Gene transfer in lymphoid cells: expression of the Thy-1.2 antigen by Thy-1.1 BW5147 lymphoma cells transfected with unfractionated cellular DNA

Fatty acids regulate Thy-1 antigen mRNA stability in T lymphocyte precursors

In this study, we report the effect of fatty acids on the Thy-1 antigen mRNA decay. Low serum and synthetic medium culture conditions were used to demonstrate that fatty acids, which are important metabolites involved as second messengers in signal transduction, also influence the steady-state mRNA level. Detailed analysis demonstrated that polyunsaturated lipids attached to bovine serum albumin, such as linoleic, linolenic, and arachidonic acids, modulate gene expression specifically in the S1A T lymphoma cell line by inducing a 3-5-fold increase in the steady-state Thy-1 mRNA level, concomitant with a twofold increase in cell surface expression. A similar modulation was observed in the immature CD4-CD8- T cell precursors but not in mature thymocytes. Nuclear run-on and transfection experiments indicated that the observed Thy-1 mRNA level is post-transcriptionally regulated and that the presence of the coding region is sufficient for this adaptive response. A mechanism without a requirement for protein kinase C activation, but involving Ca2+ entry, could account for this difference in Thy-1 mRNA stability.

Factors influencing transient expression in cytotoxic T cells following DEAE dextran-mediated gene transfer

A number of transfection protocols have been tested for the introduction of exogenous DNA into cytotoxic T cells. These included electroporation, lipofection, calcium phosphate coprecipitation, polybrene-assisted gene transfer, and DEAE dextran-mediated transfer. Only the latter gave significant and reproducible transfection efficiencies coupled with low toxicity. The DEAE dextran protocol was optimized for the transfection of a transcription reporter construct pRSVcat into a cloned cytotoxic cell line. Among the parameters investigated were cell density, amount of input DNA, concentration of DEAE dextran, DNA adsorption time, temperature, use of permeabilization and expression facilitators, and recovery time. The optimized protocol was then used to demonstrate the presence of cis-acting regulatory regions in the 5'-flanking sequences of two cytotoxic cell-specific serine protease genes and, in addition, was shown to be applicable to other cloned T-cell lines.

Partial complementation of the Fanconi anemia defect upon transfection by heterologous DNA. Phenotypic dissociation of chromosomal and cellular hypersensitivity to DNA cross-linking agents

Transfectants obtained by mouse DNA-mediated gene transfer in Fanconi anemia (FA) primary fibroblasts from the genetic complementation groups A and B were examined for the frequencies of chromosomal aberrations and cytotoxicity following treatments by cross-linking agents. Cells from group A (FA 150), which is the most sensitive to such agents, are partially corrected for both the chromosomal and cellular hypersensitivity to 8-methoxypsoralen photoaddition. In contrast, after treatment with mitomycin C (MMC), only the chromosomal sensitivity is re-established to a near normal level. The opposite is true for FA group B cells (FA 145), i.e. cell survival to MMC is partially corrected, whereas the frequency of MMC-induced chromosomal aberration remains close to that of the untransfected cells. The partial phenotypic correction of the two end points examined is interpreted as indicating either a gene dosage effect or the necessity of introducing more than one gene type in order to achieve complete recovery of a normal phenotype. The phenotypic dissociation between the clastogenic and cellular hypersensitivity to cross-linking agents may offer the opportunity of isolating separately the responsible gene(s) by conventional rescue techniques.

