Part:BBa_K5062008

5th Generation Chimeric Antigen Receptor (CAR) targeting GPC-3

Sequence and Features

Overview

This is a Chimeric Anigen Receptor targeting GPC3 built for human macropages. It uses a traditional scFv for antigen recognition, costimulatory domains to enhance phagocytosis, a control switch modulated by trimethoprim (TMP) and IFNγ as an polarisation factor keeping macrophages in an anti-tumor M1 state while guiding tumor-associated macropages from M2 towards M1 as well.

Usage and Features

This sequence encodes an entire CAR polyprotein used for testing. Due to the complexity of this protein, it is unable to be cloned via the iGEM cloning standards. Rather, we recommend designing primers to clone this on to subsequent systems via NEBuilder as done by HKU-HongKong. Further, by using primers the RFP mCherry XL can also be removed allowing for removal if desired for use in downstream clinical applications.

This 5th Generation Chimeric Antigen Receptor has the following features:

• Optimized human co-stimulatory domains with CD19-FcγR Tandem and MegF10 inspired from the work of Morrissey, M. A. et al. (2018) and their work with mouse phagocytes. These co-stimulatory domains enhance phagocytosis, trogocytosis, engulfment of large targets, antigen presentation and macrophage micration.
• Human IFNγ Armouring Domain allowing for the sustained M1 poloarization of macrophages enforcing their anti-tumor effect (Jorgovanovic et al., 2020). The co-expression of IFNγ also allows for the reprogramming of nearby tumor-associated macropahges (TAMs) within the tumor microenvironment (TME).
• Variable control switch modulated by trimethoprim (TMP). A highlight of the 5th Generation CAR is the ability to control the strength of CAR expression by leveraging TMP-stabilized DD-L7Ae to trigger a strong conformational in 2x kink turn sequences on RNA, we are able to vary the concentration of TMP to effectively vary the strength of expression

Components and Architecture

• 2x Kink Turn - BBa_K4696005
• Kozak Sequence - BBa_K4344028
• CD8 Signal Peptide - BBa_K2549044
• CD8 Hinge Domain - BBa_K5017003
• CD28 Transmembrane Domain - BBa_K4803006
• Human CD19-FcγR Tandem - BBa_K5062006
• Human MegF10 - BBa_K5062005
• P2A self-cleaving sequence - BBa_K1442039
• Human IFNγ Armouring Domain - BBa_K4696020
• