p14ARF expression in invasive breast cancers and ductal carcinoma in situ – relationships to p53 and Hdm2

Introduction  

p14^ARF stabilises nuclear p53, with a variable expression of p14^ARF mRNA in breast cancers. In vitro, nuclear p14^ARF binds Hdm2 to block Hdm2-dependent nucleocytoplasmic shuttling of p53, which is required before cytoplasmic degradation of p53. p14^ARF is negatively regulated by p53 and through p53-independent pathways. No studies have yet examined levels of p14^ARF protein expression in breast cancer and their relationship to Hdm2/p53 immunoreactivity or subcellular localisation. Previously, immunohistochemical expression of cytoplasmic p14^ARF, p53 and Hdm2 has been described. HER-2 (c-erbB2/neu) predicts prognosis and interacts with the p14^ARF/Hdm2 pathway to inactivate p14^ARF and to influence Hdm2 activity and localisation. This study examined p14^ARF and p53/Hdm2 expression and subcellular localisation by using immunohistochemistry in a series of invasive ductal breast cancers (IDCs) with concomitant ductal carcinoma in situ (DCIS), to evaluate whether findings in vitro were related to clinicopathological parameters such as HER-2 and their effect on patient outcome.     

Ratio of Expression of p16INK4a to p14ARF Correlates with the Progression of Non-small Cell Lung Cancer

The CDKN2 gene is located on the short arm of chromosome 9p and encodes two unrelated proteins, p16^INK4a and p14^ARF, through the use of independent first exons and shared exons 2 and 3. p16^INK4a is a cyclin‐dependent kinase inhibitor, whereas p14^ARF regulates the cell cycle through a p53 and MDM2–dependent pathway. We have examined the expression of p16^INK4a and p14^ARF using competitive RT‐PCR in 60 non‐small cell lung cancers (NSCLCs) and matching normal lung tissues. The intensities of bands for p16^INK4a and p14^ARF were nearly equal or the intensity of the p16^INK4a band slightly exceeded that of p14^ARF in the normal lung tissues (n=60). In 38 tumors the intensity of the p16^INK4a band was similar to or slightly weaker than that of p14^ARF. In 6 tumors the intensity of the p16^INK4a band was weaker than that of p14^ARF. In 15 tumors the intensity of the p14^ARF band was very strong and the p16^INK4a band was barely visible. In only one tumor was the intensity of the p16^INK4a band very strong, while the band of p14^ARF was barely visible. The ratio of the intensity of p16^INK4a to p14^ARF had an interesting correlation with the tumor's clinicopathological characteristics. The p stage II‐IV tumors had significantly lower p16^INK4a to p14^ARF ratios than the p stage I tumors (P=0.036). The T2–4 tumors had significantly lower p16^INK4a to p14^ARF ratios than the T1 tumors (P=0.005). The N1–3 tumors had significantly lower p16^INK4a to p14^ARF ratios than the NO tumors (P=0.014). Our results suggest that the ratio of expression of p16^INK4a to p14^ARFtends to decrease during the progression of NSCLC.     

p14ARF genetic polymorphisms and susceptibility to second primary malignancy in patients with index squamous cell carcinoma of the head and neck

BACKGROUND:

p14^ARF, an alternate reading frame (ARF) product of the cyclin‐dependent kinase inhibitor 2A locus, plays a critical role in crosstalk between the tumor protein 53 (p53) and retinoblastoma (Rb) pathways and in cellular anticancer mechanisms. Therefore, the authors of this report investigated the association between single nucleotide polymorphisms (SNPs) of the p14^ARF gene and the risk of developing a second primary malignancy (SPM) after an index squamous cell carcinoma of the head and neck (SCCHN).

METHODS:

The log‐rank test and Cox proportional hazards models were used to assess the association of 2 p14^ARF SNPs (reference SNP [rs]3731217 and rs3088440) with SPM‐free survival and with the risk of developing an SPM among 1287 patients who had SCCHN.

