The taxane family of compounds, including paclitaxel, docetaxel (Taxotere), and cabazitaxel (Jevtana), are common drugs used in chemotherapy for the frontline treatment of most major types of cancer. Alopecia, the dramatic loss of hair, is a common side effect that became a symbol of the suffering of many cancer patients. Concerted efforts have been made to understand the mechanism of taxane toxicity to hair follicles and, thus, prevention methods. Taxanes act by stabilizing cellular microtubules, which consequently cause mitotic arrest and then failure, as microtubules play critical functions in chromosome segregation. Hair follicle matrix cells are highly proliferative and thus are exceedingly sensitive to taxanes. We review the cellular mechanism-based strategies under investigation to counter taxane-induced hair follicle damage. These include the application of cyclin kinase inhibitors to block mitotic entry, the practical method using scalp cooling to reduce exposure of scalp hair follicles to drugs during infusion, the requirement of p53 action for hair follicle damage, and the recently discovered method of using low-intensity ultrasound to break taxane-stabilized microtubules and thus reverse taxane toxicity in hair follicle matrix cells. The concept of low-intensity ultrasound as an antidote to taxanes may have the potential to provide a practical and compelling strategy to counter alopecia in cancer treatment using taxanes. Tweet: Taxanes (paclitaxel/docetaxel) are powerful microtubule-stabilizing cancer drugs, but they also cause adverse effects, including alopecia. New research discoveries of temporary microtubule disruption by low-intensity ultrasound may counteract taxane toxicity and prevent alopecia during cancer chemotherapy. “Mechanistic-based strategies for the prevention of taxane-induced hair follicle damage in cancer chemotherapy” OUTLINE: 1. Taxane/paclitaxel mechanism of action in cancer therapy. 2. Taxane side effects: Alopecia (hair loss). 3. p53 dependence of taxane-induced hair follicle damage. 4. Research efforts to counter taxane -induced alopecia by CDK4/6i. 5. Prevention of taxane chemotherapy side effects using scalp cooling. 6. Discovery of low-intensity ultrasound as an antidote for taxane cytotoxicity, and potential prevention of alopecia in chemotherapy using taxanes. 7. Summary and prospective.
Amaya et al. (Thu,) studied this question.