Administration of green tea or caffeine enhances the disappearance of UVB-induced patches of mutant p53 positive epidermal cells in SKH-1 mice

Irradiation of female SKH-1 hairless mice with UVB (30 mJ/cm2) twice a week for 10-20 weeks resulted in the formation of a large number of cellular patches (>8 adjacent cells/patch) that are recognized with an antibody (Pab240) which recognizes mutated but not wild-type p53 protein. These patches are not recognized by an antibody (Pab1620) to wild-type p53 protein. The patches, which are considered putative early cellular markers of the beginning of tumor formation, started appearing after 4-6 weeks of UVB treatment, and multiple patches were observed after treatment for 10 weeks. The number and size of the patches increased progressively with continued UVB treatment. Discontinuation of UVB for 4 weeks resulted in an 80-90% decrease in the number of these patches. The number of the remaining patches did not decrease any further but remained relatively constant for at least 4-9 weeks. Oral administration of green tea (6 mg tea solids/ml) or caffeine (0.4 mg/ml) as the sole source of drinking fluid during irradiation with UVB, twice a week for 20 weeks, inhibited UVB-induced formation of mutant p53 positive patches by approximately 40%. Oral administration of green tea (6 mg tea solids/ml) as the sole source of drinking fluid or topical applications of caffeine (6.2 micromol) once a day 5 days a week starting immediately after discontinuation of UVB treatment enhanced the rate and extent of disappearance of the mutant p53-positive patches. Topical applications of caffeine to the dorsal skin of mice pretreated with UVB for 20 weeks resulted in enhanced apoptosis selectively in focal basal cell hyperplastic areas of the epidermis (putative precancerous lesions), but not in areas of the epidermis that only had diffuse hyperplasia. Our studies indicate that the chemopreventive effect of caffeine or green tea may occur by a proapoptotic effect preferentially in early precancerous lesions.     

Patches of mutant p53-immunoreactive epidermal cells induced by chronic UVB Irradiation harbor the same p53 mutations as squamous cell carcinomas in the skin of hairless SKH-1 mice

Treatment of SKH-1 hairless mice with UVB (30 mJ/cm(2)) twice a week for 20 weeks results in the formation of cellular patches, long before the appearance of tumors, that are visualized in epidermal sheets with an antibody (PAb240) recognizing mutated p53 protein. Direct sequencing analysis of the whole coding region of the p53 gene (exons 2-11) detected one or two mutations in 64.4% of 104 analyzed patches and no mutations in nonstained adjacent normal controls. Homozygous mutation was detected in 22.4% of the mutant patches. Except for two nonsense mutations, all others were missense (exons 4-9) and mostly (95.5%) at the DNA-binding domain. Primer extension analysis of cloned PCR fragments found three of four double-mutated patches harboring different mutations in separate alleles. All mutation hotspots reported earlier in UVB-induced mouse squamous cell carcinomas (SCC) at codons 270 (Arg --> Cys), 149 (Pro --> Ser), 275 (Pro --> Leu and Pro --> Ser), and 176 (His --> Tyr) with a frequency of 32.1%, 7.1%, 14.7%, and 3.2% were detected in epidermal patches at a frequency 47.7%, 9.1%, 4.5%, and 2.3%, respectively. Mutations at codons 210 and 191 found in patches at respective frequencies of 8.0% and 4.5% were not previously detected in UVB-induced mouse SCC. In summary, (a) the p53 mutation profile of UVB-induced skin patches and SCC was very similar suggesting that patches are precursor lesions for SCC, (b) a small number of patches harbored mutations that were not before observed in SCC from UVB-treated mice, and (c) about 36% of the patches did not harbor a p53 mutation.     

Stimulatory effect of oral administration of green tea or caffeine on ultraviolet light-induced increases in epidermal wild-type p53, p21(WAF1/CIP1), and apoptotic sunburn cells in SKH-1 mice

Pretreatment of SKH-1 mice with p.o.-administered 0.6% green tea (6 mg of lyophilized tea solids/ml) or 0.044% caffeine (0.44 mg/ml; concentration present in 0.6% green tea) for 2 weeks enhanced UV-induced increases in the number of p53-positive cells, p21(WAF1/CIP1)-positive cells, and apoptotic sunburn cells in the epidermis. These effects of p.o.-administered green tea or caffeine on early adaptive responses to UV provide the first demonstration of in vivo up-regulation of a tumor suppressor gene by a chemopreventive agent. The stimulatory effect of green tea and caffeine on UV-induced increases in the number of p53-positive cells, p21(WAF1/CIP1)-positive cells, and apoptotic sunburn cells may play a role in the inhibitory effects of tea and caffeine on UV-induced carcinogenesis.     

