UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
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P48 is a 48 kDa monocytic differentiation/activation factor previously purified from the conditioned medium of the Reh human pre-B cell leukaemia cell line. It induces growth arrest and differentiation of HL-60 human promyelocytic leukaemia cells along the monocytic pathway and the production of the cytokines interleukin 1, tumour necrosis factor-alpha and interleukin 6 in human monocytes and monocytic cell lines. The cDNA for P48 was cloned from Reh cellular RNA using 3' reverse amplification of cDNA ends. Southern blot probing with P48 cDNA revealed hybridization with DNA from Reh and Molt-4 cells, but not with DNA from human peripheral blood mononuclear cells. Subsequent studies using PCR and Southern analysis revealed P48 sequences in DNA isolated from Mycoplasma fermentans but not M. hominis, M.iowae, M.synoviae or M.lypophilum. Although initial studies using Mycoplasma culture and hybridization techniques had failed to reveal Mycoplasma infection in our Reh and Molt-4 cell lines, subsequent PCR studies using Mycoplasma genus-specific rRNA primrs revealed Mycoplasma sequences in these cell lines. Using the P48 cDNA probe, we isolated a genomic clone from M. fermentans DNA which was found to be 98.5% identical with the P48 cDNA clone, and the deduced amino acid sequence agreed with N-terminal microsequencing data for P48 protein purified from the Reh cell line conditioned medium. The 5' end of the gene has a number of consensus sequences characteristic of prokaryotic genes, and the deduced amino acid sequence has a number of features suggesting that P48 is a lipoprotein. The P48 cDNA was expressed in pMAL in Escherichia coli, and the 60 kDa expressed fusion protein was found to react with anti-P48 antibodies on Western blots. This is consistent with a pMAL fusion protein representing the sum of the 42 kDa maltose-binding protein and 18 kDa of P48 recombinant protein, suggesting that native P48 has significant post-translational modification. Consistent with this, Northern blot studies revealed a single 1 kb transcript. The recombinant fusion protein was found to possess anti-proliferative activity against HL-60 cells, and antibodies against recombinant P48 were found to block the biological activity of native P48 isolated from conditioned medium. These studies demonstrate that P48, a molecule with immunomodulatory and haematopoietic differentiation activities, is derived from M. fermentans or a closely related species. P48 may be important in the pathophysiology of Mycoplasma infections and may be useful in dissecting the mechanisms involved in mammalian haematopoietic cell differentiation, immune function and cytokine biosynthesis.
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PMID:cDNA and genomic cloning and expression of the P48 monocytic differentiation/activation factor, a Mycoplasma fermentans gene product. 892 Oct

Co-cultures of the murine macrophagic cell line RAW 264.7 with the L929 fibrosarcoma cell line, but not with the leukemia L1210 cell line, showed enhanced NO production over control RAW 264.7 cells. This potentiating effect, which was observed in detectably mycoplasma-free conditions and required low concentrations of recombinant murine IFN-gamma, was due to soluble factors released from L929 cells and not to physical contact between the two cell types. The soluble factors were able to induce TNF-alpha in the macrophages and to potentiate the TNF-alpha release induced by IFN-gamma. Increased generation of NO in RAW 264.7 cells co-cultured with L929 cells was prevented by a neutralizing anti-TNF-alpha antibody, suggesting that TNF-alpha is an autocrine factor for iNOS expression in these conditions. Also the L929 cell line showed a 4- to 5-fold enhanced NO production following co-culture with RAW 264.7 cells, thus indicating that exposure of tumor cells to macrophages can lead to an increased iNOS expression in tumor cells themselves.
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PMID:Effects of the murine L929 and L1210 cell lines on nitric oxide and TNF-alpha production by RAW 264.7 murine macrophages. 901 76

