Significant Palliative Benefits Following Therapy With Mifepristone for Advanced Treatment Resistant Small Cell Lung Cancer.

BACKGROUND/AIM: Progesterone receptor antagonists have been found to provide significant extension of life and considerable palliative benefits in a large variety of very advanced cancers. Most of these treated cancers lack the classical nuclear progesterone receptor (nPR). The hypothesized targets are membrane (m) PRs to inhibit progesterone induced blocking factor (PIBF). To date, there have been no case reports documenting the efficacy of PR antagonists for small cell lung cancer (SCLC) confirmed by pathological analysis. The case reported here demonstrates the efficacy of the single oral agent mifepristone in treating resistant SCLC. CASE REPORT: A 58-year-old man, presenting with a persistent cough, dyspnea on exertion, and marked weakness, was diagnosed with stage IV non-SCLC (NSCLC) that tested positive for the EGFR mutation. He was treated with the single agent osimertinib. When symptoms returned eight months later, along with radiographic evidence of marked cancer progression, a lung biopsy showed SCLC. He failed to respond to pembrolizumab and subsequently to atezolizumab. He was then treated with the single agent mifepristone 200 mg per day orally. He showed marked clinical improvement associated with marked radiographic improvement. Though clinically doing very well, after one year, his dominant lesion increased in size. His oncologist elected to stop mifepristone and treat with camrelizumab with anlototinib. His clinical condition deteriorated on these drugs, and he died five months later. CONCLUSION: SCLC can be added to the long list of very advanced cancers that are treatment resistant to standard therapy, but respond well to PR antagonists.

The role of progesterone and the progesterone receptor in cancer: progress in the last 5 years.

INTRODUCTION: Patients with various advanced cancers devoid of nuclear progesterone receptors (nPR) have demonstrated increased quality and length of life when treated with the PR modulator mifepristone, which likely works by interacting with membrane PRs (mPR). AREAS COVERED: Two immunomodulatory proteins are discussed that seem to play a role in cancers that proliferate whether the malignant tumor is positive or negative for the nPR. These two proteins are the progesterone receptor membrane component-1 (PGRMC-1) and the progesterone-induced blocking factor (PIBF). Both PGRMC-1 and the parent form of PIBF foster increased tumor aggressiveness, whereas splice variants of the 90 kDa form of PIBF inhibit immune response against cancer cells. EXPERT OPINION: The marked clinical improvement following 200-300 mg of mifepristone is likely related to blocking PIBF. In the low dosage used, mifepristone likely acts as an agonist for PGRMC-1 protein. Mifepristone may be less effective for cancers positive for the nPR because the nPR may be protective and blocking it may have detrimental effects. Based on this hypothetical model, the development of other potential treatment options to provide even greater efficacy for treating cancer are discussed.

A Hypothetical Model Suggesting Some Possible Ways That the Progesterone Receptor May Be Involved in Cancer Proliferation.

Cancer and the fetal-placental semi-allograft share certain characteristics, e.g., rapid proliferation, the capacity to invade normal tissue, and, related to the presence of antigens foreign to the host, the need to evade immune surveillance. Many present-day methods to treat cancer use drugs that can block a key molecule that is important for one or more of these characteristics and thus reduce side effects. The ideal molecule would be one that is essential for both the survival of the fetus and malignant tumor, but not needed for normal cells. There is a potential suitable candidate, the progesterone induced blocking factor (PIBF). The parent 90 kilodalton (kDa) form seems to be required for cell-cycle regulation, required by both the fetal-placental unit and malignant tumors. The parent form may be converted to splice variants that help both the fetus and tumors escape immune surveillance, especially in the fetal and tumor microenvironment. Evidence suggests that membrane progesterone receptors are involved in PIBF production, and indeed there has been anecdotal evidence that progesterone receptor antagonists, e.g., mifepristone, can significantly improve longevity and quality of life, with few side effects.