Chemical and viral transformation of cultured skin fibroblasts from patients with familial polyposis coli

Treatment of skin fibroblasts from an FPC patient with 4NQO or MNNG followed by sequential passaging caused morphological changes of the cells, which showed characteristics of transformed cells such as a high frequency of colony formation in agarose, increased growth ability, and chromosomal abnormalities. This and other fibroblast lines from 5 of 12 FPC patients had an increased susceptibility to 4NQO cytotoxicity, which was caused by enhanced 4NQO-reductase activity rather than by reduced DNA repair. However, the susceptibility to cytotoxicity of MNNG and repair of MNNG-damaged DNA were normal in FPC cells. The tumor promoters TPA and DHTB enhanced the frequency of chemical transformation of the FPC fibroblasts, and protease inhibitors suppressed the promoter-enhanced transformation. The skin fibroblasts from many FPC patients exhibited increased susceptibility to transformation by murine sarcoma viruses. Analysis of the viral DNA and RNA after infection revealed that the increased susceptibility is determined at an early stage of transformation. Two out of 5 MNNG-transformed clones of FPC fibroblasts, isolated from agarose, had increased expression of c-Ki-ras or c-Ha-ras, and 4 of 4 MSV-transformed clones showed high expression of viral Ki-ras. These clones grew further after isolation from agarose, but were mortal and did not form tumors in nude mice. The present results suggest that additional changes in morphologically transformed FPC fibroblasts are required for malignant transformation.     

An improved method of electroporation for introducing biologically active foreign genes into cultured mammalian cells

We have developed a modified, reproducible, and efficient method for introducing cloned genes into mammalian cells by using an electric field followed by treatment with sodium butyrate. Transfection frequencies with plasmid pSV2-neo, consisting of an antibiotic (G418) resistance gene and simian virus 40 (SV40) early promoter, by electroporation were higher than those by calcium phosphate DNA precipitation. Treatment with sodium butyrate following electroporation significantly increased the frequency of transfection in various types of cell lines and primary cultured cells including human skin fibroblasts. Treatment with sodium butyrate also increased the transient expression of the gene for chloramphenicol acetyltransferase (acetyl-CoA; chloramphenicol O3-acetyltransferase, CAT, EC 2.3.1.28) when the gene was introduced into BALB/c 3T3 cells by electroporation. Electroporation combined with sodium butyrate treatment is an improved method for stable and transient biochemical transformation of foreign genes in cultured mammalian cells.     

Differential expression and stability of foreign genes introduced into human fibroblasts by nuclear versus cytoplasmic microinjection.

We have compared cytoplasmic- and nuclear-delivered, glass needle-mediated microinjection protocols for their ability to support both transient and stable phenotypic expression of reporter gene constructs in non-immortalized human skin fibroblasts cultures. Microinjection of form I (covalently closed circular, supercoiled) plasmid pMC38 DNA into the nucleus of human cells resulted in high levels of transiently expressed p110gag-myc oncoprotein as detected by immunofluorescence microscopy. Likewise, the nuclear delivery of a plasmid construct bearing the entire simian virus 40 genome induced the formation of morphologically transformed foci in approximately 6% of the recipient cell population. In contrast, the introduction of plasmid DNA by the cytoplasmic route proved virtually incapable of supporting either transient gene expression or morphological transformation. In situ autoradiography of cells injected with 3H-labelled plasmid DNA revealed that whereas the material delivered directly into the nucleus was retained by this subcellular compartment for prolonged times (greater than or equal to 48 h), the radiolabelled DNA molecules introduced via the cytoplasmic route did not reach the nucleus and appeared to be substantially degraded within 8 h following injection. These results indicate unequivocally that nuclear injection is the route of choice when monitoring foreign gene expression in human cells.     