A growth-inhibitory substance found in the culture of a B-precursor leukemia cell line, NALM-20, was purified from the serum-free culture medium and identified as arginine deiminase derived from Mycoplasma arginini (EC 3.5.3.6). Arginine deiminase strongly inhibited, in a dose-dependent manner, the growth of human T cells and T lymphoblastoid cell lines, but not that of B-precursor and myeloid cell lines. The addition of L-arginine completely restored the growth of T lymphoblastoid cells that had been inhibited by arginine deiminase. The addition of L-ornithine also partially restored it. This enzyme suppressed interleukin-2 (IL-2) production and IL-2 receptor expression in T cells stimulated by non-specific mitogens. The morphologic features of dying cells and DNA fragmentation indicated that arginine deiminase induced apoptotic cell death in T lymphoblasts. Cell cycle analysis revealed that G1-->S transition was blocked in cell treated with arginine deiminase, accompanied by the increase of apoptotic nuclei in the sub-G1 fraction. In conclusion, the deletion of the essential nutrient L-arginine by arginine deiminase significantly inhibited cell growth and activation in T lymphoblasts, accompanied by the induction of apoptotic cell death.
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PMID:Apoptotic cell death of human T lymphoblastoid cells induced by arginine deiminase. 907 17

Human malignant cells are targeted by homologous complement C3b if they express M161Ag, a 43-kDa protein with C3-activating property. cDNA of M161Ag cloned from human leukemia cell lines predicted M161Ag as a novel secretory protein comprised of 428 amino acids including 5 amino acids encoded by TGA codons (Matsumoto M., Takeda, J., Inoue, N., Hara, T., Hatanaka, M., Takahashi, K., Nagasawa, S., Akedo, H., and Seya, T. (1997) Nat. Med. 3, 1266-1270), although the origin of this gene was obscure. Here we clarified this point through genomic and biochemical analysis: 1) 5'-UT and genomic sequences represented the prokaryote promoter and ribosomal binding site; 2) the TGA codons in M161Ag cDNA were translated not into selenocysteines but into tryptophans; 3) M161Ag anchored onto the membrane secondary to its N-terminal palmitoylation like prokaryote lipoproteins; 4) genomic and cDNA clones of M161Ag were highly homologous to Mycoplasma fermentans gene encoding P48, a monocytic differentiation/activation factor, recently released in the data base, although the resultant proteins were different in the amino acid sequences. Additionally, purified soluble M161Ag efficiently provoked IL-1beta, tumor necrosis factor alpha, and IL-6 like P48, and further IL-10 and IL-12 in human peripheral blood monocytes. Thus, M161Ag originates from M. fermentans, and latently infected M. fermentans allows human cells to produce M161Ag. The liberated protein serves as a potent modulator of innate and cellular immune responses via its complement-activating and cytokine-producing activities.
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PMID:Structural and functional properties of complement-activating protein M161Ag, a Mycoplasma fermentans gene product that induces cytokine production by human monocytes. 957 96

It is well known that cases with multiple myeloma reveal various clinical manifestations such as pancytopenia, hyperproteinemia, renal dysfunction, bone lesions, hypercalcemia and immunodeficiency. Recently, a few more clinical features associated with myeloma, such as salivary type hyperamylasemia and elevated serum C-reactive protein (CRP) concentration, have been reported. The elevation of CRP is thought to be related to interleukin-6 (IL-6) production by myeloma cells, because of identification of IL-6 as an autocrine and/or paracrine growth factor for myeloma cells. More recently, there have been several reports of cases with myeloma associated with hyperammonemia. This hyperammonemia is not considered to be due to liver dysfunction, because in most of these cases tests revealed normal hepatic function, and some cases showed different patterns of serum amino acid distribution than that associated with hepatic failure. However, there have been no apparent observations of ammonia production by myeloma cells. In this study, we used six human myeloma cell lines including KMS-18, which was recently established from a myeloma case associated with hyperammonemia. These lines were treated with MRA (mycoplasma removal agent) to observe ammonia production in vitro. They produced and released significantly higher levels of ammonia into culture medium than non-myeloma hematological cell lines or the HepG2 human hepatic carcinoma cell line. Although attempts to analyze the relative expression levels of the enzymes related to ammonia biosynthesis using the reverse transcriptase-polymerase chain reaction assay failed to detect any differences between these myeloma lines and other cell lines, in vitro excess ammonia production by the myeloma cells was confirmed and the relevance to clinical manifestations is discussed.
Leukemia 1998 Jul
PMID:In vitro excess ammonia production in human myeloma cell lines. 966 3

