A functional analysis of hematopoietic growth factor production from class I and class II human alloreactive T cell clones

Class I and Class II human alloreactive T cell clones or their conditioned media were mixed with progenitor cell-enriched null cells to assess their ability to stimulate human hematopoietic progenitor cell (HPC) growth. Optimal release of erythroid, myeloid or megakaryocyte colony-stimulating factors occurred after 72 hours and required contact of cloned T cells with irradiated stimulator cells expressing the appropriate major histocompatibility complex (MHC) determinants recognized by the T cells. Individual clones were quite heterogeneous in their capacity to release hematopoietic growth factors. Clones that produced optimal levels of factors that stimulated granulocyte-macrophage colony growth did not always produce equivalent amounts of factors that stimulated erythroid colony growth and vice versa when tested against identical target cells. Class II clones released nearly twice as much interleukin 3 activity as Class I clones. Class II clones that lacked cell-mediated lympholytic (CML) activity against B or T lymphoblastoid targets were consistent stimulators of HPC growth. In contrast, Class I or Class II clones that contained CML activity either poorly stimulated or inhibited HPC growth. These CML-positive clones produced greater amounts of gamma interferon. Our findings may have important implications for HPC growth following allogeneic mismatched bone marrow transplantation.     

Accessory cell function of cells isolated from Mycobacterium leprae-induced granulomas

The large cells from Mycobacterium leprae-induced granulomas in guinea pig lymph nodes were separated by Percoll discontinuous density gradient centrifugation and on a fluorescence-activated cell sorter (FACS) using cross-reacting monoclonal antibody to human MHC Class II antigens. Large Percoll-separated cells (83% Class II antigen positive and 52% macrophage-specific antigen positive) and FACS-separated cells are able to act as antigen-presenting cells for T-cell proliferation to PPD. In previous studies, macrophage antigen-positive cells consistently failed to act as accessory cells. This indicates that there is a population of accessory cells which are macrophage antigen negative and MHC Class II antigen positive present in these M. leprae-induced granulomas.     

Variations in the expression of pili: the effect on adherence of Neisseria meningitidis to human epithelial and endothelial cells

The effect of variations in Neisseria meningitidis pili on bacterial interactions with three epithelial cell lines as well as human umbilical vein endothelial cells was studied using a panel of seven strains expressing Class I or Class II pili. Comparison of adherence of piliated and pilus-deficient variants of each strain to epithelial cells suggested that Class I pili may mediate bacterial adherence with all three epithelial cell lines. In contrast, Class II pili of the strains used did not increase bacterial adherence to Hep-2 larynx carcinoma cells, although an increase in adherence to Chang conjunctival and A549 lung carcinoma epithelial cells was observed in the Class II pili-expressing strains. In addition to these interclass functional variations, differences in adherence to epithelial cells were also observed among Class I and Class II strains. Functionally different pilin variants of one Class I strain, MC58, were obtained by single colony isolation. One piliated variant was identified which had concurrently lost the ability to adhere to both Chang and Hep-2 cells ('non-adherent' phenotype; adherence of less than 2 bacteria per cell). In addition, several adherent pilin variants were isolated from non-adherent Pil- and Pil+ bacteria by selection on Chang cells (adherence of 10-25 bacteria per cell). In contrast to epithelial cells, all variant pili, whether of Class I or Class II, adhered to endothelial cells in substantially larger numbers (greater than 50 bacteria per cell) and therefore implied the existence of distinct mechanisms in pilus-facilitated interactions of N. meningitidis with endothelial and epithelial cells.     

A glycosylated type I membrane protein becomes cytosolic when peptide: N-glycanase is compromised

The human cytomegalovirus-encoded glycoprotein US2 catalyzes proteasomal degradation of Class I major histocompatibility complex (MHC) heavy chains (HCs) through dislocation of the latter from the endoplasmic reticulum (ER) to the cytosol. During this process, the Class I MHC HCs are deglycosylated by an N-glycanase-type activity. siRNA molecules designed to inhibit the expression of the light chain, beta(2)-microglobulin, block the dislocation of Class I MHC molecules, which implies that US2-dependent dislocation utilizes correctly folded Class I MHC molecules as a substrate. Here we demonstrate it is peptide: N-glycanase (PNGase or PNG1) that deglycosylates dislocated Class I MHC HCs. Reduction of PNGase activity by siRNA expression in US2-expressing cells inhibits deglycosylation of Class I MHC HC molecules. In PNGase siRNA-treated cells, glycosylated HCs appear in the cytosol, providing the first evidence for the presence of an intact N-linked type I membrane glycoprotein in the cytosol. N-glycanase activity is therefore not required for dislocation of glycosylated Class I MHC molecules from the ER.     