Effect of green tea on p53 mutation distribution in ultraviolet B radiation-induced mouse skin tumors

In the present study, administration of green tea to SKH-1 mice, via the drinking fluid, was found to significantly reduce the incidence and volume of ultraviolet B (UVB) radiation-induced skin tumors. Thirty-six skin tumors induced by UVB and 32 skin tumors induced by UVB, in mice treated with green tea in their drinking water, were collected and examined for the presence of mutations in the p53 gene. Polymerase chain reaction products from p53 exons 5-8 were screened by single- strand conformation polymorphism and direct sequence analyses. Eight of 36 UVB-induced tumors contained nine p53 mutations, with four in exon 5 and five in exon 8. In contrast, nine of 32 UVB-induced tumors in mice treated with green tea contained 11 p53 mutations, with two in exon 5, five in exon 6 and four in exon 8. All of the p53 mutations occurred at dipyrimidine sequences. These results were further corroborated by p53 immunohistochemistry. The most frequent mutations were C-->T or T-->C transitions, which are consistent with the genetic alterations caused by UVB exposure. Interestingly, mutations found in exon 6 of the p53 gene occurred only in tumors from the UVB/green tea group. Thus, the tumors observed in UVB/green-tea-treated mice have a different exon distribution of p53 mutations than tumors obtained from mice treated with UVB alone.      

A germ-line p53 mutation accelerates pulmonary tumorigenesis: p53-independent efficacy of chemopreventive agents green tea or dexamethasone/myo-inositol and chemotherapeutic agents taxol or adriamycin

Recent evidence indicates that individuals with a p53 germ-line mutation (Li-Fraumeni syndrome) have a 50% risk of developing lung cancer by age 60. In this study, p53 heterozygous knockout mice and p53 transgenic mice carrying a dominant negative mutant were crossed with the A/J mouse, which is highly susceptible to lung tumor induction, to investigate whether a p53 germ-line mutation is a predisposing gene for carcinogen-induced pulmonary adenomas in mice. The number of lung tumors was not significantly increased in (TSG-p53 x A/J)F1 p53 heterozygous knockout mice as compared with that in (TSG-p53 x A/J)F1 wt mice 16 weeks after exposure to N-nitrosomethylurea (MNU). In contrast, an average of 22 lung tumors were observed in (UL53-3 x A/J)F1 mice carrying a mutant p53 transgene (135Valp53) compared with an average of 7 lung tumors seen in (UL53-3 x A/J)F1 wt mice after treatment with N-nitrosomethylurea. Similar enhancement of lung tumor multiplicity (approximately 3-fold) was seen when mutant versus wt mice were treated with the tobacco-related carcinogens benzo[a]pyrene or 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone. These results suggest that the mutant p53 transgene may have a dominant negative effect on the wt p53. The potential usefulness of this new mouse model in lung cancer chemoprevention and chemotherapy was examined. The chemopreventive efficacy of the green tea or a combination of dietary dexamethasone and myoinositol and the chemotherapeutic efficacy of Taxol or Adriamycin was examined in wt mice or mice with a mutation in the p53 gene. Mice treated with dexamethasone/myo-inositol and green tea displayed an average of 70 and 50% inhibition of lung tumors, respectively, regardless of p53 status. Similarly, when mice bearing established lung adenomas were treated with Taxol or Adriamycin, a decrease in tumor volume of approximately 70% was observed independent of p53 mutation status. Thus, the (UL53-3 x A/J)F1 p53 transgenic mouse seems to be an excellent model for human carriers of p53 germ-line mutations (Li-Fraumeni syndrome). Furthermore, the lung adenomas generated in this model possess mutations in both the K-ras proto-oncogene and the p53 tumor suppressor gene. This model should prove directly useful for chemoprevention and chemotherapy studies.     