RESULTS:

Patients with either p14^ARF variant genotypes of the 2 polymorphisms had a significantly reduced SPM‐free survival compared with patients with no variant genotypes (log‐rank test; P = .006). Compared with the p14^ARF thymine‐thymine (TT) and guanine‐guanine (GG) genotypes, the variant genotypes of p14^ARF TG/GG and guanine‐adenine (GA)/AA were associated with a significantly moderately increased risk of developing an SPM (p14^ARF rs3731217: adjusted hazard ratio [aHR], 1.48; 95% confidence interval [CI], 1.00‐2.19; p14^ARF rs3088440: aHR, 1.61; 95% CI, 1.07‐2.43). Moreover, after combining the variant genotypes of the 2 SNPs, patients who had variant genotypes were at significantly greater risk of developing an SPM compared with patients who had no variant genotypes (aHR, 3.07; 95% CI, 1.54‐6.12), and the risk was particularly pronounced in several subgroups.

CONCLUSIONS:

The current results suggested that there is a modestly increased risk of developing an SPM after an index SCCHN with each p14^ARF polymorphism, and there is an even greater risk of developing an SPM for patients with combined variant genotypes of the 2 SNPs. Therefore, p14^ARF polymorphisms may be susceptible markers of the risk of developing an SPM in patients with SCCHN. Cancer 2011. © 2010 American Cancer Society.     

Reduced expression of retinoblastoma gene product (pRB) and high expression of p53 are associated with poor prognosis in ovarian cancer

Paraffin sections (n = 168, 27 benign, 16 low malignant potential [LMP] and 125 malignant tumours) from epithelial ovarian tumours were evaluated immunohistochemically for expression of retinoblastoma gene product (pRB) and p53 protein, and the relationship among pRB, p53 and cyclin-dependent kinase inhibitor 2 (CDKN2) gene product p16^INK4A (p16) was analysed, following our previous study of p16. Forty-one percent of the benign, 50% of the LMP and most (71%) of the malignant tumours showed high pRB expression. High expression of pRB (>50% pRB-positive cells) significantly correlated with non-mucinous histological subtypes. Reduced pRB expression, substage and residual disease were significant predictors for poor prognosis in stage I patients. All the benign and most of the LMP (81%) tumours were in either the p53-negative or low p53-positive category, but nearly half of the malignant tumours had high p53 expression. High p53 accumulation was found in non-mucinous, high grade and late stage tumours. For well-differentiated carcinomas, high p53 expression was a predictor of poor prognosis. However, even though high p53 expression was not associated with histological subtype, stage or the presence of residual disease, high p53 expression was not an independent predictor when all clinical parameters were combined. For all ovarian cancers, a close correlation was found between high p53 and high p16 expression. The relationship between the expression of pRB and p16 depended on tumour stage. In stage I tumours, high pRB was associated with low p16 reactivity. On the other hand, most advanced tumours showed both high pRB and high p16 reactivity. Int. J. Cancer 74:407–415, 1997. © 1997 Wiley-Liss, Inc.     

Human papillomavirus and p16 expression in inverted papillomas of the urinary bladder

Human Papillomaviruses (HPVs) have been found in association with benign and malignant growth of epithelia. The cell cycle inhibitor p16^Ink4a has been shown to be overexpressed in HPV-positive cervical pre-malignant and malignant lesions, probably as a result of pRB targeting by the viral E7 protein. Inverted papillomas of the urinary bladder are epithelial tumors considered to be of benign nature. In this report we analyze the expression of p16^Ink4a and the presence of HPV sequences in inverted papillomas and in non-tumoral bladder controls. Our results show no association of HPV infection and inverted papillomas. Further, no correlation between p16 overexpression and HPV positivity was found. We conclude that HPV does not play an indispensable role in the development of urinary bladder inverted papillomas and that overexpression of p16^Ink4a does not correlate with HPV infection in these tumors.     

Involvement of the Ink4a gene (p16 and p19arf) in murine tumorigenesis.

