Roberta Schulte

Biochemical characterization and cellular distribution of a polymorphic, murine cell-surface glycoprotein expressed on lymphoid tissues

A murine leukocyte surface glycoprotein (Mr = 95 000) has been defined by means of xenogeneic monoclonal antibodies. In normal hematopoietic tissues, the glycoprotein is found in highest amounts in the bone marrow. Flow cytometric analysis shows that essentially all bone-marrow cells express the glycoprotein and that it is a major component of a subpopulation of cells containing predominantly granulocytic precursors. In contrast, only about 5 percent of thymocytes express sufficient glycoprotein to be detected by flow cytometric analysis, although under stringent conditions up to 20 percent of thymocytes are susceptible to complement-mediated cytotoxicity using a monoclonal antibody against the glycoprotein. Functional assays showed that both prothymocytes and colony forming unit-spleen express the glycoprotein which is broadly distributed on murine hematopoietic tumor cell lines. However, although some Thy-I+ (T) cell lymphomas express large amounts of the glycoprotein, others do not express detectable quantities of the molecule. The glycoprotein is not restricted to hematopoietic cells and can be detected on lung, kidney, brain, and liver as well as cultured fibroblasts. Monoclonal antibodies against the glycoprotein cross-react with an antigen present on human cells. As described in the accompanying paper, the glycoprotein exists in two antithetical allelic forms and we show that it is identical to a polymorphic surface molecule independently characterized by Colombatti and co-workers.

Chromatin-Bound Nuclear Pore Components Regulate Gene Expression in Higher Eukaryotes

Nuclear pore complexes have recently been shown to play roles in gene activation; however their potential involvement in metazoan transcription remains unclear. Here we show that the nucleoporins Sec13, Nup98, and Nup88, as well as a group of FG-repeat nucleoporins, bind to the Drosophila genome at functionally distinct loci that often do not represent nuclear envelope contact sites. Whereas Nup88 localizes to silent loci, Sec13, Nup98, and a subset of FG-repeat nucleoporins bind to developmentally regulated genes undergoing transcription induction. Strikingly, RNAi-mediated knockdown of intranuclear Sec13 and Nup98 specifically inhibits transcription of their target genes and prevents efficient reactivation of transcription after heat shock, suggesting an essential role of NPC components in regulating complex gene expression programs of multicellular organisms.

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.

Expression of Transferrin Receptor on Murine Hematopoietic Progenitors

We have used a monoclonal antibody against the murine transferrin receptor to study the expression of the transferrin receptor on the hematopoietic progenitor cells (BFU-E, CFU-E, and CFU-C) present in mouse bone marrow. Elutriation and cell-sorting data are consistent with the hypothesis that most CFU-E are transferrin receptor positive while most BFU-E express much less transferrin receptor. CFU-C comprise both transferrin-receptor-positive and -negative cells.

Identification and characterization of the human Pgp-1 glycoprotein

Two monoclonal antibodies have been raised against human Pgp-1 by the immunization of mice with human fibroblasts. The human molecule, like the previously identified mouse counterpart, is an abundant membrane protein (Mr approximately 95 000) with a broad tissue distribution. Pgp-1 is phosphorylated, and phosphoamino acid analysis demonstrates that this occurs exclusively on serine residues. A major difference between the mouse and the human is that 50–60% of human thymocytes are Pgp-1+ compared to 5–10% of mouse thymocytes at an equivalent stage in development. Immunofluorescence studies of cryostat sections showed that the majority of human medullary thymocytes are strongly stained with Pgp-1-specific antibody, whereas the expression of Pgp-1 on cortical thymocytes is much more heterogenous.

Evidence that the Pgp-1 glycoprotein is expressed on thymus-homing progenitor cells of the thymus

The Pgp-1 glycoprotein is found on the bone marrow prothymocyte; however, only a few percent of cells within the normal thymus express significant quantities of Pgp-1 glycoprotein. One hypothesis is that some or all of these Pgp-1+ thymocytes represent thymocyte progenitors or the immediate descendents of the bone marrow-derived prothymocyte. A cell present in the thymus which is able to home back to the thymus and to transiently repopulate it represents one class of thymocyte progenitor. Thymocyte populations enriched in this thymus-homing progenitor are enriched in Pgp-1+ cells. Treatment of these enriched populations with anti-Pgp-1 antibody inhibits activity of the thymus-homing progenitor. These results are consistent with the hypothesis that the thymus-homing progenitor bears Pgp-1 on its surface.

