Serological detection of B-cell ("Ia-like") antigens in serum of normal donor and in some sera of leukaemic patients

Some sera from normal donors (1/18) and from leukaemic patients (2/7 with acute myeloid leukaemia [AML], 1/4 with chronic lymphatic leukaemia [CLL], 0/3 with acute lymphoblastic leukaemia [ALL]; with high numbers of leukaemic cells expressing Ia-like p28,33 antigen on the leukaemic cell surface) inhibited the complement mediated cytotoxic activity of highly specific xenogenous anti Ia-like sera (which were prepared by immunization of rabbits with insoluble membrane fractions of B-type lymphoid lines) at a titre 1:4 or less. This effect was not observed with antisera directed against other membrane marker determinants (e.g. T lymphocyte specific antigens). These results suggest that at least a small proportion of membrane bound Ia-like antigens can be released from cell surfaces and in some patients these Ia-like moieties are detectable (by sensitive inhibition assays) in the serum.     

Bortezomib suppresses self-renewal and leukemogenesis of leukemia stem cell by NF-ĸB-dependent inhibition of CDK6 in MLL-rearranged myeloid leukemia

Acute myeloid leukaemia (AML) with chromosomal rearrangements involving the H3K4 methyltransferase mixed-lineage leukaemia (MLL) is an aggressive subtype with low overall survival. Bortezomib (Bort) is first applied in multiple myeloma. However, whether bort possesses anti-self-renewal and leukemogenesis of leukaemia stem cell (LSC) in AML with MLL rearrangements is still unclear. Here, we found that bort suppressed cell proliferation and decreased colony formation in human and murine leukaemic blasts. Besides, bort reduced the frequency and function of LSC, inhibited the progression, and extended the overall survival in MLL-AF9 (MF9) -transformed leukaemic mice. Furthermore, bort decreased the percentage of human LSC (CD34⁺CD38^-) cells and extended the overall survival in AML blasts-xenografted NOD/SCID-IL2Rγ (NSG) mice. Mechanistically, cyclin dependent kinase 6 (CDK6) was identified as a bort target by RNA sequencing. Bort reduced the expressions of CDK6 by inhibiting NF ĸB recruitment to the promoter of CDK6, leading to the abolishment of NF ĸB DNA-binding activity for CDK6 promoter. Overexpression of CDK6 partially rescued bort-induced anti-leukemogenesis. Most importantly, bort had little side-effect against the normal haematological stem and progenitor cell (HSPC) and did not affect CDK6 expression in normal HSPC. In conclusion, our results suggest that bort selectively targets LSC in MLL rearrangements. Bort might be a prospective drug for AML patients bearing MLL rearrangements.     

Characterization of cytokine, growth factor receptor, costimulatory and adhesion molecule expression patterns of bone marrow blasts in relapsed childhood B cell precursor all

Relapse of childhood acute lymphoblastic leukaemia (ALL) comprises a leading challenge of investigation. Characterization of leukaemic cells regarding their potency to express growth factors and surface molecules can provide insight into their aberrant biology. Thus, we analyzed bone marrow blasts from 10 children with relapsed B cell precursor ALL. The gene and protein expression of essential haematopoietic growth factors (IL-2, IL-4, IL-7, IL-10, IL-15, IFN-gamma, G-CSFR), their corresponding receptors as well as the expression pattern of adhesion molecules (ICAM-1, CD58) and costimulatory proteins (CD40, CD40L, B7.1, B7.2, CD28, MHC-I and II) was analyzed by RT-PCR and flow cytometry. Constitutive gene expression was found for IL-7, IL-10, IL-15 and IFN-gamma and their corresponding receptors. Flow-cytometric analysis showed that IL-10R, IL-7Ralpha, IL-4Ralpha and the gamma(c)chain are constitutively expressed, and that some cells bear the G-CSFR. IL-10 and IL-15 protein-producing leukaemic cells were easily detectable. The neoplastic cells mainly lack B7.1, and ICAM-1 is mostly decreased. Furthermore, high CD40, and, surprisingly, CD40L expression could be found. These studies show that ALL cells are likely to be sensitive to many growth factors and some factors are produced by the neoplastic cell itself. The secretion of IL-10 by leukaemic cells, and the absence or downregulation of conventional adhesion and costimulatory molecules might represent an effective mechanism of escape of immune surveillance in relapsed ALL.     

