The Journal of Experimental Medicine

Dougherty, G J; Landorp, P M; Cooper, D L; Humphries, R K

doi: 10.1084/jem.174.1.1pmid: 2056274

In addition to the 85-95 kD CD44 species found on most hemopoietic cell types, the human myelomonocytic cell line KG1a expresses proteins of approximately 115 kD and 130 kD that react with monoclonal antibodies belonging to CD44. The possibility that these higher molecular weight species may represent novel CD44 isoforms containing additional protein sequence was investigated. CD44 cDNA clones were isolated from a plasmid-based expression library prepared from KG1a mRNA. One of the three clones obtained (clone 2.3) was found to encode a CD44 molecule of approximately 130 kD in transfected COS cells. Sequences analysis indicated that the molecule encoded by this cDNA clone, designated CD44R1, was essentially identical to CD44 except for the presence of an additional 132 amino acids inserted into the extracellular domain. This inserted region is rich in serine and threonine residues that may serve as sites of O-linked glycosylation, and contains a potential site of N-linked glycosylation and a potential site of chondroitin sulphate attachment. PCR analysis using primers that flank the inserted region present within CD44R1 identified an additional CD44 isoform, designated CD44R2, that contains only the last 69 amino acids present within the unique region of CD44R1. Peripheral blood mononuclear cells and granulocytes from normal individuals and patients with chronic myelogenous leukemia, polycythemia vera, or acute myelomonocytic leukemia, express both CD44R1 and CD44R2. In contrast, CD44R1 and CD44R2 appear to be differentially expressed in various CD44-positive cell lines. Thus KG1a, and the Epstein-Barr Virus-transformed B cell lines WalkDR4 and Way-1 express both CD44 and the CD44 isoforms CD44R1 and CD44R2, while the myeloid cell lines HL60 and U937 express high levels of CD44, but only very low levels of CD44R1 and CD44R2. The CD44-negative cell lines DHL-4, DHL-10, Jurkat, and K562 are also negative for CD44R1 and CD44R2.

Matsuda, H; Kannan, Y; Ushio, H; Kiso, Y; Kanemoto, T; Suzuki, H; Kitamura, Y

doi: 10.1084/jem.174.1.7pmid: 1711569

The effect of nerve growth factor (NGF) on proliferation/differentiation of mast cells was investigated in vitro. Although NGF alone neither supported colony formation of bone marrow-derived cultured mast cells (BMCMC) nor induced development of mast cell colonies from nonadherent bone marrow cells (NBMC), addition of NGF to the suboptimal dose of interleukin 3 (IL-3) significantly increased the numbers of mast cell colonies produced by BMCMC or NBMC in methylcellulose. When stimulated by IL-3 alone, cells in mast cell colonies were not stained by berberine sulfate, a fluorescent dye. In contrast, mast cells developing in methylcellulose cultures obtaining both IL-3 and NGF were stained by berberine sulfate. The fluorescence was abolished by the treatment of heparinase but not of chondroitinase ABC, suggesting that mast cells stimulated by IL-3 and NGF produced and stored heparin proteoglycan. The histamine content of BMCMC maintained by IL-3 was also increased by addition of NGF. Since BMCMC showed mucosal mast cell-like phenotype, NGF appeared to induce the phenotypic change to connective tissue-type mast cells (CTMC). In the culture containing BMCMC, 3T3 fibroblasts, and IL-3, the phenotypic change of BMCMC to CTMC was observed as well. Since NGF was detected in this coculture and since addition of anti-NGF monoclonal antibody suppressed the phenotypic change, NGF produced by fibroblasts appeared to induce the phenotypic change. Neither BMCMC alone nor IL-3 alone increased the concentration of NGF. Therefore, there is a possibility that BMCMC stimulated by IL-3 may induce the production and/or release of NGF by fibroblasts.

