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Hormones and their receptors, especially androgens, play a key role in hair growth and disorders like baldness.

Androgens prevent hair growth by changing Wnt signals in cells.

The protein SLC1A3 is important for activating skin stem cells and is necessary for normal hair and skin growth in mice.

Nanomaterials in biomedicine can improve treatments but may have risks like toxicity, needing more safety research.

Antiandrogens have important biological effects, but more research is needed to understand them fully and compare their effectiveness and side effects to other treatments.

Current research explores hair growth drugs, while future research aims for personalized treatments.

Harlequin mutant mice have hair loss due to low AIF protein levels and retroviral element activity.

Hair follicle development is controlled by interactions between skin tissues and specific molecular signals.

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

Apoptosis is essential for human skin development and forming a functional epidermis.

Cepharanthine is a well-tolerated drug with multiple medical uses, including anti-inflammatory and anti-cancer properties.

We need more research to better understand human hair follicle stem cells for improved treatments for hair loss and skin cancer.

MicroRNA-214 is important for skin and hair growth because it affects the Wnt pathway.

YAP and TAZ proteins are necessary for the development of two types of skin cancer.

Maintaining DNA health in stem cells is key to preventing aging and tissue breakdown.

Cancer can hijack the body's cell repair system to promote tumor growth, and targeting this process may improve cancer treatments.

Apoptosis is crucial for healthy skin and treating skin diseases.

Disruptions in hair follicle fibroblast dynamics can cause hair growth problems.

The document concludes that recognizing and properly diagnosing lipodystrophy syndromes is crucial for effective management and treatment.

A gene called HDAC9 might be a new factor in male-pattern baldness.

DNA variants can predict male pattern baldness, with higher risk scores increasing baldness likelihood.

Hair diversity is influenced by complex genetics and environmental factors, requiring more research for practical solutions.

Genes play a significant role in male-pattern baldness, and understanding them could lead to new treatments and insights into related health issues.

Skin organoids are a promising new model for studying human skin development and testing treatments.

Smad4 is important for healthy hair follicles because it helps produce a protein needed for hair to stick together and grow.

Genetic research has advanced our understanding of skin diseases, but complex conditions require an integrative approach for deeper insight.

Less AgNOR protein production is linked to hair loss.

Using polyethylenimine-DNA to deliver the hTERT gene can stimulate hair growth and may be useful in treating hair loss, but there could be potential cancer risks.

Temporary ROS production in cultured human hair follicles promotes growth and stem cell activation.

Hair loss is significantly linked to lower levels of certain genes in hair follicles.