Reduced fertility of female mice lacking CD81.

In somatic cells, the tetraspanins CD81 and CD9 associate with each other, with additional tetraspanins and with non-tetraspanin molecules to form proteolipidic complexes. Here we show that CD81 is expressed on the surface of oocytes where it associates with tetraspanin-enriched membrane structures. A major CD9 and CD81 partner, CD9P-1, is also expressed by oocytes.

Hepatocyte CD81 is required for Plasmodium falciparum and Plasmodium yoelii sporozoite infectivity.

Plasmodium sporozoites are transmitted through the bite of infected mosquitoes and first invade the liver of the mammalian host, as an obligatory step of the life cycle of the malaria parasite. Within hepatocytes, Plasmodium sporozoites reside in a membrane-bound vacuole, where they differentiate into exoerythrocytic forms and merozoites that subsequently infect erythrocytes and cause the malaria disease. Plasmodium sporozoite targeting to the liver is mediated by the specific binding of major sporozoite surface proteins, the circumsporozoite protein and the thrombospondin-related anonymous protein, to glycosaminoglycans on the hepatocyte surface.

CD9 and megakaryocyte differentiation.

It is shown that the tetraspanin CD9 has a complex pattern of distribution in hematopoietic cells and is heterogeneously expressed on human bone marrow CD34(+) cells. CD34(high)CD38(low)Thy1(+) primitive progenitors are contained in the population with intermediate CD9 expression, thus suggesting that CD9 expression may precede CD38 appearance. Cell sorting shows that colony-forming unit (CFU)-GEMM and CFU-GM are present in high proportions in this fraction and in the fraction with the lowest CD9 expression.

Severely reduced female fertility in CD9-deficient mice.

CD9 is a widely expressed cell surface molecule that belongs to the tetraspanin superfamily of proteins. The tetraspanins CD9, KAI-1/CD82, and CD63 are involved in metastasis suppression, an effect that may be related to their association with beta1 integrins. Knockout mice lacking CD9 were created to evaluate the physiological importance of CD9.

Upregulation of CD9 expression during TPA treatment of K562 cells.

The CD9 antigen, a major platelet glycoprotein, is a member of the tetraspan superfamily. We show that treatment of K562 cells with 12-O-tetradecanoylphorbol-13-acetate (TPA) which induces megakaryocytic differentiation, leads to a seven-fold increase in CD9 expression, which becomes associated with the integrin beta1, suggesting that it is functionally relevant. The upregulation of CD9 expression precedes the appearance of the megakaryocytic-specific marker GPIIb (CD41) as well as integrins beta3 (GPIIIa/CD61), alpha v (CD51) and VLA-2 (CD49b).

c-Jun inhibits NF-E2 transcriptional activity in association with p18/maf in Friend erythroleukemia cells.

We have reported previously that antisense c-jun overcomes a block of Friend erythroleukemia cells to differentiation suggesting that the factor c-Jun may be an important negative regulator of erythroid differentiation. The recently described erythroid transcription factor NF-E2 plays an important role in the regulation of the transcription of globin genes and recognizes a sequence containing an AP-1 site. NF-E2 is a complex of two bZip proteins, p45 and p18/Maf.

Transcriptional regulation of the human CD9 gene: characterization of the 5'-flanking region.

The CD9 antigen, initially discovered on B lineage leukemic cells, belongs to the tetraspan superfamily of surface molecules. If no precise function has been assigned to any of these molecules, there are some indications that they could be involved in cell adhesion and cell migration, as well as malignant progression. The CD9 antigen is associated with surface proteins such as VLA integrins or HB-EGF precursor.

Factors regulating megakaryocyte progenitor commitment to polyploidization.

Recognizable megakaryocytes are polyploid cells generated by a clonogenic, diploid progenitor, termed CFU-MKC (colony forming unit, megakaryocyte). In order to quantify polyploidization, ploidy histograms of megakaryocytes determined by microphotometric or flow cytometric measurements of megakaryocyte DNA have generally been used. However these techniques provide no information on the rate of commitment of CFU-MKC to polyploidy.

Factors regulating megakaryocyte progenitor commitment to polyploidization.

Recognizable megakaryocytes are polyploid cells generated by a clonogenic, diploid progenitor, termed CFU-MKC (colony forming unit, megakaryocyte). In order to quantify polyploidization, ploidy histograms of megakaryocytes determined by microphotometric or flow cytometric measurements of megakaryocyte DNA have generally been used. However these techniques provide no information on the rate of commitment of CFU-MKC to polyploidy.

CD9 antigen is an accessory subunit of the VLA integrin complexes.

The CD9 antigen is a cell surface glycoprotein of unknown function which belongs to the tetraspans family. We demonstrate here, by precipitation, Western blotting and co-capping experiments, that this molecule is associated with a large fraction of beta 1 integrins in two cell lines, the pre-B cell line NALM-6 and the megakaryocytic cell line HEL. In HEL cells, CD9 antigen is only associated with VLA-4.

Molecular cloning of the mouse equivalent of CD9 antigen.

The CD9 antigen was originally described as a 24 kDa molecule present on B lineage-derived acute lymphoblastic leukemia cells and developing B-lymphocytes. However, platelets express a large amount of CD9 antigen and can be activated by CD9 antibodies. We report here the cloning and sequencing of a cDNA coding for the mouse CD9 antigen.

Organization of the human CD9 gene.