Kievits, F; Ivanyi, P

doi: 10.1084/jem.174.1.15pmid: 1905337

Recently, independent lines of evidence strongly suggested that peptides derived from one foreign major histocompatibility complex (MHC) molecule bound to another MHC molecule can give rise to multiple composite MHC complexes that are able to stimulate allo-(xeno)-reactive T cells. In this study, we describe that in vivo immunization of mice with cells mismatched with the recipient for a single class I antigen results in the induction of CD8+ cytotoxic T lymphocytes (CTL) specific for allogeneic class I locus products (Dd, Kd, Dq) in the context of other class I molecules (Ks, Kd, Kk) present on stimulator cells. Evidently, the target antigen for these class I-restricted alloreactive CTL is not the native class I molecule but peptides derived from endogenous processing of allogeneic class I products presented by class I molecules. Using a combination of limiting dilution and split-well analyses, we estimated for Kk-restricted Dq-specific alloreactive CTL a precursor frequency (CTLpf) that was approximately 10 times lower than the CTLpf for "classical" nonrestricted Dq-specific alloreactive CTL. These data suggest that H-2 class I peptides presented by intact H-2 class I molecules are allostimulatory, supporting the concept that the capacity for presentation of MHC peptides by MHC molecules constitutes a part of the allogeneic immune response.

Mingari, M C; Poggi, A; Biassoni, R; Bellomo, R; Ciccone, E; Pella, N; Morelli, L; Verdiani, S; Moretta, A; Moretta, L

doi: 10.1084/jem.174.1.21pmid: 1711562

Purified CD3-4- thymocytes were obtained by depletion of CD3+ and CD4+ cells from fresh thymocyte suspensions. 5-15% of these cells were found to express CD16 antigen, while other natural killer (NK) cell markers were virtually absent. Double fluorescence analysis revealed that 20-40% of thymic CD16+ cells coexpressed CD1, while approximately half were cyCD3+. When cultured in the presence of peripheral blood lymphocytes and H9 leukemia cell line as a source of irradiated feeder cells and interleukin 2 (IL-2), CD3-4- thymocytes underwent extensive proliferation. In addition, after 1-2 wk of culture, 30-50% of these cells were found to express CD16 surface antigen. Cloning under limiting dilution conditions of either CD3-4- or CD3-4-16- thymocytes in the presence of irradiated H9 cells resulted in large proportions (approximately 50%) of CD16+ clones. On the basis of the expression of surface CD16 and/or cyCD3 antigen, clones could be grouped in the following subsets: CD16+ cyCD3+; CD16+ cyCD3-; CD16- cyCD3+; and CD16- cyCD3-. All clones expressed CD56 surface antigen, displayed a strong cytolytic activity against NK sensitive (K562) and NK-resistant (M14) target cells, and produced IFN-gamma and tumor necrosis factor, but not IL-2. Similar to peripheral NK cells, thymic CD16+ cells expressed transcripts for CD16 and for CD3 epsilon (Biassoni, R., S. Ferrini, I. Prigione, A. Moretta, and E.O. Long, 1988. J. Immunol. 140:1685.) and zeta chains (Anderson, P., M. Caligiuri, J. Ritz, and S.F. Schlossman. 1989. Nature Lond.. 341:159). Therefore, it appears that cells that are phenotypically and functionally similar to CD3- CD16+ NK cells may arise from immature thymocytes.

Falkenburg, J H; Goselink, H M; van der Harst, D; van Luxemburg-Heijs, S A; Kooy-Winkelaar, Y M; Faber, L M; de Kroon, J; Brand, A; Fibbe, W E; Willemze, R

doi: 10.1084/jem.174.1.27pmid: 2056279

Minor histocompatibility (mH) antigens appear to play a major role in bone marrow transplantation (BMT) using HLA-identical donors. Previously, we reported the isolation of major histocompatibility complex (MHC)-restricted mH antigen-specific cytotoxic T lymphocytes (CTL) from patients with graft-vs.-host disease or rejection after HLA-identical BMT. We have demonstrated that mH antigens can be recognized on hematopoietic progenitor cells, and residual recipient CTL specific for mH antigens expressed on donor hematopoietic progenitor cells may be responsible for graft rejection in spite of intensive conditioning regimens in HLA-identical BMT. Here, we investigated whether mH antigen-specific CTL directed against the mH antigens HA-1 to HA-5 and the male-specific antigen H-Y were capable of antigen-specific inhibition of in vitro growth of clonogenic leukemic precursor cells. We demonstrate that mH antigen-specific CTL against all mH antigens tested can lyse freshly obtained myeloid leukemic cells, that these mH antigen-specific CTL can inhibit their clonogenic leukemic growth in vitro, and that this recognition is MHC restricted. We illustrate that leukemic (precursor) cells can escape elimination by mH antigen-specific CTL by impaired expression of the relevant MHC restriction molecule. We suggest that mH antigen-specific MHC-restricted CTL may be involved in vivo in the graft-vs.-leukemia reactivity after BMT.

