RESUMEN
Endocrine-resistance remains a major challenge in estrogen receptor α positive (ERα+) breast cancer (BC) treatment and constitutively active somatic mutations in ERα are a common mechanism. There is an urgent need to develop novel drugs with new mode of mechanism to fight endocrine-resistance. Given aberrant ERα activity, we herein report the identification of novel covalent selective estrogen receptor degraders (cSERDs) possessing the advantages of both covalent and degradation strategies. A highly potent cSERD 29c was identified with superior anti-proliferative activity than fulvestrant against a panel of ERα+ breast cancer cell lines including mutant ERα. Crystal structure of ERα‒ 29c complex alongside intact mass spectrometry revealed that 29c disrupted ERα protein homeostasis through covalent targeting C530 and strong hydrophobic interaction collied on H11, thus enforcing a unique antagonist conformation and driving the ERα degradation. These significant effects of the cSERD on ERα homeostasis, unlike typical ERα degraders that occur directly via long side chains perturbing the morphology of H12, demonstrating a distinct mechanism of action (MoA). In vivo, 29c showed potent antitumor activity in MCF-7 tumor xenograft models and low toxicity. This proof-of-principle study verifies that novel cSERDs offering new opportunities for the development of innovative therapies for endocrine-resistant BC.
RESUMEN
Breast cancer is the most common malignant tumor in women worldwide. In breast cancer tumor tissues, a variety of targets related to the occurrence and development of breast cancer have been observed, and many drugs have been used in clinical applications for these targets. However, most of these drugs are small molecule inhibitors. With the long-term use of these drugs, acquired drug resistance often occurs in breast cancer patients. To overcome the drug resistance, the development of more efficient drugs is highly desirable in the treatment of breast cancer. Proteolysis targeting chimera (PROTAC) technology is a new kind of targeted protein degradation technology, which has shown broad prospect of applications in the field of drug development. The use of PROTAC technology to target the degradation of relevant targets in breast cancer has become a feasible strategy for breast cancer treatment.