DNA polymerases from non stimulated and phytohemagglutinin stimulated normal human lymphocytes

The presence and some properties of DNA polymerases isolated from normal human lymphocytes, non stimulated and stimulated by phytohemagglutinin, are described. In the non stimulated lymphocytes two cytoplasmic DNA polymerases are found, one eluting from DEAE cellulose at 0.07 M NaCl (CI_n) and the other at 0.13 M NaCl (CII_n). In the nuclear soluble fraction only one enzyme activity is found (NI_n) which does not adsorb to DEAE cellulose. In the cytoplasm of stimulated lymphocytes only one enzyme activity is detected (CI_s) which elutes from DEAE cellulose at 0.12 M NaCl. The nuclear soluble fraction contains two activities, NI_s, which does not adsorb to DEAE cellulose, and NII_s, which elutes from DEAE cellulose at 0.07 M NaCl. Some properties of the different enzymes are described which indicate that NI_n and NI_s enzymes are clearly different from the others.     

Smoking-reIated DNA adducts and genetic polymorphism for metabolic enzymes in human lymphocytes

Smoking-related aromatic DNA adducts in lymphocytes were measured from smokers (n = 76), ex-smokers (n = 25) and non-smokers (n = 56) by the ³²P-postlabelling method, to clarify whether a genetic polymorphism for metabolic enzymes could explain the inter-individual variation of DNA adduct levels. Adduct levels were compared with respect to smoking status and polymorphic genotypes of cytochrome P4501A1 (CYP1A1) and glutathione S-transferase M1 (GTSM1). The mean adduct level (1.24 per 10⁸ nucleotides) in smokers was significantly higher than that (0.85 per 10⁸) in non-smokers. Although we expected higher adduct levels in the CYP1A1 variant or GSTM1 null subjects, the adduct level in 'GSN1 nulls' was significantly lower than that in 'GSTM1 presents' among smokers. DNA adduct levels had significant positive correlations with smoking indices such as number of cigarettes or smoking years in all subjects. In smokers only, however, no correlation was found, because there were negative correlations between adduct levels and smoking dose in GSTM1 null genotypes. CYP1A1 genotypes had no effects on adduct levels.     

Effects of arsenic on DNA synthesis in human lymphocytes stimulated by phytohemagglutinin

Effects of arsenic on DNA synthesis in human lymphocytes were biphasic: either trivalent (arsenic trioxide and sodium arsenite) or pentavalent (sodium arsenate) arsenic compounds at very low concentrations enhanced DNA synthesis in human lymphocytes stimulated by phytohemagglutinin (PHA), whereas higher concentrations inhibited DNA synthesis. There were differences among individual susceptibities to arsenic-induced DNA synthesis. Either stimulating or inhibiting effects of trivalent arsenic on DNA synthesis in PHA-stimulated lymphocytes were always stronger than those of pentavalent arsenic. It was also shown that both trivalent and pentavalent arsenic could be rapidly taken up into the human lymphocytes, and immediately stimulated or inhibited DNA synthesis. A possible dual effect of arsenic at very low concentrations as both comutagen and inhibitor of mutagenesis is discussed.     

The effect of aphidicolin on DNA repair in resting and mitogen stimulated human lymphocytes

Aphidicolin inhibits DNA repair in human lymphocytes as measured by unscheduled DNA synthesis and the rejoining of strand breaks. When the lymphocytes are mitogen stimulated, sensitivity of DNA repair towards aphidicolin decreases, possibly due to the induction of the beta DNA polymerase.     

DNA analysis of stimulated lymphocytes by automatic sampling for flow cytometry

A microsample delivery system (MSDS) was tested for automatic flow cytometry (FCM) analysis of DNA synthesis in stimulated human peripheral blood lymphocytes (PBL) cultivated in wells of microtiter plates. After incubation, either for 1-3 days with phytohemagglutinin, concanavalin A, and pokeweed mitogen, or for 7 days with allogenic PBL, the cells, while in the wells, were washed in hypotonic Tris buffer and stained with ethidium bromide-RNAse solution. The results obtained from quintuplicate replicated wells, each of the five containing the same control or stimulated cultures, were reproducible in terms of the number of nuclei counted in each histogram of control, mitogen-stimulated PBL, and mixed lymphocyte cultures (MLC). Using a computer program that superimposes histograms and calculates their differences on the scale of fluorescence intensity, it was possible to quantify the intensity of the response to the mitogenic stimuli. This approach to the study of lymphocyte proliferation offers not only a simpler and faster analysis of DNA synthesis than the method of 3H-thymidine incorporation, but it also allows for the analysis of other FCM parameters, such as forward and 90 degrees light scatter and double fluorescence labelling of PBL nuclei.     

Protein synthesis in resting and stimulated human lymphocytes

Summary The ribosomal profiles in lysates from resting and phytohemagglutinin stimulated human lymphocytes have been analyzed by sucrose gradient centrifugation. The percentage of polyribosomes increased during lymphocyte transformation reaching a maximal value of 60 to 70% of the total ribosomes after 72 hours of mitogen addition. This time period coincides with maximalin vivo protein synthesis. On the other hand, in nonstimulated lymphocytes, about 25% of the ribosomal particles appeared as aggregates, independently of the incubation period.Experiments performed with homologous cell free systems containing ribosomes and supernatant fluids prepared from unstimulated or activated lymphocytes demonstrate that the mixtures containing both components from stimulated lymphocytes are several fold more active in polypeptide synthesis than the systems which contain ribosomal particles and cell sap from resting cells. Assays carried out with mixtures combining the components from both sources indicate that the increased activity depends on ribosomes as well as on the supernatant fractions.Dedicated to Professor LUIS F. LELOIR on the occasion of his 70^th birthday.     