Effective killing of cells expressing CD276 (B7-H3) by a bispecific T cell engager based on a new fully human antibody

The pancaner molecule CD276 (B7-H3) is an attractive target for antibody based therapy. We identified from a large (10¹¹) phage-displayed single-chain variable fragment (scFv) library, a fully human antibody, B11, which bound with high avidity (K_D=0.4 nM) to CD276. B11 specifically bound to the V1/V2 domain of CD276 and competed with the antibody 8H9 (Omburtamab). It was used to design an IgG-format bispecific T cell engager B11-BiTE, which was more effective than 8H9-BiTE in 14 different cancer cell lines. B11-BiTE also exhibited strong ADCC/ADCP. Therefore, the fully human B11-BiTE is a promising candidate for treatment of tumors expressing CD276.     

Effective killing of cells expressing CD276 (B7-H3) by a bispecific T cell engager based on a new fully human antibody

The pancaner molecule CD276 (B7-H3) is an attractive target for antibody based therapy. We identified from a large (10¹¹) phage-displayed single-chain variable fragment (scFv) library, a fully human antibody, B11, which bound with high avidity (K_D=0.4 nM) to CD276. B11 specifically bound to the V1/V2 domain of CD276 and competed with the antibody 8H9 (Omburtamab). It was used to design an IgG-format bispecific T cell engager B11-BiTE, which was more effective than 8H9-BiTE in 14 different cancer cell lines. B11-BiTE also exhibited strong ADCC/ADCP. Therefore, the fully human B11-BiTE is a promising candidate for treatment of tumors expressing CD276.     

Role of CD44 in epithelial wound repair: migration of rat hepatic stellate cells utilizes hyaluronic acid and CD44v6

The hyaluronic acid receptor, CD44, exists as multiple splice variants that appear to have a role in migration of tumor cells. The role of this receptor and its variants in normal wound repair is poorly understood. A central feature of wound repair in the liver is activation and migration of perisinusoidal stellate cells. We have examined CD44 expression by stellate cells from normal or injured rat liver, finding that it increases with injury and involves a distinct set of CD44 splice variants. Among the latter, variants containing the v6 exon (CD44v6) are strikingly increased. Analysis of migration of primary cells on transwell filter inserts reveals that only cells isolated from injured liver are migratory. Also, they move more rapidly on hyaluronic acid than on collagen I or collagen IV. A polyclonal antibody to recombinant CD44v6 blocks migration by 50%, whereas antibody to CD44v4 has no effect. The inhibition is specific for cells migrating on hyaluronic acid and is reversed by synthetic peptide representing the N terminus of the v6 protein. In conclusion, activated stellate cells use CD44v6 and hyaluronic acid for migration. Given the evidence that migration is required for progression of injury with scar formation, blockers of CD44v6 expression or function are candidates for preventing the deleterious effects of chronic fibrosis.     

Expression and purification of the minor histocompatibility antigen, HA-1H generated in Escherichia coli

The minor histocompatibility antigen HA-1H is a potential immunotherapeutic molecule. It can be used as a target for graft versus leukaemia reactions to eliminate residual HA-1H expressing leukaemic cells in patients following haemopoietic stem cell transplantation, whereby HA-1H primed donor cells can be transferred into a patient via adoptive immunotherapy. However, thus far only synthetic peptides corresponding to a HLA-A *0201 restricted HA-1H epitope have been used to generate HA-1H specific T cells. We are the first laboratory to clone, express and purify a region of HA-1H using an Escherichia coli expression system. The recombinant HA-1H protein was purified under denaturing conditions and the affinity purification tag removed using thrombin to remove non-specific amino acids. The 92 amino acid recombinant protein was characterised by mass spectrometry. Our rationale is that by using a recombinant HA-1H protein rather than peptide, HA-1H specific T cells may be generated from presentation of multiple HA-1H epitopes complexed in different HLA molecules. A multi-epitope approach may have wider applicability and maybe more effective at leukaemia control. The recombinant HA-1H protein may also be used as a research tool to identify novel CD4(+) helper T cell and CD8(+) cytotoxic T cell epitopes.     

