Case 2018-189
UCLA researchers in the departments of Molecular, Cell & Developmental Biology and Biological Chemistry have elucidated a novel mechanism by which pyruvate oxidation can be inhibited in order to promote hair growth.
BACKGROUND
The global market for aging-related hair loss will grow to over $1.4 billion by 2020. However, commercially available products that combat hair thinning or balding have variable efficacy among users. Further, the targets of these products are either unknown or alter hormonal pathways, which may have undesirable side effects, such as the up-regulation of signaling pathways associated with cancerous growth. A hair loss remedy that has a higher success rate than current treatments and minimal side effects would greatly increase consumer satisfaction with and usage of hair loss treatments.
INNOVATION
The inventors have discovered that topical application of known electron transport chain (ETC) inhibitors stimulates the hair cycle. This work shows that pharmacological abrogation of ETC activity, rather complete ablation of ETC, can promote hair cycle activation without significant cell toxicity. Metabolic data suggest that ETC inhibition leads to increased pyruvate accessibility for the Ldh enzyme and therefore increased lactate production, which has been previously shown to promote hair cycle activation.
APPLICATIONS
Hair growth treatment
ADVANTAGES
- Topical application
- Operates via a novel mechanism of action not associated with cancerous growth
STATE OF DEVELOPMENT
The inventors have demonstrated hair follicle stem cell activation upon topical application of ETC inhibitors in mice, which was confirmed by macroscopic observation of skin pigmentation (a sign of hair cycle induction) and tissue pathology. Topical application of these inhibitors also led to complete hair regrowth across the entire backskin of pre-shaved aged mice. Metabolomics showed increases in lactate pool levels, which supports activation of hair follicle stem cells via cell intrinsic regulation.
RELATED MATERIALS
Miranda, M.; Christofk, H.; Jones, D. L.; Lowry, W. E. Topical inhibition of the electron transport chain can stimulate the hair cycle. J. Invest. Dermatol. 2017, DOI: 10.1016/j.jid.2017.10.021.