Rapid titration of retroviral vectors encoding intracellular antigens by flow cytometry

E2F-1 binding affinity for pRb is not the only determinant of the E2F-1 activity

E2F-1 is the major cellular target of pRB and is regulated by pRB during cell proliferation. Interaction between pRB and E2F-1 is dependent on the phosphorylation status of pRB. Despite the fact that E2F-1 and pRB have antagonistic activities when they are overexpressed, the role of the E2F-1-pRB interaction in cell growth largely remains unknown. Ideally, it would be better to study the properties of a pRB mutant that fails to bind to E2F, but retains all other activities. To date, no pRB mutation has been characterized in sufficient detail to show that it specifically eliminates E2F binding but leaves other interactions intact. An alternative approach to this issue is to ask whether mutations that change E2F proteins binding affinity to pRB are sufficient to change cell growth in aspect of cell cycle and tumor formation. Therefore, we used the E2F-1 mutants including E2F-1/S332-7A, E2F-1/S375A, E2F-1/S403A, E2F-1/Y411A and E2F-1/L132Q that have different binding affinities for pRB to better understand the roles of the E2F-1 phosphorylation and E2F-1-pRB interaction in the cell cycle, as well as in transformation and gene expression. Data presented in this study suggests that in vivo phosphorylation at amino acids 332-337, 375 and 403 is important for the E2F-1 and pRB interaction in vivo. However, although E2F-1 mutants 332-7, 375 and 403 showed similar binding affinity to pRB, they showed different characteristics in transformation efficiency, G₀ accumulation, and target gene experiments.

E2F-1 has dual roles depending on the cell cycle

The E2F family of transcription factors play a critical role in the control of cell proliferation. E2F-1 is the major cellular target of pRB and is regulated by pRB during cell proliferation. E2F-1-mediated activation and repression of target genes occurs in different settings. The role of E2F-1 and E2F-1/pRB complexes in regulation of different target genes, and in cycling versus quiescent cells, is unclear. In this study, effects of free E2F-1 (doesn't complex with pRb) and E2F-1/pRb complex, on E2F-1 target gene expression were compared in different cell growth conditions. Findings suggest that E2F-1 acts in different ways, not only depending on the target gene but also depending on different stages of the cell cycle. For example, E2F-1 acts as part of the repression complex with pRB in the expression of DHFR, b-myb, TK and cdc2 in asynchronously growing cells; on the other hand, E2F-1 acts as an activator in the expression of the same genes in cells that are re-entering the cycle.

Rapid production of retroviruses for efficient gene delivery to mammalian cells using 293T cell-based systems

This unit details the applications of one of the more common retroviral packaging systems, based on the highly transfectable 293T cell. The packaging system employs the use of the Phoenix cell lines. Calcium phosphate-mediated transfection is described for efficient introduction of retroviral vector plasmid DNA into the cells to generate high yields of virion-containing supernatant. An alternate protocol describes a method for transfecting retroviruses that contain a vesicular stomatitis virus G (VSV G) protein. Such virions are said to be "pseudotyped" with VSV G glycoprotein. Support protocols provide a simple method for concentrating VSV-G-pseudotyped retroviruses, as well as methods for culturing, cryopreserving, thawing, and drug selecting the Phoenix packaging cell lines. Finally, several methods for transfecting adherent or suspension cells with retroviruses are described.

Stable expression of three genes from a tricistronic retroviral vector containing a picornavirus and 9-nt cellular internal ribosome entry site elements

Retroviral vectors are used widely to deliver heterologous genes into cells. In order to express three genes from a single RNA molecule, a retroviral vector that contains two divergent internal ribosome entry site (IRES) sequences has been constructed successfully. To eliminate the high frequency of recombination within a mulicistronic retrovirus vector, a 9-nt segment of a cellular mRNA IRES and a picornaviral IRES were used, since these two IRES sequences have minimal sequence homology. After a single round of replication, most cells infected with this vector stably expressed the three genes while approximately 40% of cells infected with another tricistronic retroviral vector that contains two copies of an identical IRES sequence lost expression of the gene located between these two sequences.

