Originally published as JCO Early Release 10.1200/JCO.2005.04.2531 on November 28 2005

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Hormone Replacement Therapy and Decreased Lung Cancer Survival

University of Pittsburgh, Pittsburgh, PA

In this issue of Journal of Clinical Oncology, Ganti et al¹ describe the results of a study using retrospective chart review to investigate hormone replacement therapy (HRT) use by women diagnosed with lung cancer. The data, collected on almost 500 female lung cancer patients, showed a significant association between both a lower median age at lung cancer diagnosis (63 v 68 years) and a shorter median survival time (39 v 79 months) in women who used HRT for at least a 6-week period before diagnosis, compared with women who did not. Both observations were highly significant, and the effect on survival persisted in a multivariate analysis. In this analysis, HRT use was associated with an adjusted hazard ratio of dying as a result of lung cancer of 1.97. HRT use was considered positive whether it occurred immediately before diagnosis or was remote from diagnosis, as long as hormone replacement was documented for at least 6 weeks.

Given that younger lung cancer patients, as a group, have better survival times than older patients, this degree of effect of HRT on poor outcome in a generally younger population is particularly striking. The effect on poor survival remained statistically significant in women with a smoking history of at least five pack-years, who made up 86% of the cohort, whereas the difference in survival between the nonsmoking group (14% of patients) who did or did not use HRT was much smaller (median survival, 92 v 98 months), and was not significant. Stage distribution was not different between users and nonusers of HRT, suggesting the effect was not due to differences in time from symptoms to diagnosis between the two groups, nor to a greater dissemination of disease in HRT users relative to nonusers at the time of diagnosis. Distribution of different lung cancer histologies also was the same regardless of HRT status.

The shift to both an earlier age at diagnosis and to shorter survival times with HRT use is consistent with a tumor-promoting effect of HRT. This might occur by accelerating the transition of a preneoplastic lesion to a fully malignant state (hence reducing age at diagnosis) or by promoting a more aggressive behavior of the tumor once it is clinically apparent (hence decreasing survival time). Estrogens in HRT are the most likely candidates for mediating such effects, considering recent evidence showing expression of estrogen receptors (ERs) and growth-promoting effects of estrogens in lung tumors.^2-6 The ERß in particular is highly expressed in most types of lung cancer^2,3 and mediates transcriptional responses in lung cancer cells.⁶ Cross activation of the ER and epidermal growth factor receptor pathways also has been shown to occur in lung cancer cells.⁵ Progesterones, which are also often a component of HRT, may actually protect against lung cancer. A recent report suggests that progesterone receptors are present in about half of lung tumors, and progesterone mediates pathways that induce apoptosis in lung cancer cells and reduce lung tumor growth.⁷ Depending on the hormonal components of HRT and the expression of ER and progesterone receptor in a particular patient’s tumor, either growth-promoting or growth-inhibiting effects might dominate.

The study by Ganti et al¹ does have several limitations. The retrospective nature of the study did not allow the investigators to distinguish the type of HRT used or the total duration of HRT use. The continued HRT use after diagnosis of lung cancer is also unknown, but because there has been no contraindication for HRT use after a lung cancer diagnosis, the authors presumed HRT use was probably not curtailed. However, a dose-response analysis could not be carried out. Given that nonsmokers made up such a small group of the patients studied, only a trend was discerned for reduced survival with HRT use.

