2000
DOI: 10.1016/s0002-9440(10)64853-5
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Development of Spontaneous Mammary Tumors in BALB/c p53 Heterozygous Mice

Abstract: Breast cancer is the most frequent tumor type among women in the United States and in individuals with Li-Fraumeni syndrome. The p53 tumor suppressor gene is altered in a large proportion of both spontaneous breast malignancies and Li-Fraumeni breast cancers. This suggests that loss of p53 can accelerate breast tumorigenesis, yet p53-deficient mice rarely develop mammary tumors. To evaluate the effect of p53 loss on mammary tumor formation, the p53(null) allele was back-crossed onto the BALB/c genetic backgrou… Show more

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Cited by 181 publications
(186 citation statements)
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“…This strongly indicates that the mutation of p53, rather than the genetic background, sensitizes these mice to tumor development. The influence of strain on tumor outcome is well documented; e.g., p53-null mice develop teratocarcinomas in a 129/Sv background, whereas p53 +/− BALB/c mice are susceptible to mammary tumors (29,30). Subtle variations may exist between mouse strains in pathways modulated by irradiation that may influence tumor outcome.…”
Section: Discussionmentioning
confidence: 99%
“…This strongly indicates that the mutation of p53, rather than the genetic background, sensitizes these mice to tumor development. The influence of strain on tumor outcome is well documented; e.g., p53-null mice develop teratocarcinomas in a 129/Sv background, whereas p53 +/− BALB/c mice are susceptible to mammary tumors (29,30). Subtle variations may exist between mouse strains in pathways modulated by irradiation that may influence tumor outcome.…”
Section: Discussionmentioning
confidence: 99%
“…Accordingly, p53 À/À mice, at least in the murine genetic background C57/BL6, rarely develop mammary tumors [34,[36][37][38][39]. Nevertheless, several observations suggest that loss of p53 is involved in the etiopathology of both human and mouse mammary tumors: (i) mutations of p53 are found in many breast cancers and women affected by the Li-Fraumeni syndrome (an inherited predisposition to cancer development linked to germline mutations in the p53 gene) often develop breast tumors [38]; (ii) in the BALB/c background, approximately 75% of p53 À/À mice have microscopic lesions in the mammary gland (sarcomas, epithelial hyperplasia and alterations in stromal morphology) [40]; (iii) transplantation of the p53 À/À BALB/c epithelium into fat pads of WT syngeneic mice leads to the development of mammary carcinomas in 60-75% of mice [40,41]; (iv) in a conditional mammary tumor model, approximately 70% of mice that carry tissue-specific inactivation of p53 develop mammary carcinomas [42]; and (v) in ErbB2 transgenic mice, which develop mammary carcinomas with high penetrance and short latency, p53 impairment is responsible for the immortal behavior and the geometric expansion of mammary CSCs in vitro and for carcinoma growth in vivo [34].…”
Section: Opinionmentioning
confidence: 99%
“…Cystic papillary tumors in NRL-TGFa mice resemble those of other TGFa transgenic mice (Humphreys and Hennighausen, 2000;Rose-Hellekant and Sandgren, 2000;Arendt et al, 2006). Concurrent expression of heterozygous p53 results in aggressive solid tumors of varying types reflecting the tumor spectrum of p53 ĂŸ /À BALB/c mice (Blackburn et al, 2003;Jerry et al, 2000;Kuperwasser et al, 2000), although relative proportions cannot be determined due to low numbers of p53 ĂŸ /À mice in the present study. The B6 background delayed tumor latency in NRL-TGFa mice, similar to that observed previously in WAP-TGFa mice (RoseHellekant et al, 2002) and p53 ĂŸ /À (BALB/c:B6) F1 mice (Jerry et al, 2000), suggesting that B6 alleles protect against mammary cancer.…”
Section: Discussionmentioning
confidence: 63%