GROWTH, IMMORTALIZATION, AND DIFFERENTIATION POTENTIAL OF NORMAL ADULT HUMAN PROXIMAL TUBULE CELLS

Human proximal tubule epithelial cell lines are potentially useful models to elucidate the complex cellular and molecular details of water and electrolyte homeostasis in the kidney. Samples of normal adult human kidney tissue were obtained from surgical specimens, and S1 segments of proximal convoluted tubules were microdissected, placed on collagen-coated culture plate inserts, and cocultured with lethally irradiated 3T3 fibroblasts. Primary cultures of proximal tubule epithelial cells were infected with a replication-defective retroviral construct encoding either wild-type or temperature-sensitive simian virus 40 large T-antigen. Cells forming electrically resistive monolayers were selected and expanded in culture. Three cell lines (HPCT-03-ts, HPCT-05-wt, and HPCT-06-wt) were characterized for proximal tubule phenotype by electron microscopy, electrophysiology, immunofluorescence, Southern hybridization, and reverse transcriptase-polymerase chain reaction. Each of the three formed polarized, resistive epithelial monolayers with apical microvilli, tight junctional complexes, numerous mitochondria, well-developed Golgi complexes, extensive endoplasmic reticulum, convolutions of the basolateral plasma membrane, and a primary cilium. Each exhibited succinate, phosphate, and Na,K- adenosine triphosphatase (ATPase) transport activity, as well as acidic dipeptide- and adenosine triphosphate-regulated mechanisms of ion transport. Transcripts for Na(+)-bicarbonate cotransporter, Na(+)-H(+) exchanger isoform 3, Na,K-ATPase, parathyroid hormone receptor, epidermal growth factor receptor, and vasopressin V2 receptor were identified. Furthermore, immunoreactive sodium phosphate cotransporter type II, vasopressin receptor V1a, and CLIC-1 (NCC27) were also identified. These well-differentiated, transport-competent cell lines demonstrated the growth, immortalization, and differentiation potential of normal, adult, human proximal tubule cells and consequently have wide applicability in cell biology and renal physiology.

A subset of cells expressing SV40 large T antigen contain elevated p53 levels and have an altered cell cycle phenotype

Cells transformed by the simian virus 40 (SV40) large T antigen (Tag) contain elevated levels of cellular p53 protein. To quantify this relationship, levels of p53 were measured in NIH 3T3 cells that expressed different concentrations of Tag. Using immunoblotting, average p53 levels were shown to increase linearly with Tag concentrations in these cell lines. Single-cell measurements were also performed using flow cytometry to measure p53 immunofluorescence. Surprisingly, the flow cytometry experiments showed that two distinct cell populations, based on p53 content, were present in cells expressing high levels of Tag. One cell population contained elevated p53 levels. A second population did not contain elevated p53, even though high concentrations of Tag were present in the cells. This latter cell population did not appear to arise because of mutations in either Tag or p53. The two cell populations also had phenotypic differences. In exponentially growing cells, Tag alters the cell cycle distribution (decreases the percentage of G1 phase cells and increases the percentages of S and G2 + M phase cells). This phenotype was maximum in the cell population containing elevated p53. A lesser phenotype was found in the cell population that did not contain elevated p53. These data show, firstly, that cells can express significant levels of Tag and not contain elevated levels of p53 and, secondly, that elevated p53 correlates with the altered cell cycle distribution produced by Tag in growing cells.