Depletion of protein kinase C induced by an anti HLA class I monoclonal antibody in phytohemagglutinin activated human T cells

Anti HLA Class I Monoclonal Antibody depletes Protein Kinase C (PKC) to 20% of control value in PHA activated human T cells. The effect is reversible: in 24 hours the enzymatic activity returns to 58% of control value. Removal of antibody from the culture medium increases the rate of recovery. Implications of this finding for the modulation by HLA Class I antigens of the proliferative response of T cells to lectins are discussed.     

Classification system based on the functional equivalency of mitogens that regulate WI-38 cell proliferation

Analysis of the proliferative response of WI-38 cells to nine mitogens, which in various specific combinations stimulate DNA synthesis in these cultures, delineated three classes of mitogens. Class I includes epidermal growth factor (EGF), fibroblasts growth factor (FGF), platelet-derived growth factor (PDGF), and thrombin (THR); Class II includes insulin-like growth factor I (IGF-I), multiplication stimulating activity (MSA) (the rat homolog of human IGF-II), and insulin; and Class III includes hydrocortisone (HC) or the synthetic analog dexamethasone (DEX). In cultures arrested at low density, members of each of the three classes act synergistically in stimulating DNA synthesis. Any Class I mitogen in combination with any Class II and either Class III mitogen stimulated DNA synthesis of levels observed in 10% serum-supplemented medium. At least some (EGF, FGF, PDGF) and possibly all (THR) of the Class I mitogens are known to act through separate receptor systems. Our experiments using blocking antibodies to the IGF-I receptor confirm that the Class II mitogens all act by binding to IGF-I receptors. Use of the inhibitory synthetic glucocorticoid analog RU 486 confirmed that the Class III mitogens act via the glucocorticoid receptor. Thus, growth factor-induced DNA synthesis in WI-38 cells is apparently mediated by the glucocorticoid receptor (Class III), the IGF-I receptor (Class II), and most interestingly any one of several Class I growth factor receptors.     

Modulation of the Antigenic Phenotype of Human Melanoma Cells by Differentiation-inducing and Growth-suppressing Agents

Tumor cells often display alterations in their normal program of cellular differentiation. A promising approach for the treatment of cancer involves the induction of terminal differentiation and a loss of proliferative capacity in cancer cells. In human melanoma cells, the combination of mezerein (MEZ) and fibroblast interferon (IFN-β), results in a rapid and irreversible suppression of cell growth with a concomitant increase in the synthesis of melanin. The induction of terminal differentiation is associated with alterations in the expression of several cellular genes, including fibronectin, ISG-15 and ISG-54, and changes in the expression of specific cell surface antigens, including intercellular adhesion molecule-1 (ICAM-1) and HLA Class I antigens. In the HO-1 human melanoma cell line, induction of terminal differentiation by MEZ plus IFN-β results in an induction and/or increased expression of ICAM-1. HLA Class I antigens and HLA Class II antigens. IFN-β and MEZ alone can modulate expression of these antigens to a lower extent than does the combination of compounds. Induction of terminal differentiation and the irreversible suppression of cell growth is not a prerequisite for antigenic modulation in HO-1 cells. This is indicated by the inability of immune interferon (IFN-γ), a strong inducer of ICAM-1, HLA Class I antigens and HLA Class II antigens synthesis, or the combination of IFN-β plus IFN-γ which synergistically but reversibly suppresses HO-1 growth. to induce melanin synthesis or terminal differentiation in HO-1 cells. The inhibitor of protein kinase C, H-7, only marginally alters 72 hr growth suppression induced by MEZ or the interferons, used alone or in combination. In several experiments, H-7 only partially and variably inhibited the enhanced expression of ICAM-1, HLA Class I antigens and HLA Class II antigens in HO-1 cells treated with MEZ. IFN-β or IFN-γ, used alone or in various combinations. This model system will be useful in defining the biochemical, genomic and antigenic changes associated with the chemical induction of terminal differentiation and the loss of proliferative capacity in human melanoma cells.     