The INK4A and INK4B genes map to 9p21, with the INK4A gene encoding two products, p16 and p19ARF. Many neoplasms in which INK4A and INK4B genes are altered show deletions involving both genes. Mice carrying a targeted Ink4a deletion develop tumors at an early age. In the present study we examined the genetic alterations affecting the remaining Ink4a allele and the Ink4b gene in tumors arising in heterozygous Ink4a mice. We identified deletion of the remaining Ink4a allele in 7 of 18 (39%) tumors. We also observed deletion of the exon 1beta in 3 cases, one of them presenting this deletion as a unique alteration. In conclusion, the deletion of the remaining Ink4a allele was the alteration most frequently observed, representing the inactivation of two proteins capable of arresting the cell cycle through different pathways that involve the tumor suppressors pRB and p53.     

Comparative genetic analysis of metachronous anaplastic oligoastrocytomas with extended recurrence-free interval

Two metachronous anaplastic oligoastrocytomas with different cerebral locations were analyzed in a 51-year-old patient with an extended recurrence-free interval of 6 years and an a long survival of 9 years. Remarkably, the patient had not undergone adjuvant chemotherapy. Different cytogenetic and molecular techniques were performed including comparative genomic hybridization (CGH), fluorescence in situ hybridization (FISH), allelic loss analysis, sequencing of p53, p16^INK4a/CDKN2A and p14^ARF, EGFRamplification studies, investigation of the DNA mismatch repair system as well as tumor clonality. Using CGH and FISH a profile of low accumulation of cytogenetic aberrations was found in the second tumor, with no significant increase in the percentage of hyperdiploid nuclei. Microsatellite analysis showed a common pattern of allelic losses at 1p36, 19q13 and 9p21. Both specimens were also similar in that they retained heterozygosity at 10q23-q24 and 13q14 and that they harbor neither EGFR amplification nor mutations of p53, p16^INK4a/CDKN2A or p14^ARF. The only further alteration in the second tumor was an allelic loss at p53. The X-chromosome inactivation (HUMARA) analysis revealed a polyclonal pattern in both samples. Our data strongly suggest that the second anaplastic oligoastrocytoma developed as a distant relapse of the first tumor. Whether the paucity of accumulation of the observed genetic alterations might be associated with the unusually extended relapse-free time of the patient remains to be elucidated.     

p14<Superscript>ARF</Superscript> promoter region methylation as a marker for gliomas diagnosis

Methylation in the promoter region is one of the mechanisms through which tumor suppressors are inactivated, resulting in tumorigenesis and/or tumor progression. Herein, we studied the methylation status in the promoter region of the p14^ARF tumor suppressor gene in 33 brain tissues isolated from glioma patients (astrocytomas) and compared to 12 brain tissues isolated from autopsy donors using methylation-specific polymerase chain reaction (MSP). The correlation between the expression of P14 and P53 was investigated using immunohistochemistry (IHC). The average percentage of methylation in the promoter region of p14^ARF gene in brain samples from glioma patients is 39.4%, while 0 from autopsy donors. No difference in the methylation level between low-grade and high-grade gliomas was detected. The methylation status has no correlation with the prognosis in glioma patients. A significant correlation between the expression of mutant form of TP53 and the grade of the glioma was established. Furthermore, there was a negative correlation between methylation of the p14^ARF promoter and the expression of the mutant form of TP53. Therefore, our data suggest that methylation in the promoter region of the p14^ARF gene may be used as a biomarker for the diagnosis of gliomas.     