Populations of p53 codon 270 CGT to TGT mutant cells in SKH-1 mouse skin tumors induced by simulated solar light

The p53 codon 270 CGT to TGT mutation was investigated as a biomarker of sunlight-induced mutagenesis and carcinogenesis. The relationship between tumor development and abundance of this hotspot mutation was analyzed in mouse skin tumors induced by chronic exposure to simulated solar light (SSL). The 24 tumors analyzed had similar growth kinetics, with an average doubling time of approximately 16.4 d. Levels of the p53 codon 270 mutation were quantified in the 24 mouse skin tumors using allele-specific competitive blocker-polymerase chain reaction (ACB-PCR). All tumors contained measurable amounts of the mutation. The p53 codon 270 CGT to TGT mutant fraction (MF) ranged from 2.29 x 10(-3) to 9.42 x 10(-2), with 3.26 x 10(-2) as the median. These p53 MF measurements are lower than expected for an initiating mutation involved in the development of tumors of monoclonal origin. There was no evidence of a correlation between p53 codon 270 MF and either tumor area or an estimate of tumor cell number. Thus, the data do not support the idea that p53 mutation accumulates linearly during tumor development. To investigate how p53 mutation was distributed within tumors, 19 needle biopsies from seven different tumors were analyzed by ACB-PCR. This analysis demonstrated that p53 codon 270 mutation is heterogeneously distributed within tumors. The long-term goal of this research is to combine morphological and p53 MF measurements from tissues corresponding to the various stages of tumor development, in order to derive mathematical models relating the p53 codon 270 mutation to the development of SSL-induced skin tumors.     

Expression of mutant p53 proteins in lung cancer correlates with the class of p53 gene mutation.

We investigated the immunocytochemical staining and immunoblotting characteristics of 33 different p53 mutant proteins identified in lung cancer cell lines (18 small-cell lung cancer and 15 non-small-cell lung cancer) using monoclonal antibodies pAbs 240, 421 and 1801. The p53 mutants studied were representative of those found in lung cancer and included three deletions, four nonsense, seven splicing and 19 missense lesions. Control cell lines included six B-lymphoblastoid cell lines and two lung cancer cell lines without p53 mutations. Immunocytochemistry demonstrated 16 cell lines (48%) with definite overexpression of p53 protein (the high-expresser group of mutants), while in the remainder of cases either no p53 expression or low levels of p53 protein expression were found (the low-expresser group of mutants). The type of p53 mutation correlated with the expresser group. High expressers all had p53 missense mutations in exons 5-8, and immunocytochemistry identified 16/17 (94%) of these mutants. Several classes of p53 mutations occur in the low-expresser groups: deletions, splicing mutants, nonsense mutants and missense mutations outside of exons 5-8 all resulted in very low or undetectable levels of p53 protein. We conclude that there are low- and high-expression groups of p53 mutants in lung cancer and that the detection of protein expression in tumor cells by immunocytochemistry and immunoblotting is dependent upon the type of mutation of the p53 tumor-suppressor gene.     

Tumorigenic effect of nonfunctional p53 or p21 in mice mutant in the Werner syndrome helicase

Werner syndrome is an autosomal recessive disorder characterized by genomic instability and by the premature onset of a number of age-related diseases, including malignancy. To assess a potential collaboration between p21 or p53 cell cycle regulators and Wrn proteins, Wrn mutant mice were created and mated with p21 or p53 null mice to generate double mutants. The p21 null/Wrn mutant mice did not show an acceleration of tumorigenesis during the first year of life, suggesting that the p53-dependent G1-S cell cycle checkpoint (which operates via p21) is not involved in Wrn-abetted tumor suppression. In contrast, the p53 null/Wrn mutant mice were particularly remarkable with respect to the rapidity with which they developed tumors. These mice were also distinguished by the variety of tumors they developed compared to those that developed in p53 null mice. Such data suggest a genetic interaction between p53 and Wrn in which loss of Wrn provokes a more variable p53 response unrelated to its role in the G1-S cell cycle checkpoint.     

Mutant p53 accumulates in cycling and proliferating cells in the normal tissues of p53 R172H mutant mice

The tumour suppressor p53 is regulated primarily at the protein level. In normal tissues its levels are maintained at a very low level by the action of specific E3 ligases and the ubiquitin proteosome pathway. The mutant p53 protein contributes to transformation, metastasis and drug resistance. High levels of mutant p53 can be found in tumours and the accumulation of mutant p53 has previously been reported in pathologically normal cells in human skin. We show for the first time that similarly elevated levels of mutant p53 can be detected in apparently normal cells in a mutant p53 knock-in mouse model. In fact, in the small intestine, mutant p53 spontaneously accumulates in a manner dependent on gene dosage and cell type. Mutant p53 protein is regulated similarly to wild type p53, which can accumulate rapidly after induction by ionising radiation or Mdm2 inhibitors, however, the clearance of mutant p53 protein is much slower than wild type p53. The accumulation of the protein in the murine small intestine is limited to the cycling, crypt base columnar cells and proliferative zone and is lost as the cells differentiate and exit the cell cycle. Loss of Mdm2 results in even higher levels of p53 expression but p53 is still restricted to proliferating cells in the small intestine. Therefore, the small intestine of these p53 mutant mice is an experimental system in which we can dissect the molecular pathways leading to p53 accumulation, which has important implications for cancer prevention and therapy.     

