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Chronic stress in mice changes skin metabolism and gene expression, leading to hair loss.

Activating TRPV4 in skin cells helps regrow hair in mice, possibly offering a treatment for hair loss.

HSPGs help control stem cell behavior, affecting hair growth and offering a target for hair loss treatments.

Researchers discovered new cell types in goat hair follicles that could help understand hair regrowth and human hair loss.

Polyamines are important in deciding hair follicle stem cell behavior, affecting hair growth and loss.

Nanostructured lipid carriers effectively deliver tofacitinib to hair follicles, reversing hair loss in alopecia areata.

A new method using a microfluidic device can prepare hair follicle germs efficiently for potential use in hair loss treatments.

Disrupted cholesterol production impairs hair follicle stem cells, leading to hair loss.

The study found that aging hair follicle stem cells change behavior, leading to hair loss, but drugs targeting these cells may help restore hair growth.

IL-9/IL-9R signaling can negatively affect human hair growth and may be a target for treating hair loss conditions.

Melatonin may help improve hair growth in people with certain types of hair loss.

Stress in hair follicle cells increases certain immune-related proteins, which might contribute to hair loss conditions.

New hair can grow at wound sites, which could help improve treatments for hair loss and wound healing.

Stem cells can create hair follicles, potentially treating permanent hair loss, and healthy skin and hair depend on mitochondrial function and special fats.

Alopecia areata is an autoimmune condition causing hair loss due to the immune system attacking hair follicles, often influenced by genetics and stress.

Hair follicles are normally protected from the immune system, but when this protection fails, it can cause hair loss in alopecia areata.

Androgens increase a growth factor in hair cells by creating reactive oxygen species, and antioxidants might help treat hair loss.

PDGF signaling is crucial for maintaining and renewing hair follicle stem cells, which could help treat hair loss.

Hair can regrow in large wounds through a process similar to how hair forms in embryos, and understanding this could lead to new treatments for hair loss or scarring.

Some plants with flavonoids may help treat hair loss and promote hair growth.

Insulin or IGF-I is needed for hair growth in newborn mice, while minoxidil helps adult mouse hair grow, suggesting a way to study human hair loss.

Scientists have created a method to deliver specific cells that can regenerate hair follicles, potentially offering a new treatment for hair loss.

Key genes crucial for sheep hair follicle development were identified, aiding fine wool breeding and human hair loss research.

The study suggests that a new protease inhibitor can make hair harder to pull out, potentially reducing hair loss.

Researchers found genes linked to hair growth cycles in Inner Mongolia cashmere goats, which could help understand and treat hair loss.

Dihydrotestosterone treatment on 2D and 3D-cultured skin cells slows down hair growth by affecting certain genes and could be a potential target for hair loss treatment.

Histone H4, released by cells exposed to colchicine, can cause hair loss by inhibiting cell growth and enzyme activity.

Human hair cells can be used to grow new hair on rat ears, suggesting a possible treatment for hair loss.

Blocking miR-27a increases sheep hair follicle stem cell growth and decreases cell death, which could help improve wool quality and treat hair loss.

Hair loss in a drug reaction case involved both a common shedding phase and an immune attack on hair follicle stem cells.