P48 is a 48 kd monocytic differentiation/activation factor previously purified from the conditioned medium of the Reh human pre-B cell leukemia line. It induces differentiation of HL-60 promyelocytic leukemia cells along the monocytic pathway and production of IL1, TNF-alpha and IL6 in human monocytes and monocytic cell lines. Recently our laboratory isolated cDNA clones for P48 from Reh cells and genomic clones from Mycoplasma fermentans DNA and showed that P48 is a M. fermentans gene product. In this paper we report the analysis of P48 expression at the DNA, mRNA and protein levels in different Mycoplasma species. Polymerase Chain Reaction (PCR) analysis of extracted DNA using P48-specific oligonucleotide primers revealed P48 sequences in M. fermentans but not M. hominis, M. iowae, M. genitalium or M. capricolum. Southern analysis of Mycoplasma DNAs revealed hybridizing bands in M. fermentans and M. capricolum under low stringency, but only in M. fermentans under high stringency. Consistent with this, Northern blot studies revealed a single hybridizing transcript in M. fermentans but not in other Mycoplasma species tested. However, Western blot studies with anti-P48 antibodies revealed P48 antigenic material in M. fermentans, as well as M. hominis and M. iowae. These studies demonstrate that the gene for P48 is derived from M. fermentans or a closely related species and is absent in these other species tested. However, the P48 protein exhibits shared antigenic determinants among several Mycoplasma species which presently are of unknown function or significance. P48 is a Mycoplasma -derived immunomodulatory molecule which may be important in Mycoplasma pathophysiology and may be useful in understanding human haematopoietic differentiation and the control of cytokine biosynthesis.
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PMID:Expression of the monocytic differentiation/activation factor P48 in Mycoplasma species. 1045 5

Two novel B-cell precursor (BCP) acute lymphoblastic leukemia (ALL) cell lines, designated NALM-33 and NALM-34, were established from a 72 year-old male patient with ALL at relapse. Subcultures of each initial flask were first made after eight weeks of continuous incubation; thus, the two cell lines are simultaneous sister cell lines. The cells proliferate consistently singly and free-floating in suspension. They are negative for Epstein-Barr virus (EBV) infection by polymerase chain reaction (PCR) and are negative for mycoplasma infection. They have the morphological appearance of lymphoblasts with a scanty rim of cytoplasm, fine nuclear chromatin and distinct nucleoli. The primary leukemic blasts showed a common ALL phenotype with CD19+, CD10+, CD13-, HLA-DR+ and Igs-; the cell lines NALM-33/-34 display an identical immunophenotype. They fulfill "European Group for the Immunological Characterization of Leukemias (EGIL)" criteria as BCP leukemia B-II type. While the immunoglobulin heavy chain genes were found uniquely to be in their germline configuration, rearrangement of both kappa and lambda light chain genes was noted by Southern blot analysis. CDR-II detection by reverse transcriptase-PCR was also not detected. NALM-33/-34 did not respond significantly to the proliferative stimuli of various hematopoietic cytokines. In the cytogenetic analysis, they revealed the t(8;14)(q24.1;q32) with additional numerical and structural chromosomal abnormalities. The extensive immunological, cytogenetic and functional characterization of NALM-33/-34 suggests that these two novel cell lines may represent unique and relevant in vitro model systems for BCP-type leukemia cells.
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PMID:Novel B-cell precursor leukemia sister cell lines, NALM-33 and NALM-34, established from a patient with acute lymphoblastic leukemia. 1060 89

P48 is a 48-kDa monocytic differentiation/activation factor which was originally identified in the conditioned medium of the Reh and other leukemia cell lines and has recently been shown to be a Mycoplasma fermentans gene product. Previously, conditioned medium P48 has been shown to induce differentiation of HL-60 (human promyelocytic leukemia) cells. Recently our laboratory isolated cDNA clones for P48 from Reh cells and genomic clones from Mycoplasma fermentans and expressed the recombinant protein as a maltose binding protein (MBP) fusion protein in E. coli. In this report we present the initial characterization of this recombinant P48 fusion protein (rP48-MBP). We show that rP48-MBP induces differentiation of HL-60, U937 (human histiocytic lymphoma), and M1 (mouse myeloid leukemia) cell lines. Interestingly, rP48-MBP also induces apoptosis of U937 and HL-60 cells as assessed by terminal transferase (TUNEL) assays. This is the first report of induction of apoptosis by a Mycoplasma gene product. P48 is a Mycoplasma-derived immunomodulatory molecule which has differentiation and apoptosis-inducing activities and may be important in the pathophysiology of Mycoplasma infections. The recombinant protein may be useful in studying the mechanisms of differentiation, cytokine production, and apoptosis in malignant and nonmalignant hematopoietic cells.
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PMID:Induction of leukemia cell differentiation and apoptosis by recombinant P48, a modulin derived from Mycoplasma fermentans. 1069 14

