CORRESPONDENCE

Re: Tamoxifen May Be an Effective Treatment for BRCA1-Related Breast Cancer Irrespective of Estrogen Receptor Status

Vera Cappelletti, Silvia Veneroni, Danila Coradini, Saro Oriana, Gorana Tomasic, Mamoun Younes, Maria Grazia Daidone

Affiliations of authors: V. Cappelletti, S. Veneroni, D. Coradini, M. G. Daidone (Department of Experimental Oncology, Unit 10), S. Oriana (Department of Surgery), G. Tomasic (Department of Pathology), Istituto Nazionale per lo Studio e la Cura dei Tumori, Milan, Italy; M. Younes, Department of Pathology, Baylor College of Medicine, Houston, TX.

Correspondence to: Maria Grazia Daidone, M.D., Department of Experimental Oncology, Unit 10, Istituto Nazionale per lo Studio e la Cura dei Tumori, Via Venezian 1, 20133 Milan, Italy (e-mail: mariagrazia.daidone{at}istitutotumori.mi.it).

The actual benefit of tamoxifen treatment in patients carrying BRCA1 mutations remains an open question due to contrasting clinical results. In fact, the outcome of retrospective analyses suggesting a protective effect of tamoxifen in preventing contralateral tumors was recently supported in a cohort of Ashkenazi Jewish breast cancer patients by the observation of a reduced risk of death following adjuvant tamoxifentreatment (1), irrespective of estrogen receptor (ER) status. Such findings are challenged by the observation that tamoxifen treatment was unable to reduce breast cancer incidence in BRCA1 mutation carriers participating in the National Surgical Adjuvant Breast and Bowel Project breast cancer prevention trial P1 (NSABP-P1) (2), despite the possibility that negative NSABP-P1 results could be caused by late initiation of chemopreventive treatment. Although the NSABP observations may be explained by the prevalence of an ER-{alpha}-negative phenotype in BRCA1-related breast cancers, several biologic hypotheses have been provided to justify the protective effect of tamoxifen treatment (1).

Tumors arising in BRCA1 mutation carriers seem to reveal a unique pattern of ER negativity—that is, they express ER-{beta} more frequently than do sporadic tumors (3). Whether ER-{beta} protein expression is associated with responsiveness to tamoxifen is still a controversial issue. However, the initial finding of an association between ER-{beta} protein expression and clinical outcome (4) may be supported by a retrospective analysis we performed in a series of 246 postmenopausal patients with primary lymph node-positive, ER-positive (determined by ligand binding assay) invasive breast cancer who had received tamoxifen for at least 2 years. ER-{beta} protein expression in the tumors of these patients was inversely associated with 6-year relapse when analyzed as either a continuous variable (Table 1Go; P = .003, univariate analysis) or when using a total immunohistochemistry (IHC) score, which combines the positive cell fraction with staining intensity (hazard ratio [HR] for low versus high IHC score = 3.36, 95% confidence interval [CI] = 1.32 to 8.58, P = .011; HR for intermediate versus high IHC score = 2.35, 95% CI = 1.00 to 5.50, P = .049; adjusted for tumor size and lymph node involvement). Such an association, which was maintained in the presence of other variables, i.e., tumor size, number of positive lymph nodes, and ER-{alpha} (Table 1Go; P = .004, multivariable analysis), might in part explain the efficacy of tamoxifen in BRCA1-related, ER-{alpha}-negative and ER-{beta}-positive cancers. Moreover, recent data (5) indicate that, after prolonged estradiol deprivation (following treatment with anti-estrogens), estradiol itself stimulates apoptosis in breast cancer cells. Such a finding could represent another possible explanation for ER-{beta} involvement in determining the protective effect of tamoxifen in BRCA1-related tumors because, in cells of neuronal origin, estradiol stimulates proliferation when the prominent receptor isoform is ER-{alpha}, but drives cells to activate Fas-mediated apoptosis when the major receptor isoform is ER-{beta} (6). An evaluation of ER-{beta} protein expression in a comparable series of BRCA1-related breast cancers from patients who received tamoxifen or were subject to other treatment modalities may provide information to validate our preliminary findings that BRCA1-related tumors have prevalent ER-{beta} protein expression and that ER-{beta} may have a role in determining the effect of tamoxifen in such tumors.


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Table 1. Univariate and multivariable analysis of 6-year relapse*
 

NOTES

Supported in part by grants from the Italian Association for Cancer Research (AIRC).

REFERENCES

1 Foulkes WD, Goffin J, Brunet JS, Bégin LR, Wong N, Chappuis PO. Tamoxifen may be an effective adjuvant treatment for BRCA1-related breast cancer irrespective of estrogen receptor status. J Natl Cancer Inst 2002;94:1504–6.[Free Full Text]

2 King MC, Wieand S, Hale K, Lee M, Walsh T, Owens K, et al. Tamoxifen and breast cancer incidence among women with inherited mutations in BRCA1 and BRCA2: National Surgical Adjuvant Breast and Bowel Project (NSABP-P1) Breast Cancer Prevention Trial. JAMA 2001;286:2251–6.[Abstract/Free Full Text]

3 Daidone MG, Veneroni S, Cappelletti V, Radice P, Pierotti MA, Younes M. Estrogen receptor-beta expression in hereditary breast cancer. J Clin Oncol 2002;20:3752–3.[Free Full Text]

4 Mann S, Laucirica R, Carlson N, Younes PS, Ali N, Younes A, et al. Estrogen receptor beta expression in invasive breast cancer. Hum Pathol 2001;32:113–8.[CrossRef][Medline]

5 Song RX, Mor G, Naftolin F, McPherson RA, Song J, Zhang Z, et al. Effect of long-term estrogen deprivation on apoptotic responses of breast cancer to 17beta-estradiol. J Natl Cancer Inst 2001;93:1714–23.[Abstract/Free Full Text]

6 Nilsen J, Mor G, Naftolin F. Estrogen-regulated developmental neuronal apoptosis is determined by estrogen receptor subtype and the Fas/Fas ligand system. J Neurobiol 2000;43:64–78.[CrossRef][Medline]

7 Thor AD, Berry DA, Budman DR, Muss HB, Kute T, Henderson IC, et al. ErbB-2, p53, and efficacy of adjuvant therapy in lymph node-positive breast cancer. J Natl Cancer Inst 1998;90:1346–60.[Abstract/Free Full Text]


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