野生型p53基因蛋白在氨肽酶抑制剂诱导人白血病细胞株K562细胞凋亡的实验研究

目的研究野生型p53基因蛋白对国产氨肽酶抑制剂乌苯美司(ubenimex)诱导人白血病细胞凋亡的影响及其作用机制。方法真核转导试剂FuGEMNE^TM6转导入K562细胞，免疫组化法检测细胞p53蛋白的表达，DNA片段原位末端标记及流式细胞仪(FCM)检测细胞凋亡，Rhodamin(Rh)123染色后，FCM检测细胞线粒体跨膜电位。结果p53基因cDNA转导的细胞p53蛋白表达增加；p53基因转导能促进ubenimex诱导K562细胞凋亡并增加ubenimex诱导的K562细胞线粒体跨膜电位(△ψm)的下降。结论野生型p53基因转导能促进ubenimex诱导K562细胞凋亡，并可能参与线粒体信号传导通路的调控。     

Role of Bax/Bcl-2 family members in green tea polyphenol induced necroptosis of p53-deficient Hep3B cells

Green tea polyphenol (GTP) is one of the most promising chemopreventive agent for cancer; it can inhibit cancer cell proliferation and induce apoptosis through p53-dependent cell signaling pathways. Unfortunately, many tumor cells lack the functional p53, and little is known about the effect of GTP on the p53-deficient/mutant cancer cells. To understand the p53-independent mechanisms in GTP-treated p53-dificient/mutant cancer cells, we have now examined GTP-induced cytotoxicity in human hepatoma Hep3B cells (p53-deficient). The results showed that GTP could induce Bax and Bak activation, cytochrome c release, caspase activation, and necroptosis of Hep3B cells. Bax and Bak, two key molecules of mitochondrial permeability transition pore (MPTP), were interdependently activated by GTP, with translocation and homo-oligomerization on the mitochondria. Bax and Bak induce cytochrome c release. Importantly, cytochrome c release and necroptosis were diminished in Hep3B cells (Bax^?/?) and Hep3B cells (Bak^?/?). Furthermore, overexpression of Bcl-2 could ameliorate GTP-induced cytochrome c release and necroptosis. Together, the findings suggested that GTP-induced necroptosis was modulated by the p53-independent pathway, which was related to the translocation of Bax and Bak to mitochondria, release of cytochrome c, and activation of caspases.     

Micrometastatic p53-positive cells in the lymph nodes of early stage epithelial ovarian cancer: prognostic significance

We used immunohistochemical staining of p53 protein to detect micrometastasis in regional lymph nodes that were judged tumor-free by conventional histopathological methods in 58 patients with stage I or II (pT1 or 2, N0) epithelial ovarian cancer. Overexpression of p53 protein in the primary lesions of ovarian cancer was observed in 31 patients (53%), and p53 protein-positive cells were detected in the regional lymph nodes (micrometastasis-positive) in 19 of 31 patients with p53 protein overexpression (61%). In patients with micrometastasis, the prognosis was significantly poorer than that in those without micrometastasis (p < 0.05). Detection of micrometastasis of the regional lymph nodes of ovarian cancer by immunohistochemical staining of p53 protein may be useful in predicting the prognosis of patients with stage I or II epithelial ovarian cancer.     

Silibinin prevents ultraviolet radiation-caused skin damages in SKH-1 hairless mice via a decrease in thymine dimer positive cells and an up-regulation of p53-p21/Cip1 in epidermis