Modulation of exogenous and endogenous levels of thioredoxin in human skin fibroblasts prevents DNA damaging effect of ultraviolet A radiation

Thioredoxin (Trx) plays important biological roles both intra- and extracellularly via thiol redox control. We have previously demonstrated that Trx exhibited protective effects against UVA cytotoxicity in human skin fibroblasts. As an extension of the latter investigation, the present work is aimed at assessing ability of Trx to maintain genomic integrity in human skin fibroblasts upon exposure to UVA radiation. Indeed, UVA (320--380 nm) is mutagenic and induces genomic damage to skin cells. The alkaline comet assay was used in association with DNA repair enzyme including formamido pyrimidine glycosylase (Fpg) and endonuclease III (endo III) to estimate the amount of modified bases together with the level of strand breaks and alkali-labile sites. The HPLC-EC assay was applied to assess 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxodGuo) levels and to permit the calibration of comet assay as previously described. We reported that overexpression of human Trx (transient transfection) as well as exogenous human recombinant Trx added to the culture medium, decreased the level of DNA damage in UVA irradiated cells. Interestingly, transfection appeared to prevent UVA-induced 8-oxodGuo (3.06 au per Joules.cm(-2) compared to 4.94 au per Joules.cm(-2) for nontransfected cells). Moreover, Trx accumulates into nuclei in transfected cells. This finding supports the notion that Trx is important for the maintenance of the integrity of genetic information. This work demonstrated that under conditions of UVA oxidative stress, Trx prevented the UVA-induced DNA damage.     

Search for human tumour viruses by transfection: uptake of melanoma and Epstein-Barr virus DNA by human cells.

In a model system, consistent transfection of chick embryo fibroblasts (CEF) by DNA from the XC cell line occurred, with recovery of infectious Rous sarcoma virus. The techniques were then applied in attempts to recover possible human tumour viruses. Even with various modifications of the XC technique, DNA from three human malignant melanoma cell lines failed to infect adult or foetal human fibroblasts, although melanoma DNA was taken up into nuclei of target cells. XC DNA did not transfect human foetal fibroblasts and melanoma DNA was ineffective in CEF. DNA from the Raji (Epstein-Barr virus non-producer) and QIMR-WIL (producer) lymphoblastoid cell lines did not transfect human cord blood lymphocytes or amnion cells. These broadly applicable techniques therefore failed to recover EB virus, the putative melanoma retrovirus, or other potential tumour virus.     

Transient expression of human neutral alpha-glucosidase AB (glucosidase II) in enzyme-deficient mouse lymphoma cells

To define new methods for gene isolation exploiting mutant mammalian cells we transformed a mutant mouse cell line deficient in glucosidase II with total human genomic DNA and detected transient expression of the human glucosidase II gene. Maximum gene expression was detected 48 h after addition of DNA as a 2.5-fold increase in neutral alpha-glucosidase activity (2.47 +/- 0.15, n = 4). When mutant mouse DNA was used for transformation, no increase in enzyme activity was seen. The increased enzyme activity was due to expression of the human gene product. Thus, by rocket immunoelectrophoresis, cells transformed with human DNA yielded a "rocket" which reacted with antibody to human but not to mouse glucosidase II and which hydrolyzed substrate in situ. Specific DNA sequences were required for expression of the enzyme activity, since digestion of DNA with EcoRI and SstI rendered the DNA ineffective for eliciting expression of the enzyme, while digestion of DNA with BamHI and XhoI did not affect the increase. Transfection with intact phage from a human genomic DNA library also resulted in transient expression of the human gene. These results demonstrate the feasibility of detecting, by enzymatic assay, transient expression of a human gene for an intracellular enzyme following DNA-mediated transformation both with total human DNA and with intact phage from a human recombinant library. This system could be used as an assay for isolation of a gene from a genomic library by sibling selection.     

Infectivity of Proviral DNA from Avian Sarcoma Virus-Transformed Mammalian Cells

The number of Rous viral genomes in the cellular DNA from two subclones (RS2/3, RS2/6) derived from the same clone of hamster BHK-21 cells transformed by Rous sarcoma virus was determined by hybridization with viral complementary DNA made in vitro, and the capacity of the cellular DNA to infect (transfect) chicken embryo fibroblasts was compared before and after shearing this DNA to about the size of the provirus (6 x 10(6) to 7 x 10(6) daltons). The two subclones differed widely both in their capacity to give rise to virus (inducibility) after fusion with chicken embryo fibroblasts and in level of expression of viral proteins. It was shown that cells of both subclones contain a single copy of Rous DNA and yield infectious DNA. However, whereas transfection of chicken embryo fibroblasts was successful with both unsheared (>/=18 x 10(6) daltons) and sheared DNA from the most inducible subclone (RS2/3 subclone), which also expresses viral proteins to an appreciable amount, transfection with DNA from the least inducible subclone (RS2/6 subclone), in which viral proteins are not expressed, succeeded only with sheared DNA. It was then about as successful as with sheared or unsheared RS2/3 DNA. The lack of infectivity of unsheared RS2/6 DNA may be explained by the hypothesis proposed by Cooper and Temin (G. M. Cooper and H. T. Temin, J. Virol. 17:422-430, 1976) to explain the lack of infectivity of DNA from certain chicken cells producing spontaneously low amounts of RAV-0 and resistant to exogenous RAV-0 infection, that is, that the viral genome (proviral DNA) is linked to a cis-acting control element which blocks its expression. This linkage might originate, in RS2/6 cells, from translocation of cellular DNA containing the single proviral copy.     

