptor T cells for B-cell malignancies

Immunotherapy with chimeric antigen receptor T (CAR-T) cells has proved remarkably effective in recently published clinical trials. In this meta-analysis, we performed a systematic review in terms of the clinical response treated with CAR-T cells in acute lymphoblastic leukemia (ALL), chronic lymphocytic leukemia (CLL) and lymphomas patients. Thirty-eight published clinical studies including 665 patients were eligible for response rate (RR) evaluation. The overall pooled RR of CD19-CAR-T cells was 72% (95% confidence interval: 62–77%). The various clinical parameters were analyzed. RR was 81% in ALL, 68% in lymphoma and 70% in CLL. RR in patients who received interleukin (IL)-2 was 70%, whereas in those who did not receive IL-2, it was 74%. RR was 75% with lymphodepletion and 56% without lymphodepletion. RR with autologous cells was 76% and 57% with allogeneic cells. In conclusion, this meta-analysis showed a high clinical RR of CD19-CAR-T cell–based immunotherapy in patients with refractory B-cell malignancies.