Early cancers of the skin: clinical, histopathological, and molecular characteristics

Because skin lesions are visible and easily accessible, skin cancers provide us with an excellent in vivo model to study the development of cancers. Cutaneous malignant melanoma and squamous cell carcinoma (SCC) both arise from the epidermis and have an initial progression stage in which proliferation of the neoplastic cells is confined to the epidermis. This stage is called melanoma in situ or SCC in situ. Molecular analyses of melanoma in situ and of solar keratosis, a prototype of early SCC in situ, show that loss of p16^INK4a/p14^ARF and dysfunction of p53 play a critical role, respectively. Furthermore, there seems to be potential precursor cells to these in situ lesions, which are not discernible with conventional hematoxylin and eosin-stained sections. The precursor cells have minimal but critical genetic alterations, such as cyclin D1 amplification and p53 mutation, and can be identified using fluorescent in situ hybridization and immunostaining with p53 antibodies, respectively. These precursor cells may be defective in repair response to DNA damage, and would have proliferative or survival advantages over their normal neighboring counterparts in the presence of growth factor stimulation or genotoxic events, such as ultraviolet irradiation. Such precursor clones may be induced at a rather young age, and their number and size increase with accumulating carcinogenic stimuli. If these lesions acquire additional mutations, they could progress to clinically visible lesions of in situ carcinoma. Precise molecular analyses of early stages of skin cancers may have a strong impact on our understanding of in vivo development of cancers in other human organs.     

Frequent but borderline methylation of<Emphasis Type="Italic"> p16</Emphasis><Superscript>INK4a</Superscript> and<Emphasis Type="Italic"> TIMP3</Emphasis> in medulloblastoma and sPNET revealed by quantitative analyses

Certain risk groups among tumors of the central nervous system (CNS) in children take an almost inevitably fatal course. The elucidation of molecular mechanisms offers hope for improved therapy. Aberrant methylation is common in malignant brain tumors of childhood and may have implications for stratification and therapy. Methylation of p16 ^INK4A, p14 ^ARF, TIMP3, CDH1, p15 ^INK4B and DAPK1 in medulloblastoma (MB) and ependymoma has been discussed controversially in the literature. DUTT1 and SOCS1 have not previously been analyzed. We examined methylation in MB, sPNET and ependymoma using methylation-specific PCR (MSP), quantitative Combined Bisulfite Restriction Analysis (COBRA) and direct and clone sequencing of bisulfite PCR products. We detected methylation of p16 ^INK4A (17/43), p14 ^ARF (11/42) and TIMP3 (9/44) in MB and others by MSP. CDH1 was not only methylated in MB (31/41), but also in normal controls. Evaluation of MSP results by quantitative COBRA and sequencing yielded methylation between the detection limits of COBRA (1%) and MSP (0.1%). Only p16 ^INK4A and TIMP3 were methylated consistently in medulloblastomas (p16 ^INK4A 14%, TIMP3 11%) and p16 ^INK4A also in anaplastic ependymomas (1/4 tumors). Methylation ranged from 1–5%. Evaluation of methylation using MSP has thus to be supplemented by quantitative methods. Our analyses raise the issue of the functional significance of low level methylation, which may disturb the delicate growth factor equilibrium within the cell. Therapeutic and diagnostic implications urge into depth analyses of methylation as a mechanism, which might fill some of the gaps of our understanding of brain tumor origin.     

p14ARF在宫颈癌中的表达及其与p53 表达相关性的研究

 目的　探讨宫颈癌组织p14^ARF蛋白的表达及其与p53 表达的相关性。方法　应用免疫组化方法检测p14^ARF 、p53 基因在41 例宫颈癌及20 例正常宫颈组织中的表达。结果　p14^ARF在正常宫颈组织中不表达,41 例宫颈癌中35 例表达阳性,占85. 4 %。病理分级为G1 、G2 级的宫颈癌的p14^ARF阳性表达率为68. 4 % ,G3 级为100 % ,两者比较,有显著性差异( P < 0. 05) 。宫颈癌组织中p53 蛋白表达阳、阴性者中p14ARF蛋白表达阳性率分别为75. 0 %(12/ 16) 和92. 0 %(23/ 25) ,两者比较,无显著性差异,p14^ARFF与p53 表达不相关。结论　p14^ARF在宫颈癌中高表达有一定的诊断和估测预后价值,可能是宫颈癌新的肿瘤标志。     

