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TD1, Transdermal peptide

TD1 is a short synthetic peptide(ACSSSPSKHCG)identified by in vivo phage display, facilitated efficient transdermal protein delivery through intact skin. Studies suggested that the peptide creates a transient opening in the skin barrier to enable macromolecular material to reach systemic circulation.

As the largest organ of the human body, skin provides a painless interface for systemic drug delivery. However, the permeability of foreign molecules, especially large hydrophilic molecules, across the stratum corneum in the outer skin surface is extremely low.In the last 50 years a large number of chemical penetration enhancers(CPEs), belonging to several different classes such as surfactants,fatty acids, fatty esters and Azone-like compounds, have enabledlimited skin permeation enhancement. But CPEs have the limitations to deliver large molecules,especially large hydrophilic proteins. Now, TD1 has fulfilled this formidable task.

Small, efficient, easy implementation etc, TD1 offer a powerful experimental methodology for the transdermal protein delivery . And its nature of polypeptide make it an undoubtedly nice biobrick in synthetic biology . In our project,we fuse TD1 with a varity of antigens(HBsAg(Hepatitis B virus),Ag85b(Mycobacterium tuberculosis),PAD4(Bacillus Anthracis)) and adjuvant so they can be delievered through the skin to provoke the immune response to achieve the goal of "Transdermal vaccine".

Usage and Biology

TD1 can facilitated transdermal protein delivery by Coadministration of it with target protein or fused with the target protein(always N-terminal).Studies shows that Coadministration of the peptide and insulin to the abdominal skin of diabetic rats resulted in elevated systemic levels of insulin and suppressed serum glucose levels for at least 11 h. Significant systemic bioavailability of human growth hormone was also achieved when topically coadministered with the peptide(figure 1).

Figure 1 Systemic protein drug delivery mediated by TD-1. (a) 125I-Insulin delivery. 125I -insulin (5,000,000 c.p.m.) was topically coadministered to normalrats with various amounts of TD-1. Radioactivity in the whole blood samples was measured at various time points after administration. (b,c) Delivery of therapeutic levels of insulin. Streptozotocin-induced diabetic rats were topically administered as shown, with the following dosing: TD-1, 500 mg; AP-1, 500 mg ; SLA/PP, 0.5% (wt/vol); porcine insulin, 70 mg, with the exception of subcutaneous treatment (14 mg). At various time points after administration, serum insulin concentration (b) and blood glucose level (c) were measured. Glucose levels were normalized against the initial (0 h) value. Mean ± s.e.m. (n ¼ 6 for glucose and n Z 3 for insulin). *P o 0.05, **P o 0.01, ***P o 0.001. (d,e) Dose-response of TD-1. Porcine insulin (70 mg) and various doses of TD-1 were topically coadministered to streptozotocin-induced diabetic rats. Serum insulin (d) and blood glucose (e) levels were measured before and 5 h after administration. Mean ± s.e.m. (n ¼ 6 for glucose and n Z 3 for insulin). (f) Transdermal delivery of human growth hormone. 500 mg of recombinant human growth hormone (495% pure) was topically coadministered to dexamethasone-treated rats with AP-1, two different doses of TD-1, or saline as indicated. At various time points after administration, serum growth hormone levels were measured. Mean ± s.e.m. (n Z 3) *P o 0.05.

The transdermal-enhancing activity of the peptide was sequence specific(figure 2) and dose dependent, did not involve direct interaction with target proteins(figure 3).

figure 2 Transdermal activity of TD-1 peptide variants

figure 3 Exploring TD-1’s mode of action. (a) TD-1 does not bind insulin directly. 125I-insulin was added to ELISA microwell plates precoated with increasing amounts of TD-1 (left panel) or an insulin antibody (right panel), and bound radioactivity was determined after washing. (b) Delivery of different molecular forms of insulin by TD-1. 500 mg of TD-1 and 200 mg of insulin were administered to the abdominal skin of streptozotocin-induced diabetic rats in 100 ml saline (after adjusting the pH to 2.0, 3.0 and 7.0, respectively), and serum insulin was measured before and 5 h after administration. (c,d) Timelapse effect of TD-1. TD-1 (500 mg) in 100 ml of saline was administered to the abdominal skin of streptozotocin-induced diabetic rats and left for 5 min. The skin area was then carefully washed with an excess of saline. After various waiting periods, porcine insulin (70 mg in 100 ml saline) was administered to the same skin site. Serum insulin (c) and blood glucose (d) levels were measured before TD-1 treatment and 5 h after insulin administration. Coadministration (CO) of TD-1 (500 mg) and insulin (70 mg) served as the control. Mean ± s.e.m., (n ¼ 6 for glucose and n Z 3 for insulin).

When you fuse TD1 with your target proteins, N-terminal modified and a linker of GGGS are recommended.

References

Chen, Y.P., et al., Transdermal protein delivery by a coadministered peptide identified via phage display. Nature biotechnology, 2006. 24(4): p. 455-460.

Sequence and Features