The CD9 antigen was originally described as a 24-kDa molecule present on B-lineage-derived acute lymphoblastic leukemia cells and developing B lymphocytes. Platelets also express a large amount of CD9 antigen and can be activated by CD9 antibodies. We report here the structure of the CD9 gene, which is composed of 8 exons spanning more than 20 kb.

Tissue-specific expression of the platelet GPIIb gene.

One of the major objectives in the study of thrombogenesis is to determine the mechanisms by which a hematopoietic progenitor is activated and committed to the megakaryocytic lineage. Recent development of primary cultures of human megakaryocytes and the molecular cloning of genes that are specific to this lineage offer the possibility of getting some insights into the genetic mechanisms that control megakaryocytopoiesis. One gene of interest is the glycoprotein IIb (GPIIb) gene; GPIIb, the alpha subunit of the platelet cytoadhesin GPIIb-IIIa, is produced in megakaryocytes at an early stage of the differentiation, whereas the other subunit of this complex, GPIIIa, is expressed in other cells.

Megakaryocytic and erythrocytic lineages share specific transcription factors.

Erythroid-specific genes contain binding sites for NF-E1 (also called GF-1 and Eryf-1; refs 1-3 respectively), the principal DNA-binding protein of the erythrocytic lineage. NF-E1 expression seems to be restricted to the erythrocytic lineage. A closely related (if not identical) protein is found in both a human megakaryocytic cell line and purified human megakaryocytes; it binds to promoter regions of two megakaryocytic-specific genes.

Membrane assembly and remodeling during reticulocyte maturation.

Membrane skeletal and cytoskeletal remodeling occurs throughout erythroid maturation. Microtubules and microfilaments have been identified morphologically in the nucleated erythroblast but the functional capability of these cytoskeletal structures during reticulocyte maturation has not been studied. Reticulocytes are formed from orthochromatic normoblasts by the process of nuclear extrusion.

Immunophenotype of blast cells in chronic myeloid leukemia.

The immunophenotype of peripheral blood blast cells from 14 patients in the chronic phase of chronic myeloid leukemia (CML) was studied using a panel of monoclonal antibodies (McAb) directed against megakaryocytic, granulomonocytic, erythroid and lymphoid antigenic determinants. The blast cells were enriched by a simple bovine serum albumin (BSA) density-cut separation and cooled in liquid nitrogen. The study was done using the alkaline phosphatase-anti-alkaline phosphatase (APAAP) technique on the thawed blast cells.

Human chronic myeloid leukemic cell line with positive Philadelphia chromosome exhibits megakaryocytic and erythroid characteristics.

A cell line (LAMA-84) has been established from the blood of a patient with chronic myeloid leukemia in acute phase. LAMA-84 cells retained the patient's chromosome abnormalities, i.e.

Megakaryocytic development in liquid cultures of cryopreserved leukocyte stem cell concentrates from chronic myelogenous leukemia patients.

The proliferation and differentiation of human megakaryocytes in liquid culture has been obtained using cryopreserved light-density blood cell concentrates from chronic myelogenous leukemia (CML) patients. A large number of megakaryocytes, representing 20%-60% of total cells cultured, developed after 12-14 days in liquid cultures supplemented with human plasma, while fetal calf serum supported the development of cells of the megakaryocytic lineage poorly. Ploidy studies showed the presence of 8N and 16N cells in human plasma-supplemented cultures while very few cells with DNA content greater than 4N were found in those supplemented with fetal calf serum.

Abnormal splenic megakaryopoiesis in MPSV-induced myeloproliferative disease.

The myeloproliferative sarcoma virus (MPSV) induces a murine myeloproliferative syndrome characterized by an erythromyelemia, an anemia, a thrombocytopenia associated with a myeloproliferation in the spleen and a splenic and medullar fibrosis. We have used the in-vitro plasma clot technique to measure megakaryocytic precursors in the spleen and bone-marrow of MPSV-infected mice. We report that megakaryocytic colonies are increased, in number (X75), in concentration (X9) and in size, in the spleen but not in the bone-marrow of neoplastic mice.

Leukemic cell maturation: variability of the myeloid leukemic cell phenotype.

Leukemia is characterized by a proliferation of cells that exhibit an arrest in the normal differentiation sequence. The HL-60 promyelocytic leukemia is a useful model of the phenomenon of maturation arrest, particularly as modulated by inducers that partially restore myeloid differentiation. In this investigation, we report the development of two sublines of HL-60 and the acquisition of two others that are clonal variants of the parent cell line.

[Influence of macrophage culture supernatants on erythroblastic islets in rat erythropoiesis].

The isolation of central macrophages from erythroblastic islands (EI) permitted analysis of the role of EI macrophage factors in erythropoiesis. EI macrophage supernatant and peritoneal macrophage supernatant both had a similar effect on erythropoiesis. They exerted an erythropoietin-like effect.

Polyploid megakaryocytes develop randomly from a multicompartmental system of committed progenitors.

Cumulative distributions of the number of doublings undergone by mixed megakaryocytic/erythroblastic colonies and by pure megakaryocytic colonies were determined from plasma clot cultures of bone marrow (from C57BL/6 mice) supplemented with erythropoietin. Analysis of these distributions suggests that these colonies are produced by three distinct progenitors. At days 7-14, progenitors of mixed megakaryocytic/erythroblastic colonies (BFU-ME) generate tri-exponential distributions and the mean (+/- SD) fraction of this progenitor pool ceasing to proliferate per doubling (FCP) increases stepwise from 0.