Efficient DNA transfection and rapid assay for thymidine kinase activity and viral antigenic determinants

We describe DEAE dextran-mediated DNA transfection in suspension which routinely gives transient gene expression in 0.1--1% of the transfected cells. We have used normal diploid human skin fibroblasts, monkey BSC cells, and mouse L or 3T6 cells with almost equal efficiency. Gene expression is detected 1--3 days after addition of the DNA. SV40 and polyoma T and V antigen are detected by in situ immunofluorescence and thymidine kinase gene expression is detected by in situ autoradiography. The high efficiency of transfection and the speed of detection together provide a means to study transfecting gene functions that does not rely on selection to obtain stable transformants. It should be possible to screen for the expression of any gene product which can be assayed by in situ immunofluorescence or autoradiographic techniques.     

O6-methylguanine methyltransferase increases before S phase in normal human cells but does not increase in hypermutable Bloom's syndrome cells

The regulation of the O6-methylguanine methyltransferase was examined during cell proliferation in hypermutable Bloom's syndrome fibroblasts and normal human skin fibroblasts. During synchronous growth following serum stimulation normal human cells enhanced methyltransferase activity 2.4-fold in the absence of exogenous damage as a normal regulatory event during the cell cycle. Methyltransferase activity was increased prior to the induction of DNA replication and of DNA polymerase and was diminished when each replicative activity was maximal. In contrast, although methyltransferase levels in quiescent cells are equivalent, hypermutable Bloom's syndrome cells did not increase methyltransferase at any interval in the cell cycle.     

Intracellular distribution of DNA internalized through calcium phosphate precipitation

Although calcium phosphate precipitation is the most commonly used method for DNA-mediated gene transfer, the mechanism for its action is unknown. We showed recently that both transient and stable expression of exogenous genes in the transfected cells are entirely dependent on DNA internalized through active endocytosis. We now report on the subcellular distribution of the endocytosed DNA. After exposure to calcium phosphate-precipitated DNA, cultured fibroblasts internalized less than 10% of the DNA into the nuclei fraction. About 20% was recovered in each of the putative plasma membrane and vesicular organelle fractions. Although over 50% was recovered in the cytosolic fraction, it was completely degraded to oligonucleotides of smaller than 100 bp. In contrast, intact DNA molecules were recovered in all the other subcellular fractions. Similar patterns of DNA distribution were observed not only in the easily transformed mouse cells (Ltk-) but also in the transformation-resistant human primary fibroblasts. In conclusion, DNA-mediated gene transfer by calcium phosphate precipitation is an inefficient procedure because over 50% of the DNA is almost immediately degraded and released into the cytosol. Contrary to accepted views, DNA macromolecules do not seem to pass through the cytosol before reaching the nuclei. A novel transport pathway is proposed in which exogenous DNA molecules may be transferred directly by intermediary vesicles from the endocytic-lysosomal compartment to the nucleus.     

Expression of baboon endogenous virus in exogenously infected baboon cells.

Strains of low-passage, fetal diploid, baboon (Papio cynocephalus) fibroblasts were susceptible to exogenous infection with three independent isolates of baboon endogenous virus, as measured by an immunofluorescence assay specific for viral p28. Infectivity of the M7 strain of baboon endogenous virus for baboon cells of fetal skin muscle origin was equivalent to that for human and dog cells in that similar, linear, single-hit titration patterns were obtained. The assay for supernatant RNA-dependent DNA polymerase, however, showed that baboon cells produced only low levels of virus after infection compared with the production by heterologous cells. The results showed that baboon endogenous virus was capable of penetrating baboon cells and that viral genes were expressed in infected cells. Replication of complete infectious virus was restricted, however, indicating that in this primate system homologous cells differentially regulated the expression of viral genes.     