A novel retroviral vector that allows the magnetic selection of infected cells

Retroviral vectors are used widely in research and are also being designed for use in gene therapy trials. In practice, these vectors usually contain a marker gene, which is often a drug selection gene. In this report, a novel retroviral vector has been constructed which contains a gene that allows selection for infected cells by a magnet. This gene is a single-chain antibody (sFv) to a specific hapten molecule 4-ethoxymethylene-2-phenyl-2-oxazolin-5-one (phOx). sFv specific for phOx is displayed on the surface of infected cells. This feature allows binding to phOx-BSA coated magnetic beads which are used to isolate the infected cells.

Evaluation of adenoviral vectors by flow cytometry

Biological assays for adenoviral gene therapy vectors have included conventional procedures initially developed to detect wild-type adenoviruses. Standard virological assays to quantitate adenoviruses rely on the virus to infect and replicate in the host cell until a cytopathic effect is observed. The appearance of plaques, colonies of rounded, enlarged cells containing infectious virions, usually takes 2 to 3 weeks to reach an endpoint. We describe a flow cytometric bioassay for adenovirus which shortens the time from when the infection takes place to the time that biological titer is determined. A fluorescent focus-forming assay was one of the first rapid adenoviral bioassays developed. Virus titer was determined using fluorescence immunocytochemistry to detect adenovirus proteins and microscopy to count fluorescent foci in cultures of adenovirus-infected cells. In this study, we describe a flow cytometric assay performed on cells stained for adenovirus hexon capsid protein, where virus titer is determined based on the dose-dependent appearance of hexon-positive cells. Adenovirus hexon detection in infected cells can provide data to determine virus titer, inducible promoter function in vector-complementing cells, and vector replication in complementation-deficient cells.

Systematic comparison of a color reporter gene and drug resistance genes for the determination of retroviral titers

Retroviral vectors usually contain drug resistance genes, which are used to select for infected cells and to determine the viral titers. The viral titer is referred to as colony-forming units (CFUs). Color reporter genes, such as the lacZ gene and the green fluorescent protein gene (gfp), have been widely used as markers in retroviral vectors. In this report, a simple and rapid method for the determination of retroviral titers has been developed. The number of viral particles capable of forming individual green cells per unit volume is defined as marker-forming units (MFUs). The MFUs determined by using gfp as a marker were found to be proportional to the CFUs obtained by using drug selection for five different drug resistance genes. In addition, after adjusting the time factor, the MFUs are higher than CFUs in viruses released from 30 stable helper cell lines. The lower titers determined by CFUs are likely due to the toxicity on transduced cells.

Established cell lines transformed by E2F-1 overexpression contain wild-type p53

Overexpression of genes encoding E2F transcription factors can transform some cultured cell lines and cause apoptosis of others. Apoptosis due to E2F overexpression requires the presence of wild-type p53. Cell lines in which stable E2F overexpression is possible might be expected, therefore, to contain mutant p53. In this report, it was asked whether endogenous p53 was mutant or wild-type in four established fibroblast cell lines that this laboratory previously showed stably overexpressed and were transformed by exogenous E2F-1. Unexpectedly, it was found that the p53 in these cells was wild-type by the criteria of immunoprecipitation with conformation-specific, p53 monoclonal antibodies and by transactivation of a p53-dependent reporter gene construct in transient transfection assays. These data indicate that stable overexpression of E2F-1 is possible in the presence of wild-type p53 and may result in cell transformation.

Immortalization and characterization of proximal tubule cells derived from kidneys of spontaneously hypertensive and normotensive rats

