Part:BBa_K3924009

tkip

Sequence and Features

Profile

Name: tkip
Base Pairs: 39bp
Origin: Synthetic
Properties: Synthetic short peptide with therapeutic effect on IBD.

Usage and Biology

In order to heal the intestinal tract damage, one of notable symptoms of IBD, we adopted a special therapy expressing the therapeutic proteins controllably by E.coli Nissle 1917 (EcN) in situ. The design is based on a ternary system: sensor - secretion peptide - therapeutic proteins.

Fig.1 General design of the treatment ternary system

Tkip is one of the candidate therapeutic proteins we screened out to treat IBD, which is the effector element in the ternary system. It is the first SOCS1 mimetic peptide. Suppressor of Cytokine Signaling proteins (SOCS) are negative-feedback regulators of the JAK/STAT pathway by reducing the phosphorylation of JAKs and STATs, the consequent dimerization of STATs, and their import into the nucleus, limiting the expression of pro-inflammatory genes.

Design and Construction

According to literature research we chose 10 candidate proteins for IBD treatment.
Table 1. List of candidate therapeutic proteins

The sequence of tkip is acquired from the lecture.

Functional Verification

Fig 2. The scheme of the proof-of-concept for therapeutic proteins.

All of these proteins are worth studying, but we only chose a few proteins as a proof of concept in our actual wet lab experiments because of the time limit and the high expense of gene synthesis.
For all candidate therapeutic proteins we did codon analysis with our own software tool.(Fig 3)

Fig 3. Codon preference confident analysis of all candidate therapeutic proteins(Compared with GenSmart).

As for tkip, the result of codon preference is shown in Fig 4.

Fig 4. Codon preference confident analysis of tkip.

Reference

[1] Aamann, L., Vestergaard, E. M., & Grønbæk, H. (2014). Trefoil factors in inflammatory bowel disease. World journal of gastroenterology, 20(12), 3223–3230.
[2] Praveschotinunt, P., Duraj-Thatte, A.M., Gelfat, I. et al. Engineered E. coli Nissle 1917 for the delivery of matrix-tethered therapeutic domains to the gut. Nat Commun 10, 5580 (2019).
[3] La Manna, S., Di Natale, C., Florio, D., & Marasco, D. (2018). Peptides as Therapeutic Agents for Inflammatory-Related Diseases. International journal of molecular sciences, 19(9), 2714.
[4] Li, M. C., & He, S. H. (2004). IL-10 and its related cytokines for treatment of inflammatory bowel disease. World journal of gastroenterology, 10(5), 620–625.
[5] Shukla, P.K., Meena, A.S., Rao, V. et al. Human Defensin-5 Blocks Ethanol and Colitis-Induced Dysbiosis, Tight Junction Disruption and Inflammation in Mouse Intestine. Sci Rep 8, 16241 (2018).
[6] Duan, L., Rao, X., Braunstein, Z., Toomey, A. C., & Zhong, J. (2017). Role of Incretin Axis in Inflammatory Bowel Disease. Frontiers in immunology, 8, 1734.
[7] Zhu, Y. , Jie, Z. , Yi, F. , Chen, L. , Zhang, L. , & Fei, Y. , et al. (2018). Control of intestinal inflammation, colitis-associated tumorigenesis, and macrophage polarization by fibrinogen-like protein 2. Frontiers in Immunology, 9, 87-.
[8] Guidi, L., Mocci, G., Marzo, M., & Rutella, S. (2008). Treatment of Crohn's disease with colony-stimulating factors: An overview. Therapeutics and clinical risk management, 4(5), 927–934.
[9] Vanz, A. L. , Renard, G. , Palma, M. S. , Chies, J. M. , Dalmora, S. L. , & Basso, L. A. , et al. (2008). Human granulocyte colony stimulating factor (hg-csf): cloning, overexpression, purification and characterization. Microbial Cell Factories, 7(1), 1-12.
[10] Malekian, R., Jahanian-Najafabadi, A., Moazen, F., Ghavimi, R., Mohammadi, E., & Akbari, V. (2019). High-yield Production of Granulocyte-macrophage Colony-stimulating Factor in E. coli BL21 (DE3) By an Auto-induction Strategy. Iranian journal of pharmaceutical research : IJPR, 18(1), 469–478.
[11] Koeninger, L. , Armbruster, N. S. , Brinch, K. S. , Kjaerulf, S. , & Wehkamp, J. . (2020). Human β-defensin 2 mediated immune modulation as treatment for experimental colitis. Frontiers in Immunology, 11, 93.