Along with other improvements, the advent of continuous human leukemia-lymphoma (LL) cell lines as a rich resource of abundant, accessible and manipulable living cells has contributed significantly to a better understanding of the pathophysiology of hematopoietic tumors. The first LL cell lines, Burkitt's lymphoma-derived lines, were established in 1963. Since then, more than 1000 cell lines have been described, although not all of them in full detail. The major advantages of continuous cell lines is the unlimited supply and worldwide availability of identical cell material, and the infinite viable storability in liquid nitrogen. LL cell lines are characterized generally by monoclonal origin and differentiation arrest, sustained proliferation in vitro under preservation of most cellular features, and specific genetic alterations. The most practical classification of LL cell lines assigns them to one of the physiologically occurring cell lineages, based on their immunophenotype, genotype and functional features. Truly malignant cell lines must be discerned from Epstein-Barr virus (EBV)-immortalized normal cells, using various distinguishing parameters. However, the picture is not quite so straightforward, as some types of LL cell lines are indeed EBV+, and some EBV+ normal cell lines carry also genetic aberrations and may mimic malignancy-associated features. Apart from EBV and human T-cell leukemia virus in some lines, the majority of wild-type LL cell lines are virus-negative. The efficiency of cell line establishment is rather low and the deliberate establishment of new LL cell lines remains by and large an unpredictable random process. Difficulties in establishing continuous cell lines may be caused by the inappropriate selection of nutrients and growth factors for these cells. Clearly, a generally suitable microenvironment for hematopoietic cells, either malignant or normal, cannot yet be created in vitro. The characterization and publication of new LL cell lines should provide important and informative core data, attesting to their scientific significance. Large percentages of LL cell lines are contaminated with mycoplasma (about 30%) or are cross-contaminated with other cell lines (about 15-20%). Solutions to these problems are sensitive detection, effective elimination and rigorous prevention of mycoplasma infection, and proper, regular authentication of cell lines. The underlying cause, however, appears to be negligent cell culture practice. The willingness of investigators to make their LL cell lines available to others is all too often limited. There is a need in the scientific community for clean and authenticated high-quality LL cell lines to which every scientist has access. These are offered by various institutionalized public cell line banks. It has been argued that LL cell lines are genetically unstable (both cytogenetically and molecular genetically). For instance, cell lines are supposed to acquire numerical and structural chromosomal alterations and various types of mutations (e.g. point mutations) in vitro. We present evidence that while nearly 100% of all LL cell lines indeed carry genetic alterations, these alterations appear to be stable rather than unstable. As an example of the practical utility of LL cell lines, the recent advances in studies of classical and molecular cytogenetics, which in large part were made possible by cell lines, are highlighted. A list of the most useful, robust and publicly available reference cell lines that may be used for a variety of experimental purposes is proposed. Clearly, by opening new avenues for investigation, studies of LL cell lines have provided seminal insights into the biology of hematopoietic neoplasia. Over a period of nearly four decades, these initially rather exotic cell cultures, known only to a few specialists, have become ubiquitous powerful research tools that are available to every investigator.
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PMID:Continuous hematopoietic cell lines as model systems for leukemia-lymphoma research. 1108 73

A linkage between mycoplasmas and malignancy was mainly proposed in the 1960s when human-associated mycoplasmas were becoming of interest given the novel characterization of the human respiratory pathogen Mycoplasma pneumoniae. Associations with leukemia and other malignancies, however, were largely ascribed to tissue-culture contamination, which is now recognized as a significant potential problem in molecular biology circles. A few epidemiological studies, however, continue to raise concern over such a linkage. As well, in vitro data have demonstrated the potential for some mycoplasmas to induce karyotypic changes and malignant transformation during chronic tissue-culture infestation. As cellular and molecular mechanisms for such transformation become studied, a resurgence of interest in this area is inevitable. A role for mycoplasmas in malignancy of any sort is conjectural, but there remains a need to continue with focussed epidemiological and laboratory investigations.
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PMID:Do mycoplasmas cause human cancer? 1157 94

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