Epithelial cell lines from the proximal tubule of SHR and WKY rats were generated by microdissection, cell growth on 3T3 cell feeder layers, and transduction of the SV40 large T-antigen gene. The cell lines that formed confluent, electrically-resistive monolayers (basal conductance 1 to 20 mS/cm2) were selected for further study. Of these, cell lines generated from one rat did not show evidence of T-antigen expression or integration, and apparently immortalized spontaneously. Cell lines from three other rats expressed high levels of T-antigen, and showed evidence of integration of one or more copies of T-antigen. All cell lines formed polarized monolayers with apical microvilli, tight junctional complexes, and convolutions of the basolateral plasma membrane. Most cell lines grew in the absence of extracellular glucose indicating a capacity for gluconeogenesis. Sodium succinate cotransport and P2-purinergic receptor mediated signaling were demonstrated in all lines tested. The cell lines also showed that Na/H exchanger activity is regulated by angiotensin II. The results indicate that these cell lines express a proximal tubular phenotype, and are morphologically and functionally similar to primary cultures. These rat cell lines represent a new, potentially useful cell model for elucidating the cellular and molecular mechanisms of genetic differences in proximal tubule Na+ reabsorption.

TGF-beta 1 perturbation of the fibroblast cell cycle during exponential growth: switching between negative and positive regulation

We have demonstrated previously that SV40 T antigen and serum regulate the length of G1 in exponentially growing NIH-3T3 cells in part by inhibiting density dependent negative cell cycle regulation. In these studies it was suggested that T antigen positively regulated G1 in a density independent manner as well. In this report we show that, 24 h after treatment, TGF-beta 1 perturbs the cell cycle of exponentially growing fibroblasts in a manner similar to T antigen. However, prior to 24 h, TGF-beta 1 produced a negative response, elongating the G1 phase of the cell cycle that was followed by a positive response, both of which were density independent. This biphasic response was measured between 0 and 12 h post-treatment and was relative to responses from serum. This switch from an early inhibitory effect to a late stimulatory effect was associated with changes in Rb phosphorylation, the timing and magnitude of which indicated that Rb may be directly regulating TG1 rather than reporting changes in the population. This is further substantiated by abrogation of the inhibitory effect by expression of wild-type SV40 T antigen and retention of the effect in cells that express an Rb-binding mutant of T antigen (K1). The biphasic regulatory effects of TGF-beta 1 were also displayed in WI-38 and IMR-90 human fibroblasts. This suggests that this biphasic effect is a property of fibroblasts.

Quantitative flow cytometry reveals a hierarchy of glucocorticoid effect on cell surface mouse mammary tumor virus gp52

A flow cytometry protocol with CM mouse mammary tumor cells (Mm5mt/C1) was utilized to provide a fluorescence measurement of hormone-mediated changes in mouse mammary tumor virus (MMTV) cell surface envelope glycoprotein (gp52 CSA). Standards permitted gp52-specific fluorescence intensity to be measured as molecules of equivalent soluble fluorescein (MESF). The feasibility of using MESF determinations to reflect hormone-modulated changes in continuously infected cells was tested. A panel of five glucocorticoids having differing affinity for the glucocorticoid receptor were tested in 60 h treatments at dosages ranging from 10(-6) M to 10(-8) M. Determinations of MESF, as a measure of gp52 CSA, were highest with 10(-6) M treatments (36.7-44.5 x 10(-6) MESF). At lower dosages, MESF determinations were lower but showed a clear hierarchy of glucocorticoid effect. At 10(-8) M treatments, determinations of MESF x 10(-6) demonstrated the following glucocorticoid hierarchy: triamcinolone acetonide (TA) (33.7 +/- 1.6) > dexamethasone (DEX) (26.1 +/- 1.7) > prednisolone (8.0 +/- 0.3) > triamcinolone (6.6 +/- 0.4) > hydrocortisone (6.4 +/- 0.4) > control (2.4 +/- 0.1). The MESF-derived respective fold increases over control for this hierarchy were: 13.87, 10.74, 3.31, 2.71, and 2.65. The ability of TA to enhance gp52 CSA was 1.3-fold greater than DEX. 10-fold higher levels of steroid controls did not significantly elevate MESF levels. Findings argue that dosage, duration of treatment and relative affinity of glucocorticoids for receptor are reflected in MESF determinations of changing gp52 levels. Therefore, this new measure of effect may be useful in studying hormonal influence on viral and cellular regulatory systems in chronically infected cells.