Lublin, D M; Coyne, K E

doi: 10.1084/jem.174.1.35pmid: 1711565

Decay-accelerating factor (DAF) is a glycosyl-phosphatidylinositol (GPI)-anchored membrane protein that protects cells from complement-mediated damage by regulation of the C3 convertase. To investigate the role of the GPI anchor in the function of DAF, the cDNA encoding human DAF was expressed by transfection in Chinese hamster ovary (CHO) cells. Testing of these DAF transfectants in an antibody plus human complement-mediated cytotoxicity assay demonstrated that DAF protects these cells from cytotoxicity, and that the level of protection increases with expression of surface DAF. A cDNA construct encoding a transmembrane version of DAF (DAF-TM) protects CHO transfectants from cytotoxicity with equal efficiency to DAF. This DAF-TM construct used the TM and cytoplasmic domains of membrane cofactor protein (MCP); an alternate TM version of DAF constructed with the TM and cytoplasmic domains of HLA-B44 showed equivalent protection. The protection from cytotoxicity involved a decrease in the deposition of C3 on the cell, consistent with the effect of DAF on the C3 convertase. A second pair of anchor variants, MCP and a GPI-anchored construct, MCP-PI, were also equivalent in their complement protection. The equivalent function of GPI-anchored and TM versions of a protein was not expected based on the hypothesized increased lateral mobility of GPI-anchored proteins, which should confer a functional advantage in contacting ligand, in this case, C3b or C4b, on the cell surface. These data suggest either that GPI-anchored and TM versions of a protein have equal lateral mobility in the membrane, or else that increased lateral mobility is not advantageous to DAF or MCP in carrying out their complement inhibitory roles. Furthermore, DAF and MCP demonstrated approximately equal protection of cells from complement-mediated cytotoxicity, suggesting that DAF and MCP provide overlapping levels of protection to cells against damage mediated by the complement system.

Feng, S H; Stein, K E

doi: 10.1084/jem.174.1.45pmid: 1711566

Preferential use of particular VH gene families in the response to specific antigens has been demonstrated in several systems. The lack of responses to certain types of antigens, therefore, could be the result of deletion of or failure to express some VH genes. Because CBA/N mice, which carry the X-linked immunodeficiency (xid) gene defect, have been shown to be unresponsive to thymus-independent polysaccharide antigens, it was of interest to examine if this unresponsiveness could be accounted for by abnormal expression of particular VH gene families. Using in situ hybridization on B cell colonies, we determined the expression of nine VH gene families in CBA/CaHN females (genotypically normal), CBA/N males (xid) and females (xid), and (CBA/N x CBA/CaHN)F1 males (xid) and females (phenotypically normal). Our results indicate that VH gene family expression, including the S107 family, in CBA/N males and F1 males, is similar to that of CBA/CaHN and F1 females with predominant expression of J558, the largest gene family, in all individuals. Interestingly, CBA/N female mice, which carry two defective X chromosomes, as a group expressed significantly reduced levels of the J558 gene family, and as individuals showed variation in which family was predominantly expressed. We conclude that the unresponsiveness of mice with the xid defect to polysaccharide antigens can not attributed to a failure to express the nine VH gene families that we examined. Our findings do not support previous studies (Primi, D., and P.-A. Cazenave 1986. J. Exp. Med. 165:357), which found an absence of expression of the S107 family in xid mice.

