ISLAMABAD: A study of a rare genetic disease may have yielded a cure for hair graying and baldness, after researchers unintentionally discovered the mechanisms that give rise to the conditions.
Study co-author Dr. Lu Le, of the Harold C. Simmons Comprehensive Cancer Center at the University of Texas Southwestern in Dallas, and colleagues set out to investigate a disorder called neurofibromatosis type 1 (NF1), a genetic condition whereby tumors grow on nerves.
The aim of the study was to discover the mechanisms behind tumor growth in NF1. Instead, the researchers identified the processes responsible for hair loss and graying, a discovery that could lead to new treatments for the conditions.
In their study, Dr. Le and team found that once stem cells move to the base of hair follicles, a protein called KROX20 - better known for its role in nerve development - is activated in skin cells that form hair shafts, known as hair progenitor cells.
The researchers found that when KROX20 is activated, the hair progenitor cells produce SCF, which they discovered is crucial for hair pigmentation.
In mice with skin cells that possessed both KROX20 and SCF, the researchers found that the skin cells communicated with melanocyte cells to form pigmented hairs.
Melanocyte cells produce melanin, the pigment that gives color to the skin, hair, and eyes.
When the researchers deleted SCF in the mice, the researchers found that the rodents grew gray hairs, and these hairs turned white with age. When KROX20-producing cells were erased, the mice did not grow any hair.
The researchers say that their findings indicate that abnormalities in KROX20 and SCF play a significant role in hair loss and graying, though studies in humans are required to confirm their results.
Still, Dr. Le and colleagues believe that their findings show promise for the development of new therapies for baldness and hair graying.
Although this project was started in an effort to understand how certain kinds of tumors form, we ended up learning why hair turns gray and discovering the identity of the cell that directly gives rise to hair.
With this knowledge, we hope in the future to create a topical compound or to safely deliver the necessary gene to hair follicles to correct these cosmetic problems."