Detection of intracellular HIV-1 Rev protein by flow cytometry

The Rev trans-activator protein plays a pivotal role in human immunodeficiency virus type 1 (HIV-1) replication by allowing expression of the viral structural proteins. We have developed a protocol to quantitatively assay intracellular steady state levels of Rev Ag (Rev wild type and RevM10 proteins) by flow cytometry. Three fixation and permeabilization techniques were compared. These protocols varied in the magnitude of the signal which could be detected, and in the ability to distinguish between Rev Ag positive and negative populations. This technology is applicable to a variety transduced or transfected cell types (species, lineage), and for cell lines and primary cells acutely infected with HIV-1. The assay is therefore a valuable tool both to analyze Rev protein expression levels in HIV-infected cells and to optimize delivery of the dominant-negative RevM10 gene for clinical gene therapy applications. In addition, a second, independent intracellular protein (HIV-Tat) has been detected using the same approach.

Regulation of NIH-3T3 cell G1 phase transit by serum during exponential growth

The proliferation rate of mammalian cells is regulated normally in the G1 phase of the cell cycle. During this phase, it is convenient to assign positive and negative roles to the molecular programs that regulate the duration of G1 and the phase transition from G1 to S phase. Density-dependent inhibition of cellular proliferation results in an increase in the duration of G1. This form of regulation is due to both secreted factors and cell-cell contact. Serum is mitogenic to a variety of mammalian cell types. Because quiescent cells enter S phase as a result of serum addition to culture media, serum is usually regarded as a source of positive regulatory growth factors. We have measured the length of the G1, S and G2+M phases of NIH 3T3 cells during exponential growth as a function of cell density and serum concentration. The G1 length increases during exponential growth as a function of density while S and G2+M are relatively constant. Further, this increase in G1 phase time, or density mediated negative regulation, is inhibited by increasing serum concentration. This phenotype is saturable between 10% to 20% serum. Serum concentrations above 2.5% are able to increase the rate of cell cycling (decrease the G1 phase time) by inhibiting density dependent negative regulation of NIH 3T3.

Reduced growth factor requirements and accelerated cell-cycle kinetics in adult human melanocytes transformed with SV40 large T antigen

Melanomas develop with high frequency in transgenic mice in which oncogenic sequences of the SV40 DNA tumor virus have been specifically targeted to melanocytes. To investigate the role of SV40 in melanomagenesis, cultured human melanocytes were transformed with a retroviral shuttle vector encoding the SV40 large T antigen and examined for changes in cell-cycle kinetics and growth-factor dependence. Colonies expressing the viral oncogene were morphologically indistinguishable from their non-T-antigen-transformed counterparts. Also like normal melanocytes, the infected cells remained anchorage dependent and non-tumorigenic in nude mice. However, T-antigen-positive cultures exhibited significantly accelerated population doubling times, increased saturation densities with highly confluent monolayers and a three- to fourfold extended life span. Most interestingly, cell-cycle analysis revealed a measurable shift from quiescent to cycling cells in T-antigen-expressing cultures and an acquired ability to progress more rapidly through G1. Moreover, T-antigen-positive melanocytes proliferated in the absence of PMA and required markedly reduced levels of exogenous bFGF. These studies indicate that the viral oncogen of simian virus 40 provides melanocytes with distinct growth advantages that may render these cells unusually susceptible to additional environmental challenges necessary for full expression of the malignant phenotype.

