70 citations
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August 2006 in “Cancer Research” AP-1 controls tumor cell type by affecting key signaling pathways.
January 2026 in “Biomedicines” Dysregulated lipid metabolism may play a role in male pattern baldness.
July 2020 in “bioRxiv (Cold Spring Harbor Laboratory)” The structure of SRD5A reveals how it reduces steroids, aiding drug design for related health conditions.
60 citations
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March 2011 in “Proceedings of the National Academy of Sciences of the United States of America” RANK-RANKL signaling is essential for hair growth and skin health.
April 2016 in “Journal of Investigative Dermatology” Blocking Oncostatin M's role in the JAK-STAT pathway can stimulate hair growth in mice.
23 citations
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June 2016 in “FEBS Journal” Boosting β-catenin signaling in certain skin cells can enhance hair growth.
8 citations
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October 2020 in “International Journal of Molecular Sciences” Nonanal from fruits and vegetables promotes hair growth by increasing growth factors.
7 citations
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August 2024 in “Clinical and Experimental Dermatology” Upadacitinib is effective and safe for treating severe alopecia areata in teens.
26 citations
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July 2016 in “PLOS ONE” Activating β-catenin in certain skin cells speeds up hair growth in mice.
Higher TGF-β signaling may increase skin cancer risk in organ transplant recipients.
June 2011 in “Portuguese National Funding Agency for Science, Research and Technology (RCAAP Project by FCT)” Estrogens and androgens are crucial for male fertility.
Neonatal allopregnanolone and stress affect behavior differently in adolescence and adulthood.
August 2022 in “Regenerative Medicine” Adipose-derived stem cells show promise for cosmetic treatments but need more research.
April 2026 in “Current Opinion in Genetics & Development” RNA is crucial for controlling cell flexibility and regeneration.
January 2016 in “Research Explorer (The University of Manchester)” Activating the Eda/Edar pathway improves wound healing by enhancing hair follicle growth.
September 2025 in “Journal of Medicinal Chemistry” Targeting the Wnt/β-catenin pathway may lead to better treatments for hair loss.
10 citations
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February 2019 in “Journal of Cellular Biochemistry” Specific RNA patterns are linked to alopecia areata.
November 2022 in “Scientific Data” The research identified genes and non-coding RNAs in cells that could be affected by testosterone, which may help understand hair loss and prostate cancer.
May 2026 in “Premier journal of science.” Future treatments for hair loss may focus on personalized and regenerative approaches.
402 citations
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August 2011 in “Cancer research” Prostate cancer cells can make their own androgens to activate the androgen receptor, and treatments like abiraterone may increase this ability, suggesting new therapies should target the entire steroid-making pathway.
3 citations
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January 1992 in “Gynecological Endocrinology” 3α, 17β-androstanediol-glucuronide is not a useful marker for androgen excess but may help monitor certain treatments.
Sphingosine 1-phosphate helps control mechanical pain.
15 citations
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August 2022 in “The Application of Clinical Genetics” ABCD1 gene mutations cause adrenomyeloneuropathy, leading to symptoms like limb weakness and spasticity, with management focusing on rehabilitation and spasticity treatment.
63 citations
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May 2009 in “Dermato-endocrinology” Increased FGFR2b signaling, influenced by androgens, plays a role in causing acne.
December 2025 in “The Journal of Nutritional Biochemistry” Kaempferol may help treat hair loss by promoting hair growth and protecting hair cells.
1 citations
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October 2020 in “Research Square (Research Square)” Abnormal Wnt signaling in hair follicle stem cells can lead to acne-like cysts.
January 2025 in “Cell Communication and Signaling” CXXC5 can both suppress and promote cancer, making it a complex target for treatment.
The estrogen receptor pathway controls hair growth cycles and affects skin cell growth.
1 citations
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August 2025 in “Molecules” Hederagenin shows promise for cancer and inflammation treatment but needs modifications to improve effectiveness.
45 citations
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January 2012 in “The Journal of Steroid Biochemistry and Molecular Biology” Too much AKR1C3 enzyme causes resistance to finasteride by increasing testosterone.