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CD4+ skin cells may be precursors to basal cell carcinoma.

A specific enzyme is essential for proper hair follicle stem cell development and healthy skin.

Shi-Bi-Man activates hair follicle stem cells and promotes hair growth by changing lactic acid metabolism and other cellular processes.

Skin stem cells are crucial for maintaining and repairing skin, with potential for treating skin disorders and improving wound healing.

M2 macrophages help hair regrowth in wounds by making growth factors.

Cyclosporin A and FK506 can start new hair growth in mice, but ascomycin and rapamycin cannot.

Understanding phenotypic plasticity is crucial for developing effective cancer therapies.

Half of people with Alopecia Areata may see hair regrowth within a year without treatment, but recovery is unpredictable.

SKPs are similar to adult skin stem cells and could help in skin repair and hair growth.

Increasing mir-302 turns human hair cells into stem cells by changing gene regulation and demethylation.

Different types of skin cells play specific roles in development, healing, and cancer.

Hair follicle stem cells are key for hair and skin regeneration, can be reprogrammed, and have potential therapeutic uses, but also carry a risk of cancer.

Tight junctions are key for skin protection and controlling what gets absorbed or passes through the skin.

Memory T cells in the skin balance staying put and moving into the blood, clustering around hair follicles, and increasing in number after infection.

Skin aging is due to impaired stem cell mobilization or fewer responsive stem cells.

Memory regulatory T cells need IL-7, not IL-2, to stay in peripheral tissues.

Periodontal ligament stem cells show promise for regrowing tissues but require more research for safe, effective use.

Exosomes could potentially enhance tissue repair and regeneration with lower rejection risk and easier production than live cell therapies.

Fat-derived stem cells show promise for skin repair and reducing aging signs but need more research for consistent results.

TGF-β signaling is crucial for stem cell maintenance, differentiation, and has implications for cancer treatment.

Grafted rodent and human cells can regenerate hair follicles, but efficiency decreases with age.

Low-oxygen conditions and ECM degradation products increase the healing abilities of perivascular stem cells.

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

Different scaffold patterns improve wound healing and immune response in mouse skin, with aligned patterns being particularly effective.

Hair follicle stem cells are a promising source for tissue repair and treating skin or hair diseases.

People with alopecia areata have more Th17 cells and fewer Treg cells, which may be key to the condition's development.

Fat from the body can help improve hair growth and scars when used in skin treatments.

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

Both mouse and rat models are effective for testing alopecia areata treatments.

Improving the environment and cell interactions is key for creating human hair in the lab.