Overexpression of the E2F-1 transcription factor gene mediates cell transformation

The E2F transcription factor can regulate expression of numerous cellular genes controlling proliferation, including proto-oncogenes and genes regulating cell cycle progression. Therefore, genes comprising the E2F gene family could potentially contribute to carcinogenesis. To test the potential of E2F to act as a transforming gene, a cDNA encoding E2F-1 was constitutively overexpressed in established rodent cells using a retroviral vector. Overexpressed E2F-1 was functional, as shown by stimulation of a transfected adenovirus E2 promoter driving a chloramphenicol acetyltransferase reporter gene in E2F-1 overexpressing cells. This stimulation was dependent on functional E2F binding sites in the promoter. Examination of phenotype showed that E2F-1 overexpression mediated cell transformation as measured by the ability of cells to form colonies in soft agar medium. In addition, overexpressed E2F-1 shortened the duration of the G1 cell cycle phase in proliferating cells, a property characteristic of other transforming genes. These data provide direct evidence that E2F-1 can act as a transforming gene and a critical regulator of cell cycle progression and suggest the possibility of E2F involvement in carcinogenesis.

Retrovirus-mediated gene transfer to cystic fibrosis airway epithelial cells: effect of selectable marker sequences on long-term expression

Retrovirus-mediated gene transfer offers the potential for stable long-term expression of transduced genes in host cells subsequent to integration of vector DNA into the host genome. Using a murine amphotropic retrovirus vector containing an interleukin-2 receptor (IL-2R) gene as a reporter and a neomycin phosphotransferase (neor) gene as a dominant selectable marker, we measured the efficiency of retrovirus-mediated gene transfer and the stability of transduced gene expression in a cystic fibrosis tracheal epithelial cell line (CFT1). The use of the IL-2R cell surface marker as a reporter of infection permitted both quantitation of vector gene expression and flow cytometric sorting of cells transduced with the vector. In initial studies, the optimal conditions for retrovirus-mediated gene transfer were determined. The presence of a polycation was required for optimal transduction efficiency. The efficiency of infection of CFT1 cells was increased by repetitive exposure to virus such that it was possible to transduce approximately 80% of the cells following three successive daily exposures. The long-term stability of expression of the non-selected IL-2R gene was also evaluated. A slow decline in the percentage of cells expressing IL-2R was seen with cells that were maintained under constant selection pressure for expression of the neor gene, which was expressed from an internal promoter. Similar results were obtained when cultures were selected initially for neor gene expression and maintained without selection thereafter. In contrast, stable expression was observed in CFT1 cells for at least one year following multiple infections in the absence of G418 selection. In conclusion, (i) transduction of foreign genes into human airway epithelial cells using an amphotropic retrovirus vector can be highly efficient in the presence of appropriate polycations and multiple exposures; and (ii) stable expression of a non-selected gene in these epithelial cells is better maintained without selection.

Flow cytometric titration of retroviral expression vectors: comparison of methods for analysis of immunofluorescence histograms derived from cells expressing low antigen levels

Few quantitative studies addressing immunofluorescence histogram analysis have been published. One study by Overton (Cytometry 9:619-626, 1988) has shown threshold and histogram subtraction methods to be accurate for analysis of well-separated immunofluorescence distributions of positive and negative cells. An evaluation of methods to analyze immunofluorescence histograms when positive and negative immunofluorescence distributions overlap has not, to our knowledge, been reported. In this paper, data obtained from flow cytometry of immunofluorescently stained cells infected with recombinant retroviruses that produce a range of simian virus 40 large T antigen levels were analyzed by threshold, histogram subtraction, and distribution modeling methods. This analysis showed that as the separation between the immunofluorescence distributions of positive and negative cell populations decrease the best methods for histogram analysis are modeling followed, in order, by histogram subtraction, and threshold analysis.

