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The document concludes that hair loss is complex, affects many people, has limited treatments, and requires more research on its causes and psychological impact.

Nanog gene boosts stem cells, helps hair growth, and may treat hair loss.

CXCL12 protein slows down hair growth through its receptor CXCR4. Blocking this can potentially increase hair growth.

Changes in prolactin and DHEA levels are not required for the start of mink hair growth cycles.

Autophagy helps control skin inflammation and cancer responses and regulates hair growth by affecting stem cell activity.

Type 2 immunity helps control mite growth in hair follicles, preventing damage.

TLR2 helps control hair growth and regeneration, and its reduction with age or obesity can impair hair growth.

Wnt10b overexpression can regenerate hair follicles, possibly helping treat hair loss and alopecia.

Gonadal hormones significantly affect the severity of alopecia areata in mice.

Mice treatments didn't grow hair, a patient treatment may affect immune response, and people with hair loss often feel anxious or depressed.

β-catenin in the dermal papilla is crucial for normal hair growth and repair.

The Msi2 protein helps keep hair follicle stem cells inactive, controlling hair growth and regeneration.

The circadian clock affects skin stem cell behavior, impacting aging and cancer risk.

Human hair follicle stem cells can be isolated using specific markers for potential therapeutic use.

Understanding hair follicle development can help treat hair loss, skin regeneration, and certain skin cancers.

Hair follicles are key to treating vitiligo and alopecia areata, but challenges exist.

Researchers successfully isolated and identified key markers of stem cell-enriched human hair follicle bulge cells.

Different genes and pathways are active in yak skin and hair cells, affecting hair growth and immune responses.

Stem cells, especially from fat tissue and Wharton's jelly, can potentially regenerate hair follicles and treat hair loss, but more research is needed to perfect the treatment.

mTORC1 activity is important for hair growth and color, and targeting it could help treat hair loss and greying.

Hair restoration has evolved from surgery to drugs to potential gene therapy, with improved results and ongoing research driven by high demand.

Skin fat has important roles in hair growth, skin repair, immune defense, and aging, and could be targeted for skin and hair treatments.

Wnt signaling is crucial for pigmented hair regeneration by controlling stem cell activation and differentiation.

Plant extracts may help prevent or reverse hair graying.

EdnrB signaling helps melanocyte stem cells regenerate and could be targeted to treat pigmentation issues.

Future hair loss treatments should aim to extend hair growth, reactivate resting follicles, reverse shrinkage, and possibly create new follicles, with gene therapy showing promise.

Hair follicles are complex, dynamic mini-organs that help us understand cell growth, death, migration, and differentiation, as well as tissue regeneration and tumor biology.

Hair loss in Androgenetic Alopecia is not caused by damage to follicular stem cells.

Hair color is determined by different melanins and changes with age.