Human leukemic cells: Biological action of exogenous human leukemic DNA

Intact exogenous human leukemie DNA derived from cells in culture was taken up by both normal and leukemic recipient human cells, wherein it migrates to the nucleus and becomes associated with host genome. Uptake of exogenous DNA averages about 15–20 percent and was relatively higher in leukemic than in normal cells in a given culture medium.Isologous and homologous human leukemic cells were more sensitive to inhibition by this exogenous DNA than were normal human cells. Both DNA and RNA synthesis were inhibited, but protein synthesis was stimulated — effects similar to those described consequent to exposure to certain viruses.Immunological studies of hamster cells treated with human leukemic DNA failed to show any presence of human surface antigens. The in vivo studies showed that this metabolically active radioactive DNA had migrated to several organs of hamsters and gerbils, the highest labeled DNA activity being found in the testis and kidney of these animals.Prolonged exposure to exogenous leukemic DNA resulted in marked phenotypic changes in normal human fibroblasts, which thus far appear to be heritable. Search for evidence of genotypic changes in these altered cells which might relate these observations to «neoplastic transformation is in progress.     

A comparison of markers of human fibroblast transformation induced by chemical carcinogen treatment or by transfection of an origin-defective SV40-containing plasmid

We have investigated the sensitivity to oncogenic transformation by an origin-defective SV40-containing plasmid, '8-16' (ori-SV40), of skin fibroblasts from normal individuals (NF), and from patients with 2 hereditary diseases characterized by an increased cancer risk, Bloom's syndrome (BS) and Fanconi's anemia (FA). It was hypothesized that perhaps these cells had already undergone some stage, or stages, of the progression to neoplasia, and that as a consequence of these changes, one could observe differential expression of characteristics of the transformed phenotype in these cells compared to normal, or perhaps they would behave differently in vivo. The data showed that FA cells and NF possessed comparable sensitivities to transformation by ori-SV40 DNA transfection, as measured either by focus formation above a confluent monolayer, or anchorage-independent growth. The BS cells, on the other hand, were 5-10 times less sensitive to this method of transformation, and further, the transformed phenotype was unstable. The resistance of BS cells to transformation by the 8-16 plasmid may be a reflection of their inherent genetic instability which affects stable integration and expression of the transfected plasmid DNA, since no differences in initial uptake of transfected DNA were observed between the various cell strains. Immortality and tumorigenicity were not readily demonstrated in this ori-SV40 transformation model. The results are discussed in relationship to the characteristics of the transformed phenotype of chemically treated normal human fibroblasts. SV40, an agent known to transform human cells, can be cast in a positive control role with respect to the appropriateness of the assays, the frequency of appearance of various markers, immortality and tumorigenicity. The tumorigenicity results are further compared to results obtained during the establishment of a wide range of fresh human tumor biopsies as xenograft lines in athymic nude mice, with particular emphasis on the sarcoma data.     

Telomerase expression restores dermal integrity to in vitro-aged fibroblasts in a reconstituted skin model

The lifespan of human fibroblasts and other primary cell strains can be extended by expression of the telomerase catalytic subunit (hTERT). Since replicative senescence is accompanied by substantial alterations in gene expression, we evaluated characteristics of in vitro-aged dermal fibroblast populations before and after immortalization with telomerase. The biological behavior of these populations was assessed by incorporation into reconstituted human skin. Reminiscent of skin in the elderly, we observed increased fragility and subepidermal blistering with increased passage number of dermal fibroblasts, but the expression of telomerase in late passage populations restored the normal nonblistering phenotype. DNA microarray analysis showed that senescent fibroblasts express reduced levels of collagen I and III, as well as increased levels of a series of markers associated with the destruction of dermal matrix and inflammatory processes, and that the expression of telomerase results in mRNA expression patterns that are substantially similar to early passage cells. Thus, telomerase activity not only confers replicative immortality to skin fibroblasts, but can also prevent or reverse the loss of biological function seen in senescent cell populations.     

Enhanced transfection efficiency and improved cell survival after electroporation of G2/M-synchronized cells and treatment with sodium butyrate.