The promoting effects of HRT on lung cancer found by Ganti et al¹ also are not consistent with recent data by Schabath et al⁸ suggesting that HRT use could actually protect women from a lung cancer diagnosis, especially if they smoked. The reduced odds ratio for lung cancer found by Schabath et al in smoking HRT users might be explained by effects of HRT to reduce other cancer-promoting hormones, such as insulin-like growth factor 1,⁸ or by the cancer-protecting effects of progesterone described above. Another explanation is that the ER, when it is in the activated state bound to estrogen, can complex with the aryl hydrocarbon receptor, only if it is activated by xenobiotics such as polycyclic aromatic hydrocarbons found in tobacco smoke.⁹ The activated ER–aryl hydrocarbon receptor complex is subject to rapid proteosomal degradation, thus eliminating ER signaling. This could paradoxically reduce estrogen signaling in postmenopausal women who took HRT and smoked, providing the appearance of a protective effect of HRT on lung cancer risk. In the case-case analysis carried out by Ganti et al,¹ women who were not diagnosed with lung cancer are not considered. It may be that HRT use combined with tobacco smoke exposure can inhibit growth-promoting processes in some women. In others, however, the promotional effects of HRT may dominate to produce lung tumors that are diagnosed earlier in life and are more biologically aggressive and resistant to therapy. HRT use of relatively short duration might also trigger proliferative signals that could promote the emergence of a clinically apparent lung tumor in a smoker whose lungs harbor genetic mutations.

Although the study by Ganti et al¹ is not definitive because of the limitations discussed, the data strongly suggest that HRT use should be discontinued after a lung cancer diagnosis. This would also be consistent with recent studies suggesting that HRT cannot protect against other conditions such as heart disease and osteoporosis to the extent hoped. Additional research examining the type of HRT used, and duration and timing of use, on lung cancer diagnosis and survival is clearly warranted. The relationship between HRT use and subsequent development of a lung tumor expressing the ER and PR is also worthy of investigation. The possibility that progesterone could inhibit lung tumor growth is also exciting, and would provide a new therapeutic target for lung cancer.

Author’s Disclosures of Potential Conflicts of Interest

The author indicated no potential conflicts of interest.

Author Contributions

Conception and design: Jill M. Siegfried Data analysis and interpretation: Jill M. Siegfried Manuscript writing: Jill M. Siegfried Final approval of manuscript: Jill M. Siegfried

 

REFERENCES

1. Ganti AK, Sahmoun AE, Panwalkar AW, et al: Hormone replacement therapy is associated with decreased survival in women with lung cancer. J Clin Oncol 24:59-63, 2006[Abstract/Free Full Text]
2. Omoto Y, Kobayashi Y, Nishida K, et al: Expression, function, and clinical implications of the estrogen receptor beta in human lung cancers. Biochem Biophys Res Commun 285:340-347, 2001[CrossRef][Medline]
3. Stabile LP, Davis AL, Gubish CT, et al: Human non-small cell tumors and cells derived from normal lung express both estrogen receptor alpha and beta and show biological responses to estrogen. Cancer Res 62:2141-2150, 2002[Abstract/Free Full Text]
4. Pietras RJ, Marquez DC, Chen HW, et al: Estrogen and growth factor receptor interactions in human breast and non-small cell lung cancer cells. Steroids 70:372-381, 2005[CrossRef][Medline]
5. Stabile LP, Lyker JL, Gubish CT, et al: Combined targeting of the estrogen receptor and the epidermal growth factor receptor in non-small cell lung cancer shows enhanced antiproliferative effects. Cancer Res 65:1459-1470, 2005[Abstract/Free Full Text]
6. Hershberger PA, Vasquez AC, Kanterwicz B, et al: Regulation of endogenous gene expression in human non-small cell lung cancer cells by estrogen receptor ligands. Cancer Res 65:1598-1605, 2005[Abstract/Free Full Text]
7. Ishibashi H, Suzuki T, Suzuki S, et al: Progesterone receptor in non-small cell lung cancer: A potent prognostic factor and possible target for endocrine therapy. Cancer Res 65:6450-6458, 2005[Abstract/Free Full Text]
8. Schabath MB, Wu X, Vassilopoulou-Sellin R, et al: Hormone replacement therapy and lung cancer risk: A case-control analysis. Clin Cancer Res 10:113-123, 2004[Abstract/Free Full Text]
9. Wormke M, Stoner M, Saville B, et al: The aryl hydrocarbon receptor mediates degradation of estrogen receptor alpha through activation of proteasomes. Mol Cell Biol 23:1843-1855, 2003[Abstract/Free Full Text]

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