Expression of nestin by neural cells in the adult rat and human brain

Neurons and glial cells in the developing brain arise from neural progenitor cells (NPCs). Nestin, an intermediate filament protein, is thought to be expressed exclusively by NPCs in the normal brain, and is replaced by the expression of proteins specific for neurons or glia in differentiated cells. Nestin expressing NPCs are found in the adult brain in the subventricular zone (SVZ) of the lateral ventricle and the subgranular zone (SGZ) of the dentate gyrus. While significant attention has been paid to studying NPCs in the SVZ and SGZ in the adult brain, relatively little attention has been paid to determining whether nestin-expressing neural cells (NECs) exist outside of the SVZ and SGZ. We therefore stained sections immunocytochemically from the adult rat and human brain for NECs, observed four distinct classes of these cells, and present here the first comprehensive report on these cells. Class I cells are among the smallest neural cells in the brain and are widely distributed. Class II cells are located in the walls of the aqueduct and third ventricle. Class IV cells are found throughout the forebrain and typically reside immediately adjacent to a neuron. Class III cells are observed only in the basal forebrain and closely related areas such as the hippocampus and corpus striatum. Class III cells resemble neurons structurally and co-express markers associated exclusively with neurons. Cell proliferation experiments demonstrate that Class III cells are not recently born. Instead, these cells appear to be mature neurons in the adult brain that express nestin. Neurons that express nestin are not supposed to exist in the brain at any stage of development. That these unique neurons are found only in brain regions involved in higher order cognitive function suggests that they may be remodeling their cytoskeleton in supporting the neural plasticity required for these functions.     

Anionic sites,fucose residues and class I human leukocyte antigen fate during interaction of Toxoplasma gondii with endothelial cells

Toxoplasma gondii invades and proliferates in human umbilical vein endothelial cells where it resides in a parasitophorous vacuole. In order to analyze which components of the endothelial cell plasma membrane are internalized and become part of the parasitophorous vacuole membrane, the culture of endothelial cells was labeled with cationized ferritin or UEA I lectin or anti Class I human leukocyte antigen (HLA) before or after infection with T. gondii. The results showed no cationized ferritin and UEA I lectin in any parasitophorous vacuole membrane, however, the Class I HLA molecule labeling was observed in some endocytic vacuoles containing parasite until 1 h of interaction with T. gondii. After 24 h parasite-host cell interaction, the labeling was absent on the vacuolar membrane, but presents only in small vesicles near parasitophorous vacuole. These results suggest the anionic site and fucose residues are excluded at the time of parasitophorous vacuole formation while Class I HLA molecules are present only on a minority of Toxoplasma-containing vacuoles.     

Accessory cell function of human melanoma cells in mitogen-induced T cell proliferation

Six out of eight human melanoma cell lines were found to be able to function as accessory cells in PHA-induced proliferation of autologous and allogeneic T cells. The accessory cell function of the melanoma cell lines appears to be similar to that of monocytes, requires the presence of viable cells, and does not correlate with the cell surface binding sites for PHA and with the level of expression of HMW-MAA and of HLA Class I antigens. HLA Class II antigens do not appear to play a major role in these phenomena, since there is no relationship between level of expression of HLA Class II antigens and accessory cell function of melanoma cells. Furthermore, addition of anti-HLA Class II monoclonal antibodies does not affect proliferation of T cells stimulated with PHA in the presence of melanoma cells with accessory cell function. Although melanoma cells exert accessory cell function, functional and immunological assays did not detect IL-1 in the spent medium of the melanoma cell lines. Furthermore, Northern blotting analysis with IL-1 alpha and IL-1 beta probes did not detect IL-1-specific mRNA in melanoma cell lines. These results suggest that PHA-induced proliferation of T cells in the presence of melanoma cells can bypass the requirement for IL-1 or utilizes factors other than IL-1.     