Non-melanoma skin cancer (NMSC) accounts for >1 million new cases each year in the US alone suggesting that more approaches are needed for its prevention and control. Earlier studies by us have shown that silymarin (a crude form of biologically active silibinin with some other isomers), isolated from milk thistle, affords strong protection against ultraviolet (UV) radiation-induced NMSC in SKH-1 hairless mice; however, the molecular mechanisms of its efficacy are not known. Here, we assessed the effect of silibinin on UV-induced DNA damage and p53-p21/Cip1 accumulation, and their roles in UV-induced cell proliferation and apoptosis in SKH-1 hairless mouse epidermis. Topical application of silibinin prior to, or immediately after, UV irradiation resulted in a very strong protective effect against UV-induced thymine dimer positive cells in epidermis accounting for 76-85% (P < 0.001) inhibition. In other studies, silibinin treatment resulted in a further up-regulation of p53 by approximately 1.6-fold (P < 0.001) together with an increase ( approximately 2-fold, P < 0.001) in p21/Cip1 protein levels. Proliferative cell nuclear antigen staining showed that silibinin pre- or post-topical application significantly inhibits (40-52 and 20-40%, respectively, P < 0.001) UV-induced epidermal cell proliferation. In addition, silibinin strongly decreased UV-caused terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling-positive apoptotic/sunburn cell formation (P < 0.001). These findings suggest that silibinin affords strong protection against UV-induced damage in epidermis by a decrease in thymine dimer positive cells and an up-regulation of p53-p21/Cip1 possibly leading to an inhibition in both cell proliferation and apoptosis. Comparable effects of silibinin following its pre- or post-UV application suggest that mechanisms other than sunscreen effect are operational in silibinin efficacy against UV-caused skin damages.     

Degree of apoptosis induced by adenovirus-mediated transduction of p53 or p73alpha depends on the p53 status of glioma cells

It has been reported that U-87MG glioma cells with wild-type p53 are resistant to p53 replacement gene therapy. As some gliomas harbor wild-type p53, it would be important to override the resistance mechanism due to wild-type p53 in glioma gene therapy. In this study, we transduced U-87MG cells or U251 glioma cells harboring mutated p53 with the p53 or p73alpha gene (a homologue of p53, that differently induces some p53-responsive genes) via adenovirus vectors (Advs) at same multiplicities of infection (MOIs) into respective cells (U-87MG: MOI 1000, U251: MOI 100), and evaluated the degree of apoptosis. The results demonstrate that the degree of apoptosis induced by Adv-mediated transduction of p53 in U-87MG cells was lower than that in U251 cells, whereas that induced by Adv-mediated transduction of p73alpha in U-87MG cells was higher than that in U251 cells. Bax expression in U-87MG and U251 cells induced by Adv-mediated transduction of p53 was almost the same as that of p73alpha. On the other hand, Adv-mediated transduction of p73alpha induced caspase-9 at higher levels than that of p53 in both cells. The results indicate that Adv-mediated transduction of p73alpha might be beneficial to overcome the resistance mechanism of glioma cells harboring wild-type p53.     

Expression and mutation of p53 gene in the lung of mice intratracheal injected with crystalline silica

The genotoxic effect of crystalline silica (Qt) in the lung was studied to clarify that silicosis conferred a significant increase in risk subsequent lung cancer. C57BL/6N mice received a single tracheal injection of Qt at dose of 2 mg/mouse. Lung p53mRNA was suppressed significantly, but no change of p21mRNA 15 months after treatment. Mutation of p53 gene was not identified at 15 months in the Qt group. Silicotic lesions were observed in the lungs of Qt group, but silicosis with pulmonary neoplasia was no detected. These results indicated that genetic changes in the silicotic lung might lead to facilitation of carcinogenesis.     

Transformation of normal human fibroblasts into immortalized cells with the mutant p53 gene and X-rays

In vitro cell transformation is a valuable approach for studying the mechanisms of multistep carcinogenesis of human cells. Since immortalization is an essential step for in vitro neoplastic transformation of human cells, this study addresses the question of whether mutant p53 contributes to the immortalization process of human cells. The mutant p53 gene (mp53: codon273^Arg-His) was introduced into normal human fibroblasts (OUMS-24 line) and a G418-resistant clone, OUMS-24/P6 line, was obtained. This clone showed an extended life span and chromosome abnormalities, but senesced at the 79th population doubling level (PDL). When these cells were subjected to intermittent X-ray treatment, they became an immortalized cell line (OUMS-24/P6X). Although these immortalized cells showed chromosome abnormalities, they were not tumorigenic. On the other hand, normal OUMS-24 cells into which mp53 had not been introduced were not immortalized by the same X-ray treatment. These results indicate that introduction and expression of mp53 alone were not sufficient for immortalization of human cells, and that mutations of the remaining wild-type p53 or other genes may have been necessary for immortalization. In fact, no expression of the wild-type p53 was detected in the immortalized cells by RT-PCR. Expression of p21, which is located downstream of p53, was remarkably reduced in the immortalized cells, resulting in an increase in cdk2 and cdc2 kinase activity. These findings indicate that the p53-p21 cascade may play some role in the immortalization of human cells. On the other hand, there was no significant difference in expression of proteins such as Rb, p16, cdk4, cdk6, cyclin A and cyclin D1 between the normal and immortalized human fibroblasts. © 1997 Wiley-Liss, Inc.     