To achieve high transfection efficiency in human fibroblasts with good preservation of proliferative capacity we developed an electroporation procedure that combines two distinct modalities: use of recipient cells synchronized in the late G2/mitotic phase of the cell cycle and treatment of cells post-electroporation with 5 mM butyrate. This combination enabled reduction of plasmid DNA concentration and electroporation voltage, both associated with cytotoxicity, while greatly enhancing transfection efficiencies. Although the method was primarily developed for transient expression it was also found to improve stable expression. This procedure should have wide applicability, particularly in studies seeking to identify DNA sequences that lead to inhibition of DNA synthesis and proliferation in human fibroblasts and other cells refractory to transfection.     

The Normal Response to RAS: Senescence or Transformation?

Normal cells are thought to protect against transformation by undergoing a permanent cell cycle arrest, cellular senescence, in response to the expression of activated oncogenes such as RAS. We recently found that freshly established neonatal human fibroblasts are resistant to RAS-induced senescence. Moreover, extended passaging of normal fibroblasts leads to increased levels of the cyclin dependent kinase inhibitor p16 and sensitizes cells to senescence induced by RAS. These findings implicate exogenous stress as a necessary cofactor in RAS-induced senescence and demonstrate that RAS expression can promote some characteristics of transformation in the absence of other genetic changes.     

Transformation of diploid human fibroblasts by transfection with the v-sis, PDGF2/c-sis, or T24 H-ras genes

Gene transfection techniques have provided powerful methods to examine the roles of cellular and retroviral oncogenes in the transformation process in rodent fibroblasts. However, the use of such techniques with diploid human fibroblasts has been limited. We have developed transfection procedures to reproducibly transfect such cells with oncogenes, and methods for the biological characterization of the transformants. We have shown that the v-sis and T24 H-ras oncogenes, as well as the platelet-derived growth factor gene (PDGF2/c-sis), are capable of inducing a transformed phenotype in normal diploid human fibroblasts, but are not capable of conferring infinite lifespan or making such cells tumorigenic.     

Differential behaviour of lipid based and polycation based gene transfer systems in transfecting primary human fibroblasts: a potential role of polylysine in nuclear transport.

DNA delivery systems for gene therapy applications have to be able to trigger the uptake of plasmid DNA into the nucleus. We have tested two types of non-viral vector systems, lipofection (cationic lipid-based, using Lipofectamine) and polyfection (cationic polymer-based, using glycerol enhanced transferrinfection), for their ability to transfect confluent, contact inhibited primary human fibroblasts. While both systems worked well with growing fibroblasts, polyfection was superior with confluent cells. A slight reduction in cell associated plasmid DNA was observed with resting cells, but it was similar for both types of complexes. Lipofectamine showed a prevalence for transfecting cycling cells as judged by costaining transfected cells with cell cycle markers. No such bias was observed when glycerol enhanced transferrinfection was used. Microinjection of plasmid DNA/polylysine complexes into the cytoplasm of fibroblasts resulted in a higher percentage of expressing cells than injection of plasmid DNA, offering an explanation for the higher transfection levels obtained with transferrinfection in non-growing cells.     

Differential behaviour of lipid based and polycation based gene transfer systems in transfecting primary human fibroblasts: a potential role of polylysine in nuclear transport

DNA delivery systems for gene therapy applications have to be able to trigger the uptake of plasmid DNA into the nucleus. We have tested two types of non-viral vector systems, lipofection (cationic lipid-based, using Lipofectamine) and polyfection (cationic polymer-based, using glycerol enhanced transferrinfection), for their ability to transfect confluent, contact inhibited primary human fibroblasts. While both systems worked well with growing fibroblasts, polyfection was superior with confluent cells. A slight reduction in cell associated plasmid DNA was observed with resting cells, but it was similar for both types of complexes. Lipofectamine showed a prevalence for transfecting cycling cells as judged by costaining transfected cells with cell cycle markers. No such bias was observed when glycerol enhanced transferrinfection was used. Microinjection of plasmid DNA/polylysine complexes into the cytoplasm of fibroblasts resulted in a higher percentage of expressing cells than injection of plasmid DNA, offering an explanation for the higher transfection levels obtained with transferrinfection in non-growing cells.