A polypeptide termed oncostatin M, which inhibits the replication of A375 melanoma and other human tumor cells, but not normal human fibroblasts, has been isolated from serum-free supernatants of U-937 histiocytic lymphoma cells that have been induced to differentiate into macrophage-like cells following treatment with the phorbol ester phorbol 12-myristate 13-acetate. No such growth inhibitory activity is detected in the supernatant of untreated U-937 cells, indicating that the protein is induced or increased in expression in the phorbol ester-induced differentiated cells. Oncostatin M is stable between pH 2 and 11 and after heating for 1 hr at 560C but is not stable at 90TC. Purification of oncostatin M has been achieved by gel chromatography and reversed-phase HPLC, using sequentially acetonitrile and n-propanol in the presence of aqueous trifluoroacetic acid. The apparent molecular weight of oncostatin M is -18,000, as determined by gel chromatography, and 28,000, as determined by polyacrylamide gel electrophoresis. (vol/vol) fetal bovine serum, L-glutamine, and penicillin-streptomycin. All of the following cell lines were grown in Dulbecco's modified Eagle's medium (DMEM) supplemented with 10% (vol/vol) fetal bovine serum, L-glutamine, and penicillin-streptomycin. The A375 cell line was derived from a human melanoma (26); A549, from a lung carcinoma (26); HTB10, from a neuroblastoma (27); SK-MEL-28, from a melanoma (28); and WI-26 and WI-38 cells were derived from human embryonic lung (29,30).Cell Growth Inhibition Assay. The assay was performed in flat 96-well plates (3596; Costar, Cambridge, MA). Human A375 melanoma cells were used as a sensitive indicator cell line. Cells (3 x 103 cells) in 0.1 ml of DMEM supplemented with 10% (vol/vol) fetal bovine serum and penicillinstreptomycin were placed in each well. Three hours later, 0. 1 ml of test samples was added to each well. Plates were incubated at 37°C for 3 days. Then 0.025 ml (0.5 ,uCi Abbreviations: PMA, phorbol 12-myristate 13-acetate; GIA, growth inhibitory activity. 9739The publication costs of this article were defrayed in part by page charge payment. This article must therefore be hereby marked "advertisement"in accordance with 18 U.S.C. §1734 solely to indicate this fact.
Simian immunodeficiency virus (SIV) is a primate lentivirus related to human immunodeficiency viruses and is an etiologic agent for acquired immunodeficiency syndrome (AIDS)-like diseases in macaques. To date, only inactivated whole virus vaccines have been shown to protect macaques against SIV infection. Protective immunity was elicited by recombinant subunit vaccines. Four Macaca fascicularis were immunized with recombinant vaccinia virus expressing SIVmne gp160 and were boosted with gp160 produced in baculovirus-infected cells. All four animals were protected against an intravenous challenge of the homologous virus at one to nine animal-infectious doses. These results indicate that immunization with viral envelope antigens alone is sufficient to elicit protective immunity against a primate immunodeficiency virus. The combination immunization regimen, similar to one now being evaluated in humans as candidate human immunodeficiency virus (HIV)-1 vaccines, appears to be an effective way to elicit such immune responses.
Oncostatin M is a polypeptide of M, -28,000 that acts as a growth regulator for many cultured mammalian cells. We report the cDNA and genomic cloning, sequence analysis, and functional expression in heterologous cells of oncostatin M. cDNA clones were isolated from mRNA of U937 cells that had been induced to differentiate into macrophagelike cells by treatment with phorbol 12-myristate 13-acetate, and a genomic clone was also isolated from human brain DNA. Sequence analysis of these clones established the 1,814-base-pair cDNA sequence as well as exon boundaries. This sequence predicted that oncostatin M is synthesized as a 252-amino-acid polypeptide, with a 25-residue hydrophobic sequence resembling a signal peptide at the N terminus. The predicted oncostatin M amino acid sequence shared no homology with other known proteins, but the sequence of the 3' noncoding region of the cDNA contained an A+T-rich stretch with sequence motifs found in the 3' untranslated regions of many cytokine and lymphokine cDNAs. Oncostatin M mRNA of -2 kilobase pairs was detected in phorbol 12-myristate 13-acetate-treated U937 cells and in activated human T cells. Transfection of cDNA encoding the oncostatin M precursor into COS cells resulted in the secretion of proteins with the structural and functional properties of oncostatin M. The unique amino acid sequence, expression by lymphoid cells, and growth-regulatory activities of oncostatin M suggest that it is a novel cytokine.