Development and characterization of rabbit proximal tubular epithelial cell lines

We have isolated rabbit kidney proximal tubular epithelial cell lines. The selection was based on their ability to form confluent monolayers on porous supports and to maintain receptor-mediated signal transduction and ion transport, characteristic of the proximal tubule. The isolation method consisted of several steps: (1) superficial cortical proximal tubule segments were microdissected and cultured on a matrix-coated porous support until cells formed a confluent monolayer; (2) primary cultures showing hormone-regulated ion transport typical for the proximal tubule were selected and co-cultured with irradiated fibroblasts; and (3) the epithelial cells surviving after several passages were expanded and passaged on porous substrates. Most of the cell lines developed in this manner were obtained by co-culture with irradiated fibroblasts producing a recombinant retrovirus encoding SV40 large T antigen and G418 resistance. However, SV40 T antigen expression was not essential for immortalization, since neither T antigen nor G418 resistance was detected in the isolated cell lines and co-culture with non-producing 3T3 cells gave similar results. One cell line (vEPT) has been characterized in some detail with respect to morphological, biochemical, and ion transport properties. This line forms confluent monolayers with apical microvilli, tight junctions, and convolutions of the basolateral plasma membrane. Once confluent, monolayers maintain conductances of 25 to 32 mS/cm2 for several weeks in culture and possess phlorizin-sensitive short-circuit current (Isc) in glucose containing media, indicative of apical Na(+)-glucose co-transport. vEPT cells also retain receptor and signaling mechanisms for angiotensin II (Ang II). Apical and basal Ang II and 5,6-epoxy-eicosatrienoic acid (5,6-EET) modulate the Isc in a manner similar to primary cultures. The cell lines share with primary cultures expression of the cytokeratins K8, K10/K11, and K19 ("nomenclature" [21]). They also retain several receptor and signal transduction mechanisms. For example, Ang II, arachidonate, bradykinin, 5,6-EET, parathyroid hormone (residues 1 through 34), and purine nucleotides increase cytosolic Ca2+, PTH elevates cAMP levels, and Ang II enhances proximal tubule-specific arachidonic acid metabolism.

Quantitative flow cytometry of mouse mammary tumor virus envelope glycoprotein (gp52): alternative measures of hormone-mediated change in a viral cell surface antigen

An immunofluorescence procedure with C3H mouse mammary tumor cells (Mm5mt/cl) has incorporated flow cytometry to provide a fluorescence-based measurement of changes in the mouse mammary tumor virus (MMTV) cell surface glycoprotein (gp52). A comparison of mean channel fluorescence intensity (delta mean) of cell populations stained with immune sera and NRS permitted a gp52-specific signal to be measured for controls and cells treated with 10(-6) M dexamethasone (Dex). Three different methods have been developed to quantitatively compare gp52-related fluorescence on control and hormone-treated cells. First, delta mean, measured as a gp52-specific difference in channel number was 169-209 for control cells and 299-341 for Dex-treated cells. These fluorescence measurements with 4 different sera demonstrated gp52-specific increases due to Dex treatment of 141, 130, 143, and 115 channels. A second method of gp52 quantitation determined the percentage shift in staining populations over NRS and specified channel intensity markers. Dex treatment resulted in a 6.9 to 32.4% shift over channel 508 (NRS marker) and a more marked shift of 45.5 to 49.2% over channel 676 (control cell marker). A third methodology utilized fluorescein bead standards to calculate molecules of equivalent soluble fluorescein (MESF). These MESF determinations permitted hormonal effects to be measured as fold increases over controls. Dex induction of gp52 for C3H and GR mammary tumor cells ranged from 1.5 to 9.1 fold increases. Alternative steroid treatments and antibody directed against the internal cytoplasmic MMTV P27 provided negative controls for measurements of changing gp52 levels.

Fixation of mammalian cells for flow cytometric evaluation of DNA content and nuclear immunofluorescence