外源性p16基因对wtp53型人肺腺癌细胞生长的影响

目的 探讨Ｐ１６对人肺腺癌的作用及Ｐ１６基因治疗肺癌的可能性。方法 运用分子克隆技术构建重组人Ｐ１６基因表达载,以电穿孔法将Ｐ１６基因导入到该基因缺失的ｗｔｐ５３型的人肺腺癌Ａ５４９和Ｈ４６０细胞中,得到稳定表达Ｐ１６的人肺腺癌细胞。详细研究Ｐ１６基因对ｗｔｐ５３型人肺腺癌细胞周期的影响和细胞增殖的作用。结果 导入Ｐ１６基因能使人Ａ５４９和Ｈ４６０细胞生长速度较对照细胞明显减慢,细胞周期阻滞在Ｇ１     

Close correlation between a p53 or hMSH2 gene mutation in the tumor and survival of hepatocellular carcinoma patients

We analyzed 42 hepatocellular carcinomas (HCC) (38 patients) for mutations in the DNA mismatch repair gene hMSH2 and the p53 tumor suppressor gene, a possible upregulater of hMSH2. Mutations of the hMSH2 or p53 gene were detected in 13 patients (34%). There were no patients who possessed mutations in both genes. There was a significant correlation between mutation of either gene and pathological indicators of malignancy. The survival rate of patients with hMSH2 or p53 gene mutation-positive tumors was much poorer than that with hMSH2 and p53 gene mutation-negative tumors (p=0.0012). Our results suggest that mutations in the p53 or hMSH2 gene may closely correlate with the survival of hepatocellular carcinoma patients.     

Selective mutation of codons 204 and 213 of the p53 gene in rat tumors induced by alkylating N-nitroso compounds.

Kidney and esophageal tumors induced by alkylating N-nitroso compounds in rats contain a high incidence (75-100%) of G----A transition mutations in the p53 gene. These are almost selectively (89%) located in the first base of codon 204 and the second base of 213, leading to amino acid substitutions Glu----Lys and Arg----Gln, respectively. In contrast to human neoplasms, a considerable fraction of rat kidney and esophageal tumors carries multiple p53 mutations. All nephroblastomas induced by transplacental exposure to N-nitrosoethylurea and 56% of esophageal tumors induced by N-nitrosomethylurea showed double mutations in codons 204 and 213 of exon 6. The selective targeting of p53 codons by alkylating nitrosamines may provide a basis for molecular epidemiological studies on this class of chemical carcinogens.     

Transfected mutant p53 gene increases X-ray-induced cell killing and mutation in human fibroblasts immortalized with 4-nitroquinoline 1-oxide but does not induce neoplastic transformation of the cells

We introduced the mutant p53 gene (codon 273^Arg-His) into human fibroblasts (SUSM-I cells) previously immortalized with 4-nitroquinoline I-oxide (4NQO) and obtained 2 clonal cell lines (SUSM-I/p53-I and SUSM-I /p53-6) expressing the mutant p53. Since the genetic background of SUSM-I /p53 is the same as that of SUSM-I except for the presence of the mutant p53, we expected to obtain more information on the mechanisms of p53 functions without the influence of other genetic differences by comparing cellular characteristics of both cell lines. SUSM-I /p53 cells became about twice as sensitive to the cytotoxic effects of X-rays as their parent SUSM-I cells. Mutation frequency was determined by the appearance of hypoxanthine guanine phosphoribosyl transferase deficient (6-thioguanine resistant) cells. As a result, the mutation frequency of SUSM-I /p53 cells was about 5 times that of SUSM-I cells transfected with or without the vector plasmid alone. Furthermore, when the SUSM-I/p53 cells were exposed to X-rays, the mutation frequency increased to about twice that of the non-irradiated SUSM-I /p53 cells. However, SUSM-I /p53 cells showed neither anchorage-independent growth in soft agar nor tumorigenicity in nude mice. These results indicate that the mutant p53 gene itself, which generally works in a dominant-negative way on cellular carcinogenesis, is not sufficient for neoplastic transformation of immortalized human cells, and that additional genetic change(s) may be necessary for transformation. © 1995 Wiley-Liss, Inc.