DNA synthesis and proliferation of human lymphocytes in vitro: III. Fate of cycling cells in aging cultures of phytohemagglutinin stimulated human lymphocytes

There are few data available on cell cycle events that occur when proliferation of normal cells in culture is curtailed due to “natural aging” of the culture conditions. Stathmokinetic and cytofluorometry studies were performed on PHA-stimulated human lymphocyte cultures for eight consecutive days. Cell proliferation peaked on day 5 and then gradually decreased. Percent labeled mitosis curves performed each day demonstrated that, for those cells which progressed to mitosis, the cell cycle time remained constant at 18 ± 1 hour throughout the entire period of culture. However when the fate of all cells pulse-labeled with ³H-thymidine (S phase cells) was followed daily, only 64 ± 5% of labeled cells reached mitosis on day 3 and <20% on day 6. When the growth fraction was estimated by standard methods (with the labeling index) and used to predict future cell counts in the culture, proliferation was greatly overestimated; but after correcting the growth fraction for labeled cells not reaching mitosis, proliferation was accurately predicted by a newly derived “dividing fraction.” Flow cytofluorometry confirmed accumulation of cells in S and G₂ + M phases, and mitotic indices ruled out accumulation in M phase. Assessment of non-viable cells with cytofluorometry demonstrated that death occurred in all phases of the cell cycle. We conclude that with increasing age of culture, an increased fraction of cycling PHA-stimulated lymphocytes fail to progress all the way to mitosis and are arrested in S or G₂ phases. These observations provide evidence against the existence of a specific “restriction point” in G₁ or at the G₁/S interface in aging proliferating human lymphocyte cultures, but it remains to be determined whether cells arrested in S or G₂ phases retain the capacity to complete the cell cycle in more favorable culture environments.     

Radiation induction of micronuclei in human lymphocytes

An examination of the cytokinesis-blocked micronucleus technique confirmed its potential usefulness as a method of biological dosimetry for radiation accidents. Several advantages and disadvantages of the system are discussed. It has been demonstrated that under these conditions of these experiments, the blocking agent, cytochalasin B does not induce micronuclei or unstable chromosome aberrations. The induction of sister-chromatid exchanges proved just significant.Analysis of the dose response for 250 kVp X-rays indicates that although the Y = αD + βD² model fits the data, the relationship does not correspond to that for total aberration induction as might have been expected. The background frequency of micronuclei and the value of the α coefficient are higher than for total aberrations and the β term is lower. This indicates that simple incorporation of acentric chromosome fragments into micronuclei may not wholly account for the phenomenon.     

Radiation protection of stimulated human lymphocytes by nicotinamide

Nicotinamide (NA) when added to human lymphocytes in vitro together with a mitogen, protected against the inhibition by gamma and UV radiation of stimulated cell growth. When stimulated by phytohemagglutinin (PHA), concanavalin A (Con A) or pokeweed mitogen (PWM) maximum protection has been observed with approximately 1 mM NA (dose reduction factor of 2-3). To obtain protection the cells had to be stimulated immediately after irradiation in the presence of NA. It is suggested that the intracellular level of NAD+ may be rate limiting for excision repair in human lymphocytes irradiated in the G0 phase. This level is presumably increased by exogenously supplied NA, leading to enhanced repair of DNA damage and increased survival.     

Evidence for the involvement of three distinct signals in the induction of IL-2 gene expression in human T lymphocytes

The regulation of IL-2 gene expression during T cell activation and proliferation has been investigated in primary cultures of purified human peripheral blood T cells. Prior results indicated that stimulation of T cells by anti-CD28 mAb plus PMA could induce IL-2 expression and T cell proliferation that was entirely resistant to cyclosporine. The present studies examined whether CD28 augments IL-2 expression by a unique pathway or merely acts at a point common to CD3-induced proliferation but distal to the effects of cyclosporine. The induction of maximal IL-2 gene expression required three signals provided by phorbol ester, calcium ionophore, and anti-CD28 mAb. Stimulation of cells by optimal amounts of calcium ionophore and PMA induced IL-2 mRNA that was completely suppressed by cyclosporine. The addition of anti-CD28 to T cells stimulated with PMA plus calcium ionophore induced a 5- to 100-fold increase in IL-2 gene expression and secretion that was resistant to cyclosporine. The CD28 signal was able to increase steady state IL-2 mRNA levels even in cells treated with maximally tolerated amounts of calcium ionophore and PMA. The three-signal requirement did not reflect differential regulation of lymphokine gene expression between the CD4 and CD8 T cell subsets or differences in the kinetics of IL-2 mRNA expression. The signal provided by CD28 is distinct from that of CD3 because although anti-CD28 plus PMA-induced proliferation is resistant to cyclosporine, anti-CD3 or anti-CD3 plus PMA-induced IL-2 expression is sensitive. Thus, these studies show that three biochemically distinct signals are required for maximal IL-2 gene expression. Furthermore, these studies suggest that lymphokine production in T cells is not controlled by an "on/off" switch, but rather, that CD28 regulates a distinct intracellular pathway which modulates the level of IL-2 production on a per cell basis. The observation that CD28 stimulation results in IL-2 concentrations that exceed 1000 U/m1 in tissue culture supernatants suggests that a role in vivo for CD28 might be to amplify immune responses initiated by the CD3/T cell receptor complex. Finally, the observation that CD28 interacts with the signals provided by PMA and calcium ionophore shows that the function of CD28 is not merely to act as a scaffold to stabilize or enhance signalling through the CD3/TCR complex.