Mammalian tissue culture cells were fixed with 3 different alcoholic fixatives--acetone:methanol, EtOH, and MeOH. The quality of the resulting DNA histograms was evaluated by comparison of CV, G1/G2 ratio, G1 mode, cell aggregation, and debris formation; 81-90% MeOH (final concentration) was determined to be the optimal fixative by these criteria. A procedure was then examined using a prefix with paraformaldehyde followed by MeOH (PF/MeOH). This procedure produced cell preparations with reduced debris and aggregation, equivalent mode and ratio, but increased CV when compared with MeOH fixation. Both MeOH and PF/MeOH fixation procedures were then compared for their utility in dual staining for DNA and intracellular immunofluorescence for a nuclear protein, SV40 T antigen (Tag). Since alcohols are known to affect immunofluorescence staining of some antigens, fixation with paraformaldehyde followed by Triton X-100 permeabilization (PF/TX) was also included in this comparison to generalize the study by providing an alternative to MeOH permeabilization. The three procedures were evaluated for the quality of the sample by measuring the same descriptors of the DNA parameter as in the alcohol study. PF/TX consistently produced samples with decreased DNA CV and less debris and aggregation compared to MeOH methods. Two criteria were used to evaluate immunofluorescence--the amount of Tag measured and reproducibility. All MeOH methods were equivalently reproducible with CV's less than 3%. PF/TX was slightly less so with a CV of less than 6%. In contrast, different levels of Tag were measured for each procedure. For mouse 3T3 cells infected with a recombinant retroviral vector encoding T antigen, the level of T antigen measured after PF/MeOH was 21% greater than in MeOH fixed cells, and the level in PF/TX fixed cells was 37% less. The fraction of fluorescence specific to T antigen for these cells was 79-83% for all procedures. The lower levels measured after fixation by PF/TX were shown to be due to epitope masking. Why higher levels are measured with PF/MeOH procedures is unknown at present but may be due to antigen retention. Therefore, each of these fixation methods may be used with confidence in reliability but they are not equivalent with respect to the molecular architecture of the nucleus. It is postulated that PF/TX permeabilizes cells but cells retain native supramolecular structure, whereas MeOH based fixatives disrupt this structure and randomize availability of epitope to antibody. If so, the two procedures could be used as complementary procedures to study gene expression and function.

Mechanism of entry of a xenotropic MMuLV-derived recombinant retrovirus into porcine cells using the expression of the reporter nlslacZ gene

A xenotropic Moloney murine leukemia virus-derived recombinant retrovirus (MMuLVSVnlslacZ) has been utilized to study the mechanism of virus entry into endothelial and epithelial porcine cells. In the genome of this recombinant retrovirus, the nlslacZ reporter gene is under the transcriptional control of both LTR and SV40 early promoter. The entry of the retrovirus has been determined from the expression of this transduced reporter gene after its integration into the infected cells. This allows the detection of a very low level of viral infection and hence entry of the virus. Exposure of the virus-cell mixture to acidic pH (less than 6) during the early phase of interaction reduces the level of internalization. Cellular infection in presence of weak bases, ammonium chloride and amantadine and an ionophore monensin at concentrations sufficient to neutralize the endosomal pH does not modify the extent of viral entry into the cells. The results indicate that the entry of the recombinant retrovirus into porcine cells takes place by a pH-independent viral membrane-cell plasma membrane fusion mechanism.

Simian virus 40 large T-antigen expression decreases the G1 and increases the G2 + M cell cycle phase durations in exponentially growing cells

The effect of simian virus 40 large T-antigen (Tag) expression on the cell cycle of exponentially growing, established, mouse NIH 3T3 fibroblasts was examined by using a sensitive flow cytometric assay to analyze nonselected cells immediately after infection with a Tag-encoding recombinant retrovirus. Tag expression resulted in reduced percentages of G1-phase cells and increased percentages of S- and G2 + M-phase cells compared with cell populations infected with a control virus not encoding the Tag gene. Cell cycle-blocking drugs were used to examine the exit rate for each of the cell cycle phases, G1, S, and G2 + M, for Tag-expressing and Tag-nonexpressing cells growing in the same cell culture dish. As a result of Tag expression, the duration of the G1 phase was decreased (average G1-phase exit duration decreased by 18%) and the duration of the G2 + M phase was increased (average G2 + M exit duration increased by 29%). The duration of S phase was unaffected by Tag expression.