Aromatase inhibitors for treatment of breast cancer: current concepts and new perspectives

Abstract

Estrogens provide the major hormonal support for endocrine-dependent human mammary neoplasms. In postmenopausal women, the extraglandular aromatization of the adrenal prehormone, androstenedione to estrone is the major pathway for estrogen biosynthesis. Estrone can then be converted into estradiol or into an inactive conjugate, estrone sulfate. Recent data suggest that the estrogens may also be synthesized in situ by human breast tumors, either from androstenedione via aromatase, or from estrone sulfate via the enzyme, sulfatase. Our enzyme kinetic studies support the predominance of the sulfatase pathway for in situ estrogen biosynthesis. The ability of estrone sulfate to stimulate colony formation of the nitrosomethylurea-induced rat mammary tumor in the clonogenic assay, suggests that this in situ pathway has biologic relevance. Aromatase inhibitors can be used to suppress the levels of circulating estrone, estrone sulfate, and estradiol in postmenopausal women. Aminoglutethimide, the major inhibitor currently used clinically, acts in a competitive fashion and blocks cholesterol side chain cleavage and 11 beta-hydroxylase as well as aromatase. Clinical studies indicate that the combination of aminoglutethimide plus replacement glucocorticoid causes breast tumor regression with the same frequency and for the same duration as surgical ablative therapies such as adrenalectomy or hypophysectomy. Aminoglutethimide also induces a similar rate of tumor regression as achieved with the antiestrogen, tamoxifen. However, because tamoxifen is associated with fewer side effects, this antiestrogen is to be preferred over use of aminoglutethimide as first-line hormonal treatment for women with breast cancer. Several specific suicide inhibitors of aminoglutethimide such as 4-hydroxy-androstenedione are being developed and have proven effective in early clinical trials with breast cancer patients. Further development of active aromatase inhibitors should allow precise control of estradiol levels in women with breast cancer. This ability to perform an 'estrogen clamp' may allow new strategies to be developed in which hormone depletion followed by repletion can produce a synchronization of tumor cell DNA synthesis. If achievable, such manipulations may allow potentiation of the effects of cytotoxic chemotherapy. This latter concept is currently being rigorously tested in basic and in clinical investigative studies.