A Thy-1 negative lymphoma cell variant defective in the formation of glycosyl-phosphatidylinositol membrane protein anchors

Thy-1 is a glycoprotein present on the membrane of murine cells of the T-lineage. The mature Thy-1 is anchored to the membrane via a glycolipid, phosphatidylinositide. In order to study the regulation of the synthesis and membrane insertion of this protein, the biochemical properties of a Thy-1.2 negative variant T-lymphoma cell (RL male 1.4) were studied. It contains intracellular Thy-1 protein but fails to express it on the cell surface. While the wild type and the mutant show similar labelling of the intracellular Thy-1 glycoprotein with amino acids, no ethanolamine is incorporated into the Thy-1 molecule of RL male 1.4. A plasmid, pT1, containing the normal Thy-1.2 gene and bacterial gpt gene was transfected into RL male 1.4 and into the murine plasmacytoma cell, J558L. A transfected plasmacytoma, T1J2, synthesized a normal sized Thy-1 protein and displayed the antigen on the membrane. In contrast, the mycophenolic acid resistant RL male 1.4 transfectants did not display Thy-1.2 on the cell surface, despite the presence of substantial amounts of Thy-1 intracellularly. Two other antigens known to be anchored in the membrane by phospholipid, Ly-6e and Qa-2, were also examined in RL male 1.4. RL male 1.4 did not express Ly-6e after alpha interferon induction. In addition, the expression of Qa-2 antigen was greatly diminished in RL male 1.4 in comparison to RL male 1.3. Thus, the defect in RL male 1.4 is not restricted to Thy-1.2, but includes other similarly anchored glycoproteins as well. This implies that the addition of phospholipid to core proteins is similar, if not identical, for all these molecules and that the RL male 1.4 cell lacks the capacity to from the lipid glycoprotein linkage required for the expression of these proteins on the cell surface.

Regulation of immunoglobulin gene transcription by labile repressor factor(s)

The cloned human gamma 1 heavy chain gene (HIG1) was scarcely expressed in the stable transformants of a mouse fibroblast line, L cell or a T cell line, EL4, and no gamma 1 heavy chain was produced in these cells. Upon treatment with cycloheximide or other kinds of protein synthesis inhibitors, the transcription of HIG1 gene was induced in L cell transformants as well as in T cell transformants. Transcription rate of bacterial gpt gene, which was derived from the plasmid vector used for transfection of HIG1 gene and located just upstream of HIG1 in the transformants, was also greatly enhanced after cycloheximide treatment. But the expression of several endogenous genes in the L cells tested was not affected by the cycloheximide treatment. Nuclear transcription assay indicated that the appearance of HIG1 gene transcripts after treatment with cycloheximide was mainly due to the induction of the transcription. Deletion of an enhancer element from HIG1 gene lowered the inducing activity of cycloheximide in the L cell transformants, but a low level of HIG1 gene expression was still observed. These results suggested that trans-acting factors similar to those present in B lymphoid cells are also functioning in non-B lymphoid cells but their activity is inhibited by short-lived repressor protein(s). Such repressor protein(s) appear to act on regulatory element(s) of the immunoglobulin heavy chain gene including enhancer region as well as 5' flanking region.

Stable expression of a selectable myeloproliferative sarcoma virus in murine T lymphocyte and monocyte cell lines

We have investigated whether a retroviral vector based on the myeloproliferative sarcoma virus (MPSV) can be expressed in murine T cells and macrophages. This vector (neoR MPSV) carries the dominant selection marker for neomycin resistance (neoR) and the mos oncogene. The murine T cell line BW5147 and the monocytic cell line P388D1 were either transfected with neoR MPSV DNA or infected with neoR MPSV virus. From both lines, neoR cell clones could be established by retroviral infection, but not by calcium-phosphate precipitation-mediated DNA transfection. The efficiency of infection could be increased 60- to 200-fold upon cocultivation of target cells with irradiated neoR MPSV virus-producing cells. All neoR clones showed neoR MPSV specific sequences as revealed by dot blot and Southern blot analysis. The integration and expression of neoR MPSV was stable over a period of now more than 4 months, even in the absence of selection for neomycin resistance. Northern blot analysis showed that neoR clones express full length neoR MPSV. Further, clones of both T cell and monocyte origin were capable to produce infectious virus particles as revealed by focus formation on fibroblasts and conversion of neomycin sensitive fibroblasts to a neomycin resistant phenotype.