Grassi, F; Meneveri, R; Gullberg, M; Lopalco, L; Rossi, G B; Lanza, P; De Santis, C; Brattsand, G; Buttò, S; Ginelli, E

doi: 10.1084/jem.174.1.53pmid: 1711567

Murine monoclonal antibodies (mAbs) M38 and L31 define two epitopes of a surface protein of activated lymphocytes and monocytes. It has been shown that M38 also defines a crossreactive epitope of human immunodeficiency virus type 1 (HIV-1) gp120 (Beretta et al., 1987. Eur. J. Immunol. 17: 1793). The mAb inhibits syncytia formation driven by HIV-1-infected cells. The surface protein was demonstrated to be a class I MHC alpha chain, by sequence analysis of the corresponding cDNA and by immunological means. The epitopes defined by mAbs M38 and L31 are monomorphic and hidden (i.e., inaccessible to antibodies) on native HLA molecules expressed by resting cells, but can be evidenced on denatured proteins by Western blot analysis. The two epitopes become accessible after activation processes have been implemented, likely reflecting a conformational alteration of alpha chains (such as that described by Schnabl et al. 1990. J. Exp. Med. 171:1431). Consistent with molecular data are the results of functional analysis, which indicate that the molecule recognized by M38 and L31 is a gate for pleiotropic negative signals, since the two mAbs were shown to inhibit monocyte antigen presentation and lymphocyte mitogenic proliferation, respectively.

Ogawa, M; Matsuzaki, Y; Nishikawa, S; Hayashi, S; Kunisada, T; Sudo, T; Kina, T; Nakauchi, H; Nishikawa, S

doi: 10.1084/jem.174.1.63pmid: 1711568

The expression and function of a receptor tyrosine kinase, c-kit, in the adult bone marrow of the mouse were investigated by using monoclonal antibodies (mAbs) against the extracellular domain of murine c-kit. In adult C57BL/6 mouse, 7.8% of total bone marrow cells express c-kit on their surface. Half of the c-kit+ cells do not express lineage markers including Mac-1, Gr-1, TER-119, and B220, while the remainder coexpress myeloid lineage markers such as Mac-1 and Gr-1. After c-kit+ cells were removed from the bone marrow cell preparation, hemopoietic progenitor cells reactive to IL-3, GM-CSF, or M-CSF and also those which give rise to spleen colonies in irradiated recipients disappeared almost completely. Thus, most hemopoietic progenitors in the adult bone marrow express c-kit. To investigate whether or not c-kit has any role in the hemopoiesis of adult bone marrow, we took the advantage of one of the anti-c-kit mAbs that can antagonize the function of c-kit. As early as two days after the injection of 1 milligram of an antagonistic antibody, ACK2, almost all hemopoietic progenitor cells disappeared from the bone marrow, which eventually resulted in the absence of mature myeloid and erythroid cells in the bone marrow. These results provide direct evidence that c-kit is an essential molecule for constitutive intramarrow hemopoiesis, especially for the self-renewal of hemopoietic progenitor cells at various stages of differentiation.

Goldfeld, A E; Strominger, J L; Doyle, C

doi: 10.1084/jem.174.1.73pmid: 2056282

The minimal region of the human tumor necrosis factor alpha (TNF-alpha) gene promoter necessary for its transcriptional induction by phorbol esters (PMA) in human T and B lymphocyte cell lines has been localized between -52 and +89 nucleotides (nt) relative to the gene's transcriptional start site. Comparison of these sequences to those required to mediate virus or lipopolysaccharide (LPS) induction of the gene reveal significant differences, and thus, the sequence requirements for PMA induction are distinct from those that mediate induction by virus or LPS. Although three sites in the TNF-alpha promoter (kappa 1, kappa 2, and kappa 3) specifically bind the transcription factor NF-kappa B in lymphoid nuclear extracts, TNF-alpha mRNA induction by PMA does not correlate with NF-kappa B binding activities displayed by different T and B cell lines. Moreover, kappa 1-kappa 3 can each be deleted from the TNF-alpha promoter with little effect on the gene's inducibility by PMA. Therefore, TNF-alpha mRNA induction by PMA, like its induction by virus and LPS, is not primarily mediated by NF-kappa B, but rather is mediated through other sequences and protein factors. Surprisingly, multimers of kappa 1-kappa 3 can confer PMA inducibility on a heterologous promoter in a B (Raji), but not a T (HUT78) cell line. However they are not functional on a truncated TNF-alpha promoter, indicating that promoter context and cell type specificity influence the PMA inducible function of these NF-kappa B binding sites.