Primitive endothelial cell lines from the porcine embryonic yolk sac

Endothelial cell lines have been established from cells that were isolated from porcine yolk sacs from day 18 and day 22 embryos and propagated in vitro under various growth conditions. After expansion in vitro, the general properties of the cells proved similar for the different media used. The endothelial cells expressed cell surface receptors for acetylated low-density lipoprotein and also expressed cell surface-associated angiotensin-converting enzyme. The cells showed a characteristically high level of binding for Bandeiraea simplicifolia lectin I and Dolichos biflorus agglutinin but did not bind significant amounts of Ulex europaeus lectin I. The cells expressed low but serologically detectable levels of Class I major histocompatibility complex (MHC) antigens but failed to bind antibodies directed against Class II MHC antigens. Alpha5beta1 integrins were weakly expressed, whereas vascular cell adhesion molecule-1 (CD106) and alphavbeta3 integrins were not detected. Three-dimensional tube formation was readily observed in cultures grown on Matrigel and occurred even in uncoated plastic dishes in the absence of Matrigel. In contrast to most of the adult porcine endothelial cells, yolk sac-derived endothelial cells did not possess serologically detectable receptors for porcine growth hormone (GH), an observation consistent with the finding that GH did not increase the proliferative rate of these cells. Electron microscopic examination demonstrated the presence of Weibel-Palade bodies, tight endothelial cell junctions, and typical rough endoplasmic reticulum. Exposure of the cells to either concanavalin-A-stimulated porcine splenocyte culture supernatants or to human tumor necrosis factor alpha did not cause upregulation of VCAM-1 or Class II MHC antigens. Addition of porcine interferon-gamma led to an increase in the level of expression of Class I MHC. Yolk sac endothelial cells from day 22 embryos showed a low but detectable level of expression of Class II MHC antigens, whereas the endothelial cells from day 18 embryos showed no expression of Class II antigens after interferon-gamma stimulation. The cells maintained competence to develop vascular structures in vitro and could do so after coinjection with murine tumor cells into adult, immunocompromised mice.     

Serological and biological cross-reactivity of class II antigens between mice and humans in antigen-specific T-cell proliferative responses

Many studies have already been reported with regard to the serological cross-reactivities between the polymorphic determinants of murine Ia antigens and human HLA-DR antigens. In this paper, we examined the biological cross-reactivity of the polymorphism of Class II antigens in the xenogeneic antigen-presenting cell (APC)-T-cell interaction. The data indicate that purified protein derivative (PPD)-specific human T cells were not stimulated by PPD-pulsed murine APC from B10.S(9R) which possess I-As and I-Ek molecules serologically cross-reacting with human Class II antigens. On the contrary, B10.S(9R) T cells primed to PPD were stimulated by PPD-pulsed human APC. The failure of the murine APC-human T-cell interaction was not caused by the suppressive effect in culture with ongoing xenogeneic mixed lymphocyte reactions (MLR) or other cell culture conditions. Thus, a hierarchy of antigen-presenting ability in the xenogeneic APC-T-cell interaction was shown to exist.     

Retroviral antibody binding of the MHC class II molecule: a biochemical influence on CD4 T cell differentiation in HIV infection?

Retroviral antibody capable of binding to the major histocompatibility complex (MHC) Class II molecule has been documented in human immunodeficiency virus-1 (HIV-1)-infected patients. Interactions between the MHC Class II receptor and the T-cell receptor (TCR) are central to the immune response. Importantly, retroviral antibody possesses a much higher binding affinity for the MHC Class II receptor, when compared to the TCR. Experiments have manipulated a number of factors related to antigen-presenting cell (APC) interaction with differentiating T-cells. These studies have observed the effects of lowering antigen dose and reducing ligand density on precursor Th (T helper) cell differentiation. Studies have also examined the effect of downregulated MHC Class II receptors and co-stimulatory molecules on APC-Th cell interaction. In addition, the sequestration of antigens away from the Class II processing pathway has been studied. These investigations reveal a general trend that can determine whether a naive CD4 T-cell becomes a Th1 or Th2-like cell. If the experimental manipulation weakens the APC-Th cell interaction, a weak ligating TCR signal results. Consequently, a weak ligating TCR signal can influence precursor Th cells to become Th2-like cells. Retroviral antibody binding of MHC Class II receptors may mimic a number of experimental conditions responsible for creating a weak ligating TCR signal.     

Genetic characterization of methotrexate-resistant chinese hamster ovary cells.

In a previous report, we described the selection and partial characterization of three methotrexate (Mtx)-resistant Chinese hamster ovary cells (CHO) (1). Class I cells contained an apparent structural alteration in dihydrofolate reductase. Class II cells had an alteration affecting the permeability of the drug. Class III cells, selected from Class I cells, had an increased activity of the altered enzyme. In the work described here, it has been shown that the spontaneous mutation rate to Class I resistance is in the order of 2 X 10-9 mutations per locus per generation and that in single-step mutagenized selections the number of resistant colonies of Class I and II are about equal. Class I and Class III resistance is expressed codominantly in somatic cell hybrids, whereas the Class II resistant marker is a recessive trait.     

