Affiliations of authors: F. Eisinger, J. Jacquemier, E. Charafe-Jauffret (Department of Genetic Oncology/INSERM E 9939), D. Birnbaum (Laboratory of Tumor Biology/INSERM U 119), H. Sobol (Department of Genetic Oncology/INSERM E 9939 and Laboratory of Tumor Biology/INSERM U 119), Paoli-Calmettes Institute, Marseille, France; M.-C. Rio, Institut de Genetique et de Biologie Moleculaire et Cellulaire, Strasbourg, Illkirch, France.
Correspondence to: Hagay Sobol, M.D., Ph.D., Department of Genetic Oncology/INSERM E 9939 and Laboratory of Tumor Biology, Paoli-Calmettes Institute, 13009 Marseille, France (e-mail: sobol{at}marseille.inserm.fr).
The indications for searching mutations in BRCA1 gene are based mainly on clinical data, such as significant familial background and early onset breast cancer. However, such indications are limited in the clinical practice first because large families are rare in the Western world (1) and second because the mutation detection rates in populations now under study are lower than those previously expected (2). Since breast cancers associated with BRCA1 mutations harbor specific morphologic features (3,4), it is anticipated that the use of morphologic parameters in combination or not with family history will help optimize the screening of BRCA1 germ-line mutations. Encouraging results were obtained in screening medullary breast cancers for BRCA1 mutations (1).
In support of this view, Brown et al. (5) advocate for the use of steroid receptor status in the selection of case subjects for screening BRCA1 mutations. The authors consider that the absence of both estrogen receptors and progesterone receptors could be the most distinctive feature of breast cancers associated with BRCA1 mutations. We performed a multifactorial analysis incorporating steroid receptor status among several other parameters. Our results are in agreement with the proposal of Brown et al. about the importance of estrogen receptor negativity (ER(-)] in the BRCA1 germline mutation-associated phenotype (6), but progesterone receptor negativity appears to be of no further value in establishing BRCA1 status in the breast cancer we studied. Notwithstanding, other parameters associated with the estrogen receptor pathway may be used to improve the performance of genetic screening.
With this aim, we compared the expression of the estrogen-responsive gene pS2 (7) immunohistochemically by use of the P28O2 monoclonal antibody in breast cancer patients with BRCA1 mutations and in control individuals with sporadic cancers, according to the estrogen receptor status. Case patients (n = 33) with a family history (hereditary cancers) and consecutive control patients (n = 193) without a family history of breast cancer were selected from the records of the French Cooperative Network (3) and from our hospital-based registry, respectively. Since mutations in BRCA1 and BRCA2 genes do not contribute to more than 5% of all breast cancers, the control patients were considered to have breast cancers predominantly of the sporadic type.
In our panel of 226 breast cancers, 95 (42.0%) were ER(-). Among those with
the tumors that were both ER(-) and pS2 negative [pS2(-)], 23
(39.7%) of 58 had mutations in the BRCA1 gene (Table 1). In
contrast, among those with tumors that were ER(-) and pS2 positive (pS2(+)],
only six (16.2%) of 37 had mutations in the BRCA1 gene (P = .016; odds
ratio = 3.4 [95% confidence interval = 1.1-10.8]). Consequently,
among the ER(-) tumors, those that were also pS2(-) were more likely associated
with a BRCA1 germline mutation than those that were pS2(+).
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NOTES
Supported by the Paoli-Calmettes Institute, INSERM CRI 4U003C, and grants from Association pour la Recherche sur le Cancer and la Ligue Nationale Contre le Cancer.
REFERENCES
1
Eisinger F, Nogues C, Birnbaum D, Jacquemier J, Sobol H.
BRCA1 and medullary breast cancer [letter]. JAMA 1998;280:1227-8.
2
Malone KE, Daling JR, Thompson JD, O'Brien CA,
Francisco LV, Ostrander EA. BRCA1 mutations and breast cancer in the general population:
analyses in women before age 35 years and in women before age 45 years with first-degree family
history. JAMA 1998;279:922-9.
3 Eisinger F, Stoppa-Lyonnet D, Longy M, Kerangueven F, Noguchi T, Bailly C, et al. Germ line mutation at BRCA1 affects the histoprognostic grade in hereditary breast cancer. Cancer Res 1996;56:471-4.[Abstract]
4
Lakhani SR, Jacquemier J, Sloane JP, Gusterson BA, Anderson
TJ, van de Vijer MT, et al. Multifactorial analysis of differences between sporadic breast cancers
and cancers involving BRCA1 and BRCA2 mutations. J Natl Cancer Inst 1998;90:1138-45.
5
Brown DL, Cole BF, Arrick BA, Re: Multifactorial analysis of
differences between sporadic breast cancers and cancers involving BRCA1 and BRCA2 mutations
[letter]. J Natl Cancer Inst 1999;91:90-1.
6 Eisinger F, Nogues C, Guinebretiere JM, Peyrat JP, Bardou VJ, Noguchi T, et al. Novel indications for BRCA1 screening using individual clinical and morphological features. Int J Cancer 1999;84:263-7.[Medline]
7 Ribieras S, Tomasetto C, Rio MC. The pS2/TFF1 trefoil factor, from basic research to clinical applications. Biochem Biophys Acta 1998;1378:F61-77.[Medline]
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