Leukaemic transformation by CALM-AF10 involves upregulation of Hoxa5 by hDOT1L

Chromosomal translocation is a common cause of leukaemia and the most common chromosome translocations found in leukaemia patients involve the mixed lineage leukaemia (MLL) gene. AF10 is one of more than 30 MLL fusion partners in leukaemia. We have recently demonstrated that the H3K79 methyltransferase hDOT1L contributes to MLL-AF10-mediated leukaemogenesis through its interaction with AF10 (ref. 5). In addition to MLL, AF10 has also been reported to fuse to CALM (clathrin-assembly protein-like lymphoid-myeloid) in patients with T-cell acute lymphoblastic leukaemia (T-ALL) and acute myeloid leukaemia (AML). Here, we analysed the molecular mechanism of leukaemogenesis by CALM-AF10. We demonstrate that CALM-AF10 fusion is both necessary and sufficient for leukaemic transformation. Additionally, we provide evidence that hDOT1L has an important role in the transformation process. hDOT1L contributes to CALM-AF10-mediated leukaemic transformation by preventing nuclear export of CALM-AF10 and by upregulating the Hoxa5 gene through H3K79 methylation. Thus, our study establishes CALM-AF10 fusion as a cause of leukaemia and reveals that mistargeting of hDOT1L and upregulation of Hoxa5 through H3K79 methylation is the underlying mechanism behind leukaemia caused by CALM-AF10 fusion.     

Identification of hyaluronic acid binding sites in the extracellular domain of CD44

CD44 is a polymorphic glycoprotein expressed on the surface of many tissues and cell lines which has been implicated in a number of cellular functions including lymphocyte homing to mucosal lymphoid tissue (Peyers patches), leukocyte activation, lymphopoiesis, and tumor metastasis. The predominant isoform found on human leukocytes, CD44H, is a receptor for hyaluronic acid. Because of the prominent role CD44 plays in diverse biological processes, we set out to identify the hyaluronic acid binding site(s) in the extracellular domain of CD44H. Using truncation and site-directed mutagenesis we identified two regions containing clusters of conserved basic residues which are important in hyaluronic acid binding. One of these regions is situated near the NH2 terminus and is homologous to other hyaluronic acid binding proteins including cartilage link protein. The other more membrane proximal region lies outside the link protein homologous domain. Mutagenesis of basic residues within these regions established their role as determinants in hyaluronic acid binding. Mutation of Arg 41, a position where a basic residue is conserved in all hyaluronic acid binding proteins, completely abolished binding suggesting that this residue plays a critical role in hyaluronic acid binding.     

HLA-B27 homodimers and free H chains are stronger ligands for leukocyte Ig-like receptor B2 than classical HLA class I

