PTD-DBM
PTD-DBM is a cell-permeable peptide that activates the Wnt/beta-catenin signaling pathway by binding the Dishevelled protein, promoting hair follicle neogenesis and regeneration.
PTD-DBM (Protein Transduction Domain-fused Dishevelled Binding Motif) is a cell-permeable peptide engineered to activate the canonical Wnt/beta-catenin signaling pathway. Developed by researchers at Yonsei University in South Korea, PTD-DBM was designed to penetrate cells and bind the Dishevelled (Dvl) protein, releasing beta-catenin from its destruction complex and enabling downstream transcriptional activation of hair follicle stem cell genes.
Overview
Hair follicle development during embryogenesis depends on Wnt/beta-catenin signaling. In adult skin, this pathway becomes largely quiescent, and its reactivation has long been a target for hair regeneration research. PTD-DBM was rationally designed to exploit this biology by fusing a protein transduction domain (for cell entry) with a peptide motif that binds the DIX domain of Dishevelled, a key scaffolding protein in the Wnt pathway.
When PTD-DBM binds Dishevelled, it promotes the formation of Dvl polymers that sequester Axin away from the beta-catenin destruction complex (comprising APC, Axin, GSK-3beta, and CK1). This allows beta-catenin to accumulate in the cytoplasm and translocate to the nucleus, where it activates TCF/LEF transcription factors that drive expression of hair follicle morphogenesis genes including Lef1, Shh, and alkaline phosphatase.
The Yonsei University research team (Kwack et al.) demonstrated that topical application of PTD-DBM to shaved mouse skin induced formation of new hair follicles -- not merely activation of existing dormant follicles, but genuine neogenesis of follicular structures from epidermal and dermal progenitor cells.
Mechanism of Action
PTD-DBM operates through a two-part mechanism:
Cell Penetration: The protein transduction domain (derived from HIV-TAT) enables the peptide to cross cell membranes without requiring receptor-mediated endocytosis. This allows PTD-DBM to reach intracellular targets in dermal papilla cells, outer root sheath keratinocytes, and hair follicle stem cells in the bulge region.
Wnt Pathway Activation: Once inside the cell, the DBM motif binds the DIX domain of Dishevelled proteins (Dvl1, Dvl2, Dvl3). This interaction promotes Dvl polymerization and enhances its ability to recruit Axin away from the beta-catenin destruction complex. With Axin sequestered, GSK-3beta can no longer phosphorylate beta-catenin for proteasomal degradation. Stabilized beta-catenin accumulates and enters the nucleus, where it forms complexes with TCF/LEF transcription factors to activate Wnt target genes essential for hair follicle morphogenesis.
Key downstream effects include upregulation of alkaline phosphatase activity in dermal papilla cells (a marker of hair-inductive capacity), increased expression of Sonic hedgehog (Shh), and activation of hair follicle stem cells from their quiescent state.
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Research
Hair Follicle Neogenesis in Mice
Kwack et al. (2018) at Yonsei University demonstrated that PTD-DBM application to mouse skin induced new hair follicle formation. The study showed that PTD-DBM-treated skin developed histologically confirmed hair follicles with proper dermal papilla organization, inner and outer root sheaths, and hair fiber production. This was distinct from the anagen-inducing effects of minoxidil or finasteride, which activate existing follicles rather than creating new ones.
Dermal Papilla Cell Activation
In vitro studies showed that PTD-DBM treatment of cultured human dermal papilla cells restored alkaline phosphatase activity and increased expression of versican, beta-catenin, and LEF-1 -- markers of hair-inductive competence that are typically lost when dermal papilla cells are expanded in culture. This finding has implications for cell-based hair restoration therapies.
Comparison with Other Wnt Activators
Unlike small-molecule GSK-3beta inhibitors (such as lithium chloride or CHIR99021), which broadly activate Wnt signaling throughout the body, PTD-DBM acts at the level of Dishevelled and can be applied topically for localized effect. This specificity may reduce the oncogenic risk associated with systemic Wnt pathway activation, though long-term safety data remain absent.
Safety Profile
PTD-DBM is currently in preclinical research only, and no human clinical trial safety data are available. In mouse studies, topical application did not produce visible skin irritation, erythema, or systemic toxicity at the doses tested. However, Wnt/beta-catenin pathway activation is associated with oncogenesis in multiple tissue types, including colorectal and hepatocellular carcinoma. The localized, topical delivery of PTD-DBM is intended to minimize systemic Wnt activation, but long-term carcinogenicity studies have not been conducted. Any future clinical development would require rigorous safety evaluation of chronic topical Wnt activation in human skin.