Mice with alterations in both p53 and Ink4a/Arf display a striking increase in lung tumor multiplicity and progression: differential chemopreventive effect of budesonide in wild-type and mutant A/J mice

p53 transgenic mice carrying a dominant negative mutation were crossed with Ink4A/Arf heterozygous-deficient mice to investigate whether there is a synergy between these two germ-line mutations in promoting carcinogen-induced lung tumor progression in mice. Mice with a p53 dominant negative mutation and Ink4A/Arf heterozygous deficiency exhibited >20-fold increase in tumor volume compared with approximately 4-fold increase in Ink4A/Arf heterozygous-deficient mice and a 9-fold increase in mice with only the p53 dominant negative mutation. The effect of Ink4A/Arf heterozygous deficiency on lung tumor progression occurred late in the carcinogenesis process (>30 weeks after carcinogen treatment). In addition, most of the lung tumors (approximately 80%) from mice with a p53 mutation and deletion of Ink4A/Arf were lung adenocarcinomas. In contrast, lung adenocarcinomas were seen in <10% of the lung tumors from the wild-type mice and approximately 50% of the lung tumors from Ink4a/Arf heterozygous-deficient or p53 mutant mice. These results indicate a significant synergistic interaction between the presence of a mutant p53 transgene and the Ink4A/Arf deletion during lung tumor progression (P < 0.01). The usefulness of this new mouse model in lung cancer chemoprevention was examined. The chemopreventive efficacy of budesonide was examined in wild-type mice, mice with Ink4A/Arf heterozygous deficiency, mice with a mutation in the p53 gene, or mice with both a mutation in the p53 gene and deletion in the Ink4A/Arf locus. Mice treated with budesonide displayed an average of 90% inhibition of lung tumor progression in a standard 18-week chemoprevention assay, regardless of p53 and/or Ink4A/Arf status. However, the efficacy of budesonide against lung tumor progression decreased from 94 to 77% (P = 0.07) in mice with alterations in both p53 and Ink4A/Arf in a 40-week chemoprevention assay. Similarly, when mice bearing established lung adenomas were treated with budesonide, genotype-dependent differential effects of budesonide in wild-type and mutant mice were clearly revealed with a 82, 64, 45, and 33% decrease in tumor volume in wild-type mice, p53(+/+)Ink4a/Arf(+/-) mice, p53(+/-)Ink4a/Arf(+/+) mice, and p53(+/-)Ink4a/Arf(+/-), respectively. Thus, mutant mice with alterations in p53 and/or Ink4A/Arf exhibited a significant resistance to chemoprevention by budesonide. Because p53 and Ink4a/Arf mutations are the most prevalent mutations in human lung cancers, the effectiveness of chemopreventive agents on the mutant A/J mice containing alterations with p53 and Ink4a/Arf is the best preclinical estimate of their efficacy in humans. Thus, the mutant A/J mouse model should prove useful for chemoprevention studies.     

Upregulation of p18Ink4c expression by oncogenic HPV E6 via p53-miR-34a pathway

Binding of p53 to miR-34a promoter activates the expression of tumor-suppressive miR-34a. Oncogenic human papillomavirus (HPV) infection downregulates miR-34a expression through viral E6 degradation of p53. In our report, we found that miR-34a specifically targets p18Ink4c, a CDK4 and CDK6 inhibitor induced by E2F transactivation. HPV18(+) HeLa cells with ectopic miR-34a expression or by E6 siRNA knockdown-induced expression of endogenous miR-34a exhibited a substantial reduction of p18Ink4c in a dose-dependent manner, but had no effect on p16Ink4a, another member of CDK4/6 inhibitor family. In contrast, de novo infection by oncogenic HPVs of human keratinocyte-derived raft tissues increased p18Ink4c expression. Suppression of endogenous miR-34a in cell lines with a miR-34a inhibitor also increased p18Ink4c. We found that miR-34a suppresses the expression of p18Ink4c by binding to a specific seed match in the 5' UTR of p18Ink4c. Further investigation found remarkable increase of p18Ink4c in cervical precancer lesions and cervical cancer. Immunohistochemical staining of cervical tissue arrays showed increased expression of p18Ink4c in 68% of cervical cancer, 8.3% of chronic cervical inflammation and 4.8% of normal cervix. Although p18Ink4c inhibits cell proliferation in general and regulates E2F1 expression in HCT116 cells, it appears not to function as a tumor suppressor in cervical cancer cells lacking an intact G1 checkpoint because of viral E7 degradation of pRB. In summary, our study demonstrates an intimate connection among oncogenic HPV E6, p53, miR-34a and p18Ink4c and identifies p18Ink4c as a possible biomarker for cervical cancer.     