Possession of HLA-B27 (B27) strongly predisposes to the development of spondyloarthritis. B27 forms classical heterotrimeric complexes with β(2)-microglobulin (β2m) and peptide and (β2m free) free H chain (FHC) forms including B27 dimers (termed B27(2)) at the cell surface. In this study, we characterize the interaction of HLA-B27 with LILR, leukocyte Ig-like receptor (LILR)B1 and LILRB2 immune receptors biophysically, biochemically, and by FACS staining. LILRB1 bound to B27 heterotrimers with a K(D) of 5.3 ± 1.5 μM but did not bind B27 FHC. LILRB2 bound to B27(2) and B27 FHC and B27 heterotrimers with K(D)s of 2.5, 2.6, and 22 ± 6 μM, respectively. Domain exchange experiments showed that B27(2) bound to the two membrane distal Ig-like domains of LILRB2. In FACS staining experiments, B27 dimer protein and tetramers stained LILRB2 transfectants five times more strongly than B27 heterotrimers. Moreover, LILRB2Fc bound to dimeric and other B27 FHC forms on B27-expressing cell lines more strongly than other HLA-class 1 FHCs. B27-transfected cells expressing B27 dimers and FHC inhibited IL-2 production by LILRB2-expressing reporter cells to a greater extent than control HLA class I transfectants. B27 heterotrimers complexed with the L6M variant of the GAG KK10 epitope bound with a similar affinity to complexes with the wild-type KK10 epitope (with K(D)s of 15.0 ± 0.8 and 16.0 ± 2.0 μM, respectively). Disulfide-dependent B27 H chain dimers and multimers are stronger ligands for LILRB2 than HLA class I heterotrimers and H chains. The stronger interaction of B27 dimers and FHC forms with LILRB2 compared with other HLA class I could play a role in spondyloarthritis pathogenesis.     

Correlations between the 44D7 antigenic complex and the plasma membrane Na+-Ca2+ exchanger

The exchange of Na+ for Ca2+ across the plasma membrane is mediated by a carrier transport system known as the Na+-Ca2+ exchanger. We have recently reported the specific inhibition of Na+-Ca2+ exchanger activity in cardiac and skeletal muscle sarcolemmal vesicles by monoclonal antibody 44D7. In this review, we summarize the properties of the 44D7 monoclonal antibody and the antigenic complex reacting with this antibody. The 44D7 antibody was produced against human acute lymphocytic cells and recognizes a molecular complex composed of two subunits of the apparent molecular weights 95 000 and 38 000, linked by disulfide bonds. Two other monoclonal antibodies react with the same complex:4F2 which binds to the same epitope as 44D7 and specifically inhibits the Na+-Ca2+ exchanger activity, and 44H7 which reacts with a distinct epitope and does not inhibit exchanger activity. The 44D7 antibody reacts with nerve fibers in brain and proximal convoluted tubules of kidney, both known to possess Na+-Ca2+ exchanger activity. Reactivity of 44D7 antibody with tonsil and thymus sections is restricted to certain subpopulations of cells. The reactivity of the antibody is very weak with resting lymphocytes in suspension; however, activated T lymphocytes and leukemic cells show increased binding to 44D7 antibody. Several malignant cell lines express high levels of the 44D7 antigen. The reactivity of a human hepatoma with 44D7 antibody is much greater than that observed with normal hepatocytes. The inhibition by monoclonal antibody 44D7 of the Na+-Ca2+ exchanger activity and the similarity in tissue distribution of the 44D7 antigenic complex and the exchanger system suggests that these two molecules might be related.(ABSTRACT TRUNCATED AT 250 WORDS)     

Diagnostic application of monoclonal antibody KB90 (CD11c) in acute myeloid leukaemia

The expression of membrane CD11c by leukaemic blast cells was examined (indirect immunorosetting) in 75 cases of acute leukaemia (myeloid, n = 60; lymphoid, n = 15) and evaluated as a potential marker for the diagnostic discrimination between monocytic (AMML-M4 and AMoL-M5) and non-monocytic (M1, M2 and M3) AML subtypes. Preliminary studies of normal bone marrow cells indicated that CD11c expression was not restricted to cells of monocytic lineage but was also present, with apparent lower density, on significant proportions of mature and immature granulocytes. Examination of acute myeloid leukaemia (AML) subtypes revealed that the non-monocytic leukaemias (n = 33) were CD11c-, defined as less than 30% positive cells, whereas all but one of the AMML-M4 (n = 13) and AMoL-M5 (n = 14) cases were CD11c+. All 15 cases of lymphoblastic leukaemia (ALL) showed less than 5% CD11c+ blasts. Membrane CD11c expression was also compared to the more widely used markers of monocytic differentiation; cytoplasmic alpha-naphthyl acetate esterase (ANAE) and membrane CD14 expression. This analysis showed that all 13 AMML-M4 leukaemias studied, including seven cases that were CD14- and eight that were ANAE-, were CD11c+. In addition, the AMoL-M5 cases (all of which were ANAE+) could be phenotypically subdivided into CD11c+ CD14+ (n = 9), CD11c+ CD14- (n = 4) and CD11c- CD14- (n = 1) subgroups. The study also confirmed that the discriminitive ability and sensitivity of the immunorosetting procedure for the detection of membrane CD11c compared favourably to immunofluorescent staining intensities as measured by flow cytometry.     