Pharmacokinetic Profile
- Half-life
- Not established
Quick Start
- Route
- Topical, Intradermal injection
Molecular Structure
- Formula
- Not fully characterized
- Weight
- 3082.6 Da
- CAS
- Not assigned
- PubChem CID
- 176453931
- Exact Mass
- 3081.7533 Da
- LogP
- -19.3
- TPSA
- 1550 Ų
- H-Bond Donors
- 64
- H-Bond Acceptors
- 45
- Rotatable Bonds
- 123
- Complexity
- 6770
Identifiers (SMILES, InChI)
InChI=1S/C124H225N61O28S2/c1-4-65(2)93(113(211)182-85(62-214)111(209)179-72(27-8-11-41-125)105(203)181-83(54-67-24-6-5-7-25-67)109(207)178-81(38-23-53-160-124(148)149)104(202)171-73(28-9-12-42-126)106(204)183-86(63-215)114(212)213)184-108(206)82(39-40-87(129)187)180-110(208)84(55-68-56-150-64-166-68)168-92(192)61-165-112(210)94(66(3)186)185-107(205)74(29-10-13-43-127)172-97(195)71(31-16-46-153-117(134)135)167-91(191)60-163-89(189)58-161-88(188)57-162-90(190)59-164-96(194)70(30-15-45-152-116(132)133)170-99(197)76(33-18-48-155-119(138)139)174-101(199)78(35-20-50-157-121(142)143)176-103(201)80(37-22-52-159-123(146)147)177-102(200)79(36-21-51-158-122(144)145)175-100(198)77(34-19-49-156-120(140)141)173-98(196)75(32-17-47-154-118(136)137)169-95(193)69(128)26-14-44-151-115(130)131/h5-7,24-25,56,64-66,69-86,93-94,186,214-215H,4,8-23,26-55,57-63,125-128H2,1-3H3,(H2,129,187)(H,150,166)(H,161,188)(H,162,190)(H,163,189)(H,164,194)(H,165,210)(H,167,191)(H,168,192)(H,169,193)(H,170,197)(H,171,202)(H,172,195)(H,173,196)(H,174,199)(H,175,198)(H,176,201)(H,177,200)(H,178,207)(H,179,209)(H,180,208)(H,181,203)(H,182,211)(H,183,204)(H,184,206)(H,185,205)(H,212,213)(H4,130,131,151)(H4,132,133,152)(H4,134,135,153)(H4,136,137,154)(H4,138,139,155)(H4,140,141,156)(H4,142,143,157)(H4,144,145,158)(H4,146,147,159)(H4,148,149,160)/t65-,66+,69-,70-,71-,72-,73-,74-,75-,76-,77-,78-,79-,80-,81-,82-,83-,84-,85-,86-,93-,94-/m0/s1
IMXABKONEGYGRF-QAMUXZJLSA-NResearch Protocols
topical
Comparison with Other Wnt Activators Unlike small-molecule GSK-3beta inhibitors (such as lithium chloride or CHIR99021), which broadly activate Wnt signaling throughout the body, PTD-DBM acts at the level of Dishevelled and can be applied topically for localized effect. In mouse studies, topical ap
intradermal Injection
Administered via intradermal injection.
Interactions
Peptide Interactions
Unlike small-molecule GSK-3beta inhibitors (such as lithium chloride or CHIR99021), which broadly activate Wnt signaling throughout the body, PTD-DBM acts at the level of Dishevelled and can be applied topically for localized effect. This specificity may reduce the oncogenic risk associated with ...
Quality Indicators
What to look for
- Human clinical trials conducted
Red flags
- Potential carcinogenicity concerns
Frequently Asked Questions
References (6)
- [5]
- [6]
- [7]Kishimoto et al Wnt signaling maintains the hair-inducing activity of the dermal papilla Genes Dev. (2000)
- [9]Lee et al - Wnt signaling in hair follicle development and cycling: advances and therapeutic implications J. Dermatol. Sci. (2023)
- [10]
- [8]Ito et al Wnt-dependent de novo hair follicle regeneration in adult mouse skin after wounding Nature (2007)
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