Functional differentiation of human brain progenitor cells

Stem cells and progenitor cells derived from the developing human brain have been shown to differentiate into neurons and astrocytes. However, few studies have examined the functional, physiological properties of these differentiated neurons and astrocytes. In this study we have used immunocytochemistry in combination with electrophysiology to examine protein machinery and functional properties of neurons and astrocytes differentiated from human brain progenitor cells (hBPCs).Our results show that serum induces mainly astrocytic phenotype cells that express GFAP and have physiological properties that are typical of astrocytes. hBPCs differentiated with BDNF and PDGF develop mainly into neurons expressing mature neuronal proteins MAP-2, synaptobrevin II and vesicular glutamate transporter I in the process, plus a small population of GFAP-positive radial cells. Based on electrophysiology of BDNF/PDGF-treated cells two classes of cell were identified. Class I cells have functional neuronal properties, including functional voltage-gated Na(+) and K(+) currents, functional AMPA receptors and the ability to generate action potentials. A smaller subpopulation of cells (Class II cells) expresses GFAP and exhibit functional properties of astrocytes, including linear current-voltage relationship and dye-coupling.     

The role of pili in the interactions of pathogenic Neisseria with cultured human endothelial cells

The influence of the two surface structures of Neisseria meningitidis, capsule and pili, in bacterial interactions with human endothelial cells was investigated. Increased association correlated with the presence of pili on bacteria while capsule type had no apparent effect. Strains expressing both Class I and Class II pili associated with endothelial cells in significantly larger numbers compared with the non-piliated variants of the same strains (greater than 10x). Variants of Neisseria gonorrhoeae strain P9 expressing antigenically distinct pili also associated with endothelial cells in larger numbers (greater than 30x) compared with the non-piliated variant. Electron microscopic studies confirmed these data and showed that gonococci were internalized more frequently compared with meningococci. One consequence of increased association was an increase in the cytopathic effect of bacteria on the target cells.     

Activation of protein kinase C accelerates internalization of transferrin receptor but not of major histocompatibility complex class I, independent of their phosphorylation status.

Phosphorylation of membrane glycoproteins has often been invoked as a determinant of receptor internalization and receptor trafficking in a more general sense. Here we have studied the trafficking of major histocompatibility complex (MHC) Class I molecules and transferrin receptor (Tfr) related to their phosphorylation status in the human lymphoblastoid cell line JY. High resolution isoelectric focusing (IEF) allows the visualization of phosphorylated and non-phosphorylated protein species simultaneously, using protein backbone-labeling. Analysis on IEF was combined with a neuraminidase protection assay, in which sialic acid modification of the N-linked glycans present on Tfr and Class I molecules is used as a reporter group for cell surface expression. Phosphorylation of Class I heavy chains and Tfr was induced by exposure of cells to the phorbol ester tetradecanoyl phorbol acetate. We show that 1) phosphorylation of MHC Class I molecules is restricted to the cell surface fraction, 2) phosphorylation of MHC Class I molecules by protein kinase C (PKC) is not correlated with their internalization, as no internalization of Class I molecules, phosphorylated or non-phosphorylated, could be detected, 3) the initial rate, but not the final extent of the internalization of Tfr is affected by activation of PKC, and 4) phosphorylated Tfr behaves in a manner identical to non-phosphorylated Tfr in terms of internalization. The effect of activation of PKC on internalization of Tfr therefore most likely takes place at the level of the internalization machinery. Our data concerning the internalization of MHC Class I molecules contrast with earlier studies describing constitutive internalization in the B lymphoblastoid cell line A 46 and in HPB-ALL cells.     

Anti-immunoglobulin stimulation of human B lymphocytes is inhibited by anti-class II major histocompatibility complex antibodies

The effect of murine monoclonal antibodies binding monomorphic epitopes of Class II, HLA-DR molecules on responding human B lymphocytes stimulated by anti-immunoglobulin M (IgM) antibodies was studied. Goat F(ab')2 anti-human IgM coupled to Sepharose beads (insoluble), or in solution, was added to macrophage-depleted B cells in culture with, or without, anti-human HLA-DR monoclonal antibodies. The addition of monoclonal anti-HLA-DR antibodies to anti-human IgM-stimulated B lymphocytes inhibited this T-independent B-cell proliferation by 82-94%. The role of Class II, HLA-DR molecules on B cells may therefore exceed that of antigen presentation alone, to include responding B-cell activation induced by anti-immunoglobulin.