Abstract
Chemotherapy-induced alopecia (CIA) remains one of the most distressing adverse effects of cancer therapy. Yet, no therapy is available to selectively protect healthy hair follicles (HFs) and their epithelial stem cells (eHFSCs) from chemotherapy-induced damage without awarding potential survival benefits to cancer cells. Here, we report how human HFs can be protected against 2 lead CIA-inducing chemotherapeutics by inducing selective transient cell cycle arrest. Pretreating scalp HFs before chemotherapy exposure ex vivo with ALRN-6924, a clinical-stage "stapled peptide" drug that binds with high affinity to key endogenous inhibitors of p53, selectively activated p53 signaling only in cells with wild-type TP53 genotype and upregulated p21. This led to temporary cell cycle arrest in healthy tissues without protecting TP53-mutant cancer cells and mitigated chemotherapy-induced HF damage on multiple levels, including excessive hair matrix apoptosis, premature catagen, pigmentary abnormalities, "mitotic catastrophe," and micronucleation. It also protected eHFSCs against DNA damage, apoptosis, and pathological epithelial-mesenchymal transition. Notably, even topically applied ALRN-6924 afforded relative chemotherapy protection ex vivo. These results provide proof of principle for a strategy to selectively protect rapidly proliferating healthy epithelial tissues and their stem cells in patients with TP53-mutant cancers, which promises to protect against acute and permanent CIA.