CD164 monoclonal antibodies that block hemopoietic progenitor cell adhesion and proliferation interact with the first mucin domain of the CD164 receptor

The novel sialomucin, CD164, functions as both an adhesion receptor on human CD34+ cell subsets in bone marrow and as a potent negative regulator of CD34+ hemopoietic progenitor cell proliferation. These diverse effects are mediated by at least two functional epitopes defined by the mAbs, 103B2/9E10 and 105A5. We report here the precise epitope mapping of these mAbs together with that of two other CD164 mAbs, N6B6 and 67D2. Using newly defined CD164 splice variants and a set of soluble recombinant chimeric proteins encoded by exons 1-6 of the CD164 gene, we demonstrate that the 105A5 and 103B2/9E10 functional epitopes map to distinct glycosylated regions within the first mucin domain of CD164. The N6B6 and 67D2 mAbs, in contrast, recognize closely associated and complex epitopes that rely on the conformational integrity of the CD164 molecule and encompass the cysteine-rich regions encoded by exons 2 and 3. On the basis of their sensitivities to reducing agents and to sialidase, O-sialoglycoprotease, and N-glycanase treatments, we have characterized CD164 epitopes and grouped them into three classes by analogy with CD34 epitope classification. The class I 105A5 epitope is sialidase, O-glycosidase, and O-sialoglycoprotease sensitive; the class II 103B2/9E10 epitope is N-glycanase, O-glycosidase, and O-sialoglycoprotease sensitive; and the class III N6B6 and 67D2 epitopes are not removed by such enzyme treatments. Collectively, this study indicates that the previously observed differential expression of CD164 epitopes in adult tissues is linked with cell type specific post-translational modifications and suggests a role for epitope-associated carbohydrate structures in CD164 function.     

Immunoelectron microscopy studies with a monoclonal antibody directed against a receptor recognition site epitope in human alpha 2-macroglobulin.

Alpha 2-Macroglobulin (alpha 2M) is a plasma proteinase inhibitor that binds up to 2 mole of proteinase per mole of inhibitor. Proteinase binding or reaction with small primary amines causes a major conformational change in alpha 2M. As a result of this conformational change, a new epitope recognized by monoclonal antibody 7H11D6 is exposed. The association of alpha 2M-proteinase or alpha 2M-methylamine with alpha 2M cellular receptors is prevented by 7H11D6. In this investigation, the binding of 7H11D6 to alpha 2M was studied by electron microscopy. 7H11D6 bound to alpha 2M-methylamine and alpha 2M-trypsin but not to native alpha 2M. The structure of alpha 2M after conformational change resembled the letter "H." 7H11D6 epitopes were identified near the apices of the four arms in the alpha 2M "H" structure. 7H11D6 that was adducted to colloidal gold (7HAu) retained the specificity of the free antibody (binding to alpha 2M-trypsin but not to native alpha 2M). alpha 2M conformational change intermediates prepared by sequential reaction with a protein crosslinker and trypsin also bound 7HAu. These results suggest that a complete alpha 2M conformational change is not necessary for 7H11D6 epitope exposure and may not be required for receptor recognition. 7HAu was used to isolate a preparation consisting primarily of binary alpha 2M-trypsin (1 mole trypsin per mole alpha 2M instead of 2). Structures resembling the letter "H" were most common; however, each field showed some atypical molecules with arms that were compacted instead of thin and elongated.(ABSTRACT TRUNCATED AT 250 WORDS)     