p14ARF induces apoptosis via an entirely caspase‐3‐dependent mitochondrial amplification loop

The p14^ARF tumor suppressor triggers cell death or cell cycle arrest upon oncogenic stress. In MCF‐7 breast carcinoma cells, expression of the tumor suppressor gene p14^ARF fails to trigger apoptosis but induces an arrest in the G1 and, to a lesser extent, in the G2 phase in the cell division cycle. Here, inhibition of cell cycle arrest resulted in apoptosis induction in caspase‐3 proficient MCF‐7 cells upon expression of p14^ARF. This occurred in the absence of S‐phase progression or mitotic entry. In contrast, syngeneic, caspase‐3‐deficient MCF‐7 cells remained entirely resistant to p14^ARF‐induced apoptosis. Thus, cell cycle checkpoint abrogation overcomes resistance to p14^ARF‐induced cell death and promotes cell death via a caspase‐3‐dependent pathway. Cell death coincided with dissipation of the mitochondrial membrane potential, release of cytochrome c, and was inhibitable by pan‐caspase inhibitors and the caspase‐3/7 inhibitor zDEVD‐fmk. Of note, mitochondrial events of apoptosis execution depended entirely on caspase‐3 proficiency indicating that caspase‐3 either acts “up‐stream” of the mitochondria in a “non‐canonical” pathway or mediates a mitochondrial feedback loop to amplify the apoptotic caspase signal in p14^ARF‐induced stress signaling.     

Peptide‐based tumor inhibitor encoding mitochondrial p14ARF is highly efficacious to diverse tumors

p14^ARF is one of the major tumor suppressors conventionally identified both as the mdm2‐binding molecule restoring p53 function in the nucleus, and as a nucleophosmin‐binding partner inside the nucleolous to stabilize ribosomal RNA. However, its recently reported mitochondrial localization has pointed to novel properties as a tumor suppressor. At the same time, functional peptides are gaining much attention in nanomedicine for their in vivo utility as non‐invasive biologics. We previously reported the p14^ARF‐specific peptide that restored the sensitivity to gefitinib on the gefitinib‐resistant lung cancer cells. Based on the information of this prototype peptide, here we generated the more powerful anti‐tumor peptide “r9‐CatB‐p14 MIS,” which comprises the minimal inhibitory sequence of the mitochondrial targeting p14^ARF protein in combination with the proteolytic cleavage site for cathepsin B, which is activated in various tumor cells, fused with the nine‐polyarginine‐domain for cell penetration, and demonstrated its novel action of regulating mitochondrial function in accordance with localization of endogenous p14^ARF. The p14 MIS peptide showed a potent tumor inhibiton in vitro and in vivo against not only lung cancer cells but also tumor cells of diverse lineages, via modulating mitochondrial membrane potential, with minimal cytotoxicity to non‐neoplastic cells and tissues. Hence, this mitochondrially targeted p14 peptide agent provides a novel basis for non‐invasive peptide‐based antitumor therapeutics.     