Differential transient and long-term expression of DNA sequences introduced into T-lymphocyte lines

We have used a protoplast fusion protocol to introduce the genes encoding neomycin phosphotransferase (neo) and chloramphenicol acetyltransferase (CAT) into murine and human T-lymphocyte lines. Plasmid constructs containing the neo gene under the control of the promoters from the Rous sarcoma virus long terminal repeat (RSV LTR), the SV40 early region, or the herpes simplex virus thymidine kinase gene (HSV TK) can stably transform each of three T-cell lines to G-418 resistance. The characteristic frequencies for different cell lines can differ by at least two orders of magnitude, although initial DNA uptake and transient expression are similar. In the two murine cell lines, low numbers of gene copies are retained in long-term transformants. Prior to integration, transient expression assays for cat or neo gene products reveal that the differences in intrinsic promoter strength of different constructs are further influenced by the coding sequences being transcribed. Thus, while transient expression of the neo protein is similar from both the Rous LTR and the SV40 early promoter, the Rous LTR directs synthesis of CAT protein at levels two orders of magnitude higher than those from the SV40 early promoter.

Stable integration of mouse DNA into Ia-negative human B-lymphoma cells causes reexpression of the human Ia-positive phenotype

RJ 2.2.5, a variant of the human B-lymphoma cell line Raji, does not express the HLA-DR, -DQ, and -DP class II (or Ia) histocompatibility antigens, as a result of a defect in the transcription of the corresponding genes. This defect is corrected after fusion of RJ 2.2.5 cells with mouse Ia-positive cells. Previous work showed that the trans-acting transcriptional activator supplied by the mouse cells is encoded by a locus on mouse chromosome 16. We show here that reexpression of human major histocompatibility complex class II genes by RJ 2.2.5 cells can also be achieved by stable integration of mouse genomic sequences into the RJ 2.2.5 genome after DNA-mediated gene transfer.

Abnormal response to DNA crosslinking agents of Fanconi anemia fibroblasts can be corrected by transfection with normal human DNA

Primary skin fibroblast cell lines from patients with Fanconi anemia were cotransfected with UV-irradiated pSV2neo plasmids and high molecular weight DNA from normal human cells. Restoration of a normal cellular resistance to mitomycin C (MMC) was observed provided that a Fanconi anemia cell line is selected for DNA-mediated transformation (neo gene) and that at least two successive rounds of transfection are performed. Cells were selected by taking advantage of the higher proliferation rate and plating efficiency of the MMC resistant transformants. As estimated from reconstruction experiments, the frequency of transfer of MMC resistance lies between 1 and 30 X 10(-7). The MMC resistance phenotype was maintained for at least 10 generations following transfection. Evidence for DNA-mediated transformation also includes the recovery of a normal pattern of DNA semiconservative synthesis after treatment with 8-methoxypsoralen and 365-nm UV irradiation, and the presence of exogenous pSV2neo DNA sequences was shown by Southern blot analysis. The acquired MMC resistance is probably due to the presence of DNA from normal cells. Indeed, sensitivity to MMC was maintained when Fanconi anemia cells were cotransfected with the UV-irradiated pSV2neo plasmid mixed with their own DNA or with yeast or salmon sperm DNA. These negative results also render unlikely the selection of spontaneous MMC resistant revertants in transfection of Fanconi anemia cells with normal DNA. These experiments establish the prerequisites for the isolation of the gene(s) involved in the response to DNA crosslinking lesions in human cells.

Transfection of lymphoblastoid cells using DNA-loaded reconstituted Sendai virus envelopes: expression of transfected DNA and selection of transfected cells

The American Burkitt's lymphoma cell line Loukes was cotransfected with cloned BamHI K fragment of EBV DNA and a vector pSV2neo. Reconstituted Sendai virus envelopes (RSVE) loaded with DNA were used for efficient gene transfer. Two cell lines have been obtained following culture in the presence of geneticin sulfate (G-418). Messenger RNA from both transfected DNAs was expressed during the whole period of observation, 42 days after transfection. This method provides a relatively simple and efficient means for selection of lymphoblastoid cells expressing a transfected gene.