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Scientists have found specific genes linked to different hair loss conditions, which could lead to new treatments.

Melatonin receptors in hair follicles help regulate hair growth and could treat hair loss.

Finasteride affects frog testes by increasing testosterone, decreasing 5α-DHT, and impacting genes related to reproduction and other functions.

The research reveals how early embryonic mouse skin develops from simple to complex structures, identifying various cell types and their roles in this process.

SCDSFs from zebrafish embryos are beneficial for treating cancer, regenerating tissues, and improving conditions like psoriasis and alopecia.

Hemp seed biomaterials may reduce hair loss and improve hair growth.

Dandruff is linked to increased T cells and weakened immune protection in hair follicles.

Melatonin can increase cashmere yield by altering gene expression and restarting the growth cycle early.

Alopecia Areata is an autoimmune condition causing hair loss with no cure and treatments that often don't work well.

Dehydroepiandrosterone (DHEA) is a prohormone important for producing sex steroids and has potential health benefits.

Stem cell niches are crucial for regulating stem cell behavior and tissue health, and their decline can impact aging and cancer.

The document concludes that more research is needed to better understand and treat primary cicatricial alopecias, and suggests a possible reclassification based on molecular pathways.

Stem cells in the hair follicle are regulated by their surrounding environment, which is important for hair growth.

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

TRP channels in the skin are important for sensation and health, and targeting them could help treat skin disorders.

The document concludes that certain genetic mutations and dietary factors are involved in acne development, and treatments like isotretinoin and diet changes can help manage it.

Prolactin affects hair growth and skin conditions, and could be a target for new skin disease treatments.

Mammals might fail to regenerate not because they lack the right cells, but because of how cells respond to their surroundings, and changing this environment could enhance regeneration.

Animal models have helped understand hair loss from alopecia areata and find new treatments.

Lichen Planopilaris and Frontal Fibrosing Alopecia may help us understand hair follicle stem cell disorders and suggest new treatments.

Exosomes from dermal papilla cells help hair growth by making hair follicle stem cells multiply and change.

The document concludes that targeting the androgen receptor may be a promising breast cancer treatment, especially for certain types.

Nanoparticles can enter the skin, potentially causing toxicity, especially in damaged skin.

Lymphocytes, especially CD8+ T cells, play a key role in causing alopecia areata, and targeting them may lead to new treatments.

Stress may trigger hair loss by affecting immune protection in hair follicles.

A new mutation in the STING protein causes a range of symptoms and its severity may be affected by other genetic variations; treatment with a specific inhibitor showed improvement in one patient.

Plasmacytoid dendritic cells are a key factor in causing hair loss in alopecia areata and could help differentiate it from other hair loss conditions.

Activating Notch in adult skin causes T cells and neural crest cells to gather, leading to skin issues.

Hair follicles on the scalp interact with and respond to the nervous system, influencing their own behavior and growth.

Understanding glycans and enzymes that alter them is key to controlling hair growth.