Epitope interactions of monoclonal antibodies targeting CD20 and their relationship to functional properties

Several novel anti-CD20 monoclonal antibodies are currently in development with the aim of improving the treatment of B cell malignancies. Mutagenesis and epitope mapping studies have revealed differences between the CD20 epitopes recognized by these antibodies. Recently, X-ray crystallography studies confirmed that the Type I CD20 antibody rituximab and the Type II CD20 antibody obinutuzumab (GA101) differ fundamentally in their interaction with CD20 despite recognizing a partially overlapping epitope on CD20. The Type I CD20 antibodies rituximab and ofatumumab are known to bind to different epitopes. The differences suggest that the biological properties of these antibodies are not solely determined by their core epitope sequences, but also depend on other factors, such as the elbow hinge angle, the orientation of the bound antibody and differential effects mediated by the Fc region of the antibody. Taken together, these factors may explain differences in the preclinical properties and clinical efficacy of anti-CD20 antibodies.     

Binding of a large chondroitin sulfate/dermatan sulfate proteoglycan, versican, to L-selectin, P-selectin, and CD44

Here we show that a large chondroitin sulfate proteoglycan, versican, derived from a renal adenocarcinoma cell line ACHN, binds L-selectin, P-selectin, and CD44. The binding was mediated by the interaction of the chondroitin sulfate (CS) chain of versican with the carbohydrate-binding domain of L- and P-selectin and CD44. The binding of versican to L- and P-selectin was inhibited by CS B, CS E, and heparan sulfate (HS) but not by any other glycosaminoglycans tested. On the other hand, the binding to CD44 was inhibited by hyaluronic acid, chondroitin (CH), CS A, CS B, CS C, CS D, and CS E but not by HS or keratan sulfate. A cross-blocking study indicated that L- and P-selectin recognize close or overlapping sites on versican, whereas CD44 recognizes separate sites. We also show that soluble L- and P-selectin directly bind to immobilized CS B, CS E, and HS and that soluble CD44 directly binds to immobilized hyaluronic acid, CH, and all the CS chains examined. Consistent with these results, structural analysis showed that versican is modified with at least CS B and CS C. Thus, proteoglycans sufficiently modified with the appropriate glycosaminoglycans should be able to bind L-selectin, P-selectin, and/or CD44.     

Quantitative expression of epitopes defined by murine monoclonal antibodies on DR molecules from different HLA haplotypes

Monoclonal antibodies 50D6 and 21r5, reactive with human class II molecules, were analyzed quantitatively by flow cytometry and cellular radioimmunoassay for their binding to cells of different HLA-DR types. Monoclonal antibody 50D6 bound equally to cells of all DR types tested except DR7, where no reactivity was observed. Monoclonal antibody 21r5 was reactive with all cells. However, the percentage of DR molecules at the cell surface expressing 21r5 epitope varied with the DR type and increased as follows: DR3 = DR7 less than DR2 less than DR5 less than DR4 less than DR1. MAb 50D6 reacted with an epitope spatially related to but distinct from the 21w4 epitope present on all DR molecules. The 50D6 epitope was shown to be present on isolated DR1 molecules.     

CD80 (B7-1) expression on human acute myeloid leukaemic cells cultured with GM-CSF, IL-3 and IL-6

