Schickwann Tsai scite author profile

The lymphohematopoietic progenitors represent <0.01% of nucleated marrow cells. Here, we describe the immortalization of the murine lymphohematopoietic progenitors by a retroviral vector harboring a dominant-negative retinoic acid receptor. The immortalized progenitors proliferate as a stem-cell-factor-dependent clonal line EML that spontaneously generates pre-pro-B lymphocytes and erythroid and myeloid progenitors. Upon stimulation with intedeukin-7 and stromal cells, the pre-pro-B lymphocytes express RAG-1 and undergo D-[ rearrangements of the immunoglobulin heavy-chain genes. With erythropoietin the erythroid progenitors proliferate and differentiate into red cells. Generation of the common progenitors for neutrophils and macrophages is suppressed in EML but is inducible by high concentrations of retinoic acid. An additional block in neutrophil differentiation occurs at the promyelocyte stage but can also be overcome by high concentrations of retinoic acid. These studies demonstrate a reproducible way to immortalize lymphohematopoietic progenitors and implicate specific roles for retinoic acid receptors at two distinct stages of hematopoiesis.

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The TspanC8 Subgroup of Tetraspanins Interacts with A Disintegrin and Metalloprotease 10 (ADAM10) and Regulates Its Maturation and Cell Surface Expression

Haining

Yang

Bailey

et al. 2012

Journal of Biological Chemistry

142

201

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Background: ADAM10 is a transmembrane metalloprotease that regulates development, inflammation, cancer, and Alzheimer disease. Results: The TspanC8 subgroup of tetraspanin membrane proteins interacts with and promotes ADAM10 maturation and cell surface localization. Conclusion: This study defines the TspanC8 tetraspanins as essential regulators of ADAM10. Significance: Focusing on specific TspanC8-ADAM10 complexes may allow ADAM10 therapeutic targeting in a cell typeand/or substrate-specific manner.

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Characterization of the continuous, differentiating myeloid cell line (HL-60) from a patient with acute promyelocytic leukemia

et al. 1979

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In a prelminary communication, we described the establishment of a continuous human myeloid cell line (HL-60). Here we report the detailed properties of this cell line and document its derivation from the peripheral blood leukocytes of a patient with acute promyelocytic leukemia. As characterized by light and electron microscopy, the predominant cell type in both the fresh and cultured sources is a neutrophilic promyelocyte with prominent nuclear/cytoplasmic asynchrony. Up to 10% of the cultured cells spontaneously differentiate beyond the promyelocyte stage, and the proportion of terminally differentiated cells is markedly enhanced by compounds known to stimulate differentiation of mouse (Friend) erythroleukemia cells. The HL-60 cells lack specific markers for lymphoid cells, but express surface receptors for Fc fragment and complement (C3), which have been associated with differentiated granulocytes. They exhibit phagocytic activity and responsiveness to a chemotactic stimulus commensurate with the proportion of mature cells. As characteristic of transformed cells, the HL-60 cells form colonies in semisolid medium and produce subcutaneous myeloid tumors (chloromas) in nude mice. A source of colony-stimulating activity stimulated the cloning efficiency in soft agar 5--30-fold. Despite adaptations to culture, the morphological phenotype and responsiveness to chemical induction of differentiation is essentially unchanged through at least 85 passages. Cytogenetic studies reveal aneuploidy. Metaphases with 44 chromosomes predominated in vivo and in early culture passages; however, clones with 45 or 46 chromosomes became predominant with continued passaging. The most consistent karyotypic abnormalities were the deletion of chromosomes 5, 8, and X and the addition of a marker resembling a D-group acrocentric and of a submetacentric marker, most likely an abnormal E-group chromosome. No DNA herpesvirus or RNA retrovirus was isolated in the fresh or cultured cells. The HL-60 cultured cell line provides a continuous source of human cells for studying the molecular events of myeloid differentiation and the effects of physiologic, pharmacologic, and virologic elements on this process.

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Oncoprotein TLS Interacts with Serine-Arginine Proteins Involved in RNA Splicing

Yang¹,

Embree²,

Tsai³

et al. 1998

Journal of Biological Chemistry

202

160

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The gene encoding the human TLS protein, also termed FUS, is located at the site of chromosomal translocations in human leukemias and sarcomas where it forms a chimeric fusion gene with one of several different genes. To identify interacting partners of TLS, we screened a yeast two-hybrid cDNA library constructed from mouse hematopoietic cells using the C-terminal region of TLS in the bait plasmid. Two cDNAs encoding members of the serine-arginine (SR) family of proteins were isolated. The first SR protein is the mouse homolog of human splicing factor SC35, and the second SR member is a novel 183-amino acid protein that we term TASR (TLS-associated serine-arginine protein). cDNA cloning of human TASR indicated that mouse and human TASR have identical amino acid sequences. The interactions between TLS and these two SR proteins were confirmed by co-transfection and immunoprecipitation studies. In vivo splicing assays indicated that SC35 and TASR influence splice site selection of adenovirus E1A pre-mRNA. TLS may recruit SR splicing factors to specific target genes through interaction with its C-terminal region, and chromosomal translocations that truncate the Cterminal region of TLS may prevent this interaction. Thus TLS translocations may alter RNA processing and play a role in malignant transformation.Chromosomal translocations are found frequently in leukemias as well as in malignancies of non-hematopoietic tissues. These translocations usually give rise to novel fusion genes and novel fusion proteins. To understand the role that these fusion proteins play in cellular transformation, knowledge of the function of the wild-type protein involved in the translocations is required.We have focused these studies on understanding the function of the TLS gene. TLS (translocated in liposarcoma), also called FUS, was originally identified through its fusion to the CHOP gene (a member of the C/EBP family of transcription factors) in human myxoid liposarcoma with the t(12;16) chromosomal translocation (1, 2). In human acute myeloid leukemia with the t(16;21) translocation, the TLS gene is fused with the ERG gene (a member of the ETS family of transcription factors) (3). In translocations involving TLS, the N-terminal part of TLS is retained in the fusion protein and the C-terminal region is deleted.TLS is a member of a closely related family of genes, including the EWS gene, which was originally identified in Ewing's sarcoma (4). Both TLS and EWS are involved in various types of cancers through chromosomal translocation either with other genes of the ETS family or with other transcription factors (see Ref. 5 for a review). The evidence that transcriptional activation plays a role in transformation mediated by TLS (or EWS) fusion proteins stems from the observations that the N terminus of the TLS protein is rich in glutamine, serine, and tyrosine and is a potent transactivator when fused with various transcription factors (6).Two observations suggest that the transactivational activity of the TLS fusion protein may not be su...

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Schickwann Tsai

p150Ship, a signal transduction molecule with inositol polyphosphate-5-phosphatase activity.

Lymphohematopoietic progenitors immortalized by a retroviral vector harboring a dominant-negative retinoic acid receptor can recapitulate lymphoid, myeloid, and erythroid development.

The TspanC8 Subgroup of Tetraspanins Interacts with A Disintegrin and Metalloprotease 10 (ADAM10) and Regulates Its Maturation and Cell Surface Expression

Characterization of the continuous, differentiating myeloid cell line (HL-60) from a patient with acute promyelocytic leukemia

Oncoprotein TLS Interacts with Serine-Arginine Proteins Involved in RNA Splicing

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