Functional impairment and selective depletion of CD4+ T cells, the hallmark of AIDS, are at least partly caused by human immunodeficiency virus (HIV-1) type 1 binding to the CD4 molecule and infecting CD4+ cells. It may, therefore, be of therapeutic value to target an antiviral agent to CD4+ cells to prevent infection and to inhibit HIV-1 production in patients' CD4+ cells which contain proviral DNA. We report here that HIV-1 replication in normal primary CD4+ T cells can be inhibited by pokeweed antiviral protein, a plant protein of relative molecular mass 30,000, which inhibits replication of certain plant RNA viruses, and of herpes simplex virus, poliovirus and influenza virus. Targeting pokeweed antiviral protein to CD4+ T cells by conjugating it to monoclonal antibodies reactive with CD5, CD7 or CD4 expressed on CD4+ cells, increased its anti-HIV potency up to 1,000-fold. HIV-1 replication is inhibited at picomolar concentrations of conjugates of pokeweed antiviral protein and monoclonal antibodies, which do not inhibit proliferation of normal CD4+ T cells or CD4-dependent responses. These conjugates inhibit HIV-1 protein synthesis and also strongly inhibit HIV-1 production in activated CD4+ T cells from infected patients.
Natural killer (NK)6 cell activity of peripheral blood lymphocytes against human leukemia cell lines was measured in patients with chronic B-cell lymphocytic leukemia (CLL) and age- and sex-matched controls. In order to remove the leukemia cells that interfere with the in vitro assay we (1) isolated lymphocytes that form rosettes with sheep red blood cells (SRBC) or (2) lysed the CLL cells with a monoclonal anti-B cell antibody and complement. NK activity in either lymphocyte preparation from nine of 10 patients with advanced disease was not detectable and, when calculated in terms of lytic units per ml of blood, as at least seven times lower than in controls; only one of these patients exhibited activity within the control range. Two patients with early disease had measurable, but low, NK-cell activity. Prolongation of the NK cell assay from 6 to 18h gave rise to significant killing in the CLL patients lacking NK cell activity in the 6-h assay; however, the activity still was six times lower than in controls. Treatment of leukemia cell-depleted lymphocytes from CLL patients with human fibroblast interferon or the interfeon inducer poly 1:C enhanced NK-cell activity in the two early stage patients but this treatment was ineffective in three later stage patients. The percentage of cells with characteristics of NK cells, i.e. those with receptors for SRBC and Fc-portion of IgG, was four times higher in CLL patients and the percentage of lymphocytes binding to NK-sensitive target cells was equal to that in controls despite the fact that, in the majority of patients, lysis of the target cells by the lymphocytes does not ensue. The NK deficiency may be responsible for the increased incidence of secondary malignancies in CLL patients.
Four patients with refractory malignant B cell lymphomas were treated with continuous intravenous (IV) infusions of murine monoclonal antibody (MoAb) 1F5 (anti-CD20) over five to ten days. Dose-dependent levels of free serum 1F5 were detected in all patients. Two patients had circulating tumor cells and in both cases 90% of malignant cells were eliminated from the blood stream within four hours of initiation of serotherapy. Antigenic modulation did not occur, and sustained reduction of circulating tumor cells was observed throughout the duration of the infusions. Serial bone marrow aspirations and lymph node biopsies were examined by immunoperoxidase and immunofluorescence techniques to ascertain MoAb penetration into extravascular sites. High doses (100 to 800 mg/m2/d and high serum 1F5 levels (13 to 190 micrograms/mL) were required to coat tumor cells in these compartments in contrast to the low doses that were adequate for depletion of circulating cells. Clinical response appeared to correlate with dose of MoAb administered with progressive disease (52 mg), stable disease (104 mg), minor response (1,032 mg), and partial response (2,380 mg) observed in consecutive patients. The patient treated with the highest 1F5 dose achieved a 90% reduction in evaluable lymph node disease, but the duration of this remission was brief (six weeks). This study demonstrates that high doses of 1F5 can be administered to patients with negligible toxicity by continuous infusion and that clinical responses can be obtained in patients given greater than 1 g of unmodified antibody over a ten-day period.
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