Acute myeloid leukaemia (AML) blasts rarely express the B7 family of co-stimulatory molecules and do not elicit a clinically significant autologous T-lymphocyte anti-tumour response. The aim of this study was the in vitro modification of AML blasts to an antigen-presenting cell phenotype characterised by upregulated expression of the co-stimulatory molecule CD80 (B7-1). Circulating AML cells were induced to undergo partial differentiation in culture with the cytokines IL-3, IL-6 and GM-CSF; they exhibited variable upregulation of CD80 and continued to express MHC class I and II. These cells remained viable to day 20, in contrast with normal peripheral blood mononuclear cells (PBMNC), which did not survive under the culture conditions. In contrast to unmanipulated blasts, cultured leukaemic cells expressed B7-1. Where initial cytogenetic abnormalities were present, they were also seen in flow-sorted CD80-expressing cells after culture in cytokines, indicating their malignant origin. The immunogenic potential of these cultured cells was highlighted by allogeneic and autologous mixed lymphocyte reactions, in which both differentiated, but not unmanipulated, blasts produced expansion of T-lymphocyte numbers. Autologous cytotoxic T-lymphocyte (CTL) assays indicated specific killing of B7-1+ leukaemic cells, which was greatly enhanced after priming of the T-lymphocytes by B7-1+ blasts prior to the CTL assay, then enabling the CTL to lyse both unmanipulated and differentiated leukaemic cells.     

Binding of hyaluronic acid to lymphoid cell lines is inhibited by monoclonal antibodies against Pgp-1

Recent biochemical and sequence data suggest a possible relationship between Pgp-1 (identical to CD44/Hermes 1/p85) and a hyaluronic acid-binding function. Here, we have studied the hyaluronic acid-binding activity of a series of murine hematopoietic cell lines using several assays: cell aggregation by hyaluronic acid, binding of fluorescein-conjugated hyaluronic acid, and cell adhesion to hyaluronic acid-coated dishes. Certain Pgp-1-positive T and B cell lines show hyaluronic acid binding that is highly specific and is not competed for by other glycosaminoglycans. Monoclonal antibodies against Pgp-1, but not antibodies against other major cell surface glycoproteins, inhibited hyaluronic acid-induced cell aggregation and cell adhesion to hyaluronic acid-coated dishes. Additionally, some anti-Pgp-1 antibodies inhibited binding of fluorescein-hyaluronic acid to hyaluronic acid-binding lines. We found no Pgp-1-negative lines that bound, but many Pgp-1-positive cell lines did not bind hyaluronic acid. Two Pgp-1-positive thymomas that did not bind hyaluronic acid were induced by phorbol ester to bind hyaluronic acid with the same specificity as other hyaluronic acid-binding lines. Normal hematopoietic cells, including those which express high levels of Pgp-1, such as bone marrow myeloid cells and splenic lymphocytes, showed no detectable hyaluronic acid-binding activity. We discuss several models that might account for these observations: (1) the hyaluronic acid receptor is Pgp-1, but it normally exists in an inactive state; (2) hyaluronic acid receptors are a subset of a family of molecules recognized by anti-Pgp-1 antibodies; (3) the hyaluronic acid receptor is not Pgp-1, but is closely associated with Pgp-1 on the surface of cells which express hyaluronic acid-binding activity.     

Negative regulation of epithelium-neutrophil interactions via activation of CD44

Polymorphonuclear neutrophil (PMN) migration across epithelia is a common feature of active inflammation. Given the suggested role of carbohydrates in this process, we examined the receptor CD44. The standard CD44 isoform was expressed at the cell surface of PMN. PMN migration across model polarized intestinal epithelia was reduced (by 60%) if the CD44 receptor was activated by either a specific antibody (clone IM7) or the natural soluble ligand, hyaluronic acid. This inhibitory effect following receptor activation occurred with both basolateral-to-apical- and apical-to-basolateral-directed migration. The anti-CD44 antibody similarly reduced PMN migration through filters in the absence of epithelia, while preincubation of the antibody with the epithelium did not alter subsequent PMN transepithelial migration. These data suggest that PMN, rather than epithelial, CD44 is responsible for these effects. A similar inhibitory effect of anti-CD44 antibody was also observed on migration of intraepithelial lymphocytes. The molecular mechanism involved in such negative signaling following CD44 activation may include modulation of outside-in cell signaling. While neither the anti-CD44 antibody nor CD44 ligand affected PMN mobilization of intracellular Ca(2+), both led to increased adenylate cyclase activity, an inhibitory signal for PMN migration. Together, these results suggest that CD44 of PMN may potentially serve as a negative regulator of leukocyte migration across biological surfaces such as columnar epithelia.