Deregulation of the p14ARF/Mdm2/p53 pathway and G1/S transition in two glioblastoma sets

Sixty-one glioblastomas have been studied, subdivided into the categories of classic glioblastomas (GBM) and glioblastomas with astrocytic (GBA) and oligodendroglial (GBO) differentiated areas. On surgical samples, TP53, Mdm2, CDKN2A/p16–p14 alterations were studied by molecular biology techniques and by immunohistochemistry. It has been found that Mdm2 amplification was more frequent in GBM than in GBA and GBO, that p14^ARF was inactivated in a high percentage of cases in the three tumor categories. Both these and other alterations did not reach a statistical significance, with the exception of CDKN2A/p16 homozygous deletion which showed the highest frequency in GBO. The latter finding could be in line with the observation that CDKN2A/p16 inactivation is a step in the molecular pathway to tumor progression in oligodendrogliomas. TP53 mutations and Mdm2 amplifications were mutually exclusive, whereas TP53 mutations and CDKN2A/p14 inactivation coexisted in 5 cases. The alterations of the p53/Mdm2/p14^ARF pathway occurred in 73% of cases and in 80% of cases if CDKN2A homozygous deletions were associated. All glioblastomas with gemistocytic areas showed p14^ARF inactivation. Immunohistochemistry showed higher percentages of positivity in comparison with molecular genetics, but with similar variations.     

Genetic prevention of lymphoma in p53 knockout mice allows the early development of p53-related sarcomas

Homozygous knockout of p53 in mice leads to early mortality from lymphoma, with almost complete penetrance, thus hampering studies of other tumor histotypes related to p53 alterations. To avoid lymphoma development, we crossed p53 knockout mice (BALB-p53 mice) with alymphocytic BALB/c Rag2^−/−;Il2rg^−/− (RGKO) mice. We compared the tumor spectrum of homozygous (BALB-p53^−/−) and heterozygous (BALB-p53^+/−) mice with alymphocytic mice (RGKO-p53^−/− and RGKO-p53^+/−). Lymphoma incidence in BALB-p53^−/− mice exceeded 80%, whereas in RGKO-p53^−/− it was strongly reduced. The prevalent tumor of RGKO-p53^−/− mice was hemangiosarcoma (incidence over 65% in both sexes, mean latency 18 weeks), other tumors included soft tissue sarcomas (incidence ~10%), lung and mammary carcinomas. Tumor spectrum changes occurred also in p53 heterozygotes, in which lymphomas are relatively rare (~20%). RGKO-p53^+/− had an increased incidence of hemangiosarcomas, reaching ~30%, and females had an increased incidence of osteosarcomas, reaching ~20%. Osteosarcomas shared with the corresponding human tumors the involvement of limbs and a high metastatic ability, mainly to the lungs. Specific alterations in the expression of p53-related genes (p16Ink4a, p19Arf, p15Ink4b, p21Cip1) were observed. Genetic prevention of lymphoma in p53 knockout mice led to new models of sarcoma development, available for studies on hemangiosarcoma and osteosarcoma onset and metastatization.     

Genomic alterations in spontaneous and carcinogen-induced murine melanoma cell lines

We have conducted an analysis of genetic alterations in spontaneous murine melanoma cell line B16F0 and its two metastatic clones, B16F1 and B16F10 and the carcinogen-induced murine melanoma cell lines CM519, CM3205, and K1735. We found that unlike human melanomas, the murine melanoma cell lines did not have activating mutations in the Braf oncogene at exon 11 or 15. However, there were distinct patterns of alterations in the ras, Ink4a/Arf, and p53 genes in the two melanoma groups. In the spontaneous B16 melanoma cell lines, expression of p16Ink4a and p19Arf tumor suppressor proteins was lost as a consequence of a large deletion spanning Ink4a/Arf exons 1alpha, 1beta, and 2. In contrast, the carcinogen-induced melanoma cell lines expressed p16Ink4a but had inactivating mutations in either p19Arf (K1735) or p53 (CM519 and CM3205). Inactivation of p19Arf or p53 in carcinogen-induced melanomas was accompanied by constitutive activation of mitogen-activated protein kinases (MAPKs) and/or mutation-associated activation of N-ras. These results indicate that genetic alterations in p16Ink4a/p19Arf, p53 and ras-MAPK pathways can cooperate in the development of murine melanoma.