Modulation of transferrin receptor expression and function by anti-transferrin receptor antibodies and antibody fragments☆

It has been suggested that effects of anti-transferrin receptor antibodies on cell growth and receptor expression are the result of varying degrees of receptor crosslinking by bi- and multivalet binding agents. In order to study this question directly, we have cultured murine lymphoma cells in mono- and divalent fragments from IgG and IgM monoclonal anti-transferrin receptor antibodies and in intact antibodies. The studies presented here demonstrate that effects of antibody binding on transferrin receptor distribution, metabolism, and function depend, at least in part, on antibody valence, and therefore on the degree of crosslinking of receptors by antibody. We found that monovalent antibody fragments did not significantly alter cell growth, receptor surface expression, intracellular localization, or degradation. Diavalent antibody caused a uniform down-regulation of cell-surface receptor expression, which was accompanied by increased degradation only when antibody Fc was present. Normal receptor cycling apparently continued, despite the reduction in surface expression. Culture in multivalent IgM antibody, however, resulted in accumulation of antibody-complexed receptor on the cell surface without internalization and caused profound inhibition of cell growth. Thus, we show two mechanisms by which different degrees of antibody crosslinking can influence transferrin receptor function: by receptor down-regulation and blocking internalization.

Changes in the relative abundance of type I and type II lck mRNA transcripts suggest differential promoter usage during T-cell development.

The lck gene, which encodes the lymphoid cell-specific tyrosine protein kinase p56lck, is expressed from two widely separated promoters. The proximal promoter gives rise to a type I lck transcript, and the distal promoter gives rise to a type II transcript. We found that the ratio of the two transcripts changed during T-cell maturation. Type I lck mRNA was twofold more abundant than the type II transcript in early fetal thymocytes. In the adult, the type I and type II lck mRNAs were present in approximately equal amounts in immature thymocytes expressing the heat-stable antigen. In contrast, there was five- to ninefold more type II lck than type I lck mRNA in more mature thymocytes that did not express the heat-stable antigen and in splenic T cells. This change in relative transcript abundance probably reflects activation of the distal promoter and inactivation of the proximal promoter during T-cell maturation in the thymus. It is possible that the two promoters are regulated by different trans-acting factors whose expression is regulated during T-cell maturation.

Effect of an anti-murine transferrin receptor-ricin A conjugate on bone marrow stem and progenitor cells treated in vitro

A monoclonal antibody with specificity for murine transferrin receptor was conjugated with the toxic A subunit of ricin. The dose range, specificity, and kinetics of inhibition of protein synthesis of the conjugate were determined on the murine T-lymphoma cell line, BW5147. When toxin was present throughout the period of culture, in vitro myeloid (CFUc) and erythroid (CFUe and BFUe) bone marrow colonies were inhibited by doses of conjugate comparable to those that inhibit protein synthesis in murine cell lines (IC50 of 5 X 10(-11)M). Bone marrow exposed briefly (30 min to 6 h) to anti-transferrin receptor antibody-ricin A conjugate was assayed for myeloid (CFUc) and erythroid (CFUe and BFUe) progenitors in vitro and for in vivo spleen colony formation (CFUs). Only CFUe were depleted by this pulse exposure, consistent with the higher frequency of proliferating cells and transferrin receptor expression in the CFUe population relative to other progenitors.

Phenotypic analysis of the early events during repopulation of the thymus by the bone marrow prothymocyte

The phenotype of the donor thymocytes present in the thymus of irradiated mice injected intravenously with CD3-depleted total bone marrow cells has been studied by three-color flow cytometry during the time period 6-16 days postinjection. Donor cells could first be reliably detected at Day 6 after reconstitution. Donor and host cells maintain their relative proportions over the first few days, after which time the proportion of donor cells derived from the bone marrow increases. At Days 6 and 7 after reconstitution, Pgp-1+, IL-2R- cells predominate, although a minority of Pgp-1+, IL-2R+ cells is also seen. Few cells are Pgp-1-, IL-2R+. Over the next 3 days, the relative proportion of Pgp-1+, IL-2R- cells declines rapidly and the relative proportion of Pgp-1+, IL-2R+ cells and then of Pgp-1-, IL-2R+ cells peaks and declines. The absolute number of all three populations, however, increases exponentially until Day 14. Most donor cells present at Days 6-7 after reconstitution are L3T4-, Lyt-2-. Over the next 2 days, the majority of donor-derived cells express low, but significant, levels of both L3T4 and Lyt-2. L3T4+, Lyt-2+ cells expressing levels of cell surface antigen characteristic of the cognate population found in the adult first appear at Day 10 after reconstitution. These L3T4+, Lyt-2+ donor cells increase in proportion to reach 70-80% of donor-derived cells after Day 14 of reconstitution. The host thymocyte population, on the other hand, contains few Pgp-1+ or IL-2R+ cells even at 7 days after irradiation and is predominantly L3T4+, Lyt-2+ by Day 8. This observation suggests that the host cells are derived from a more mature precursor than the bone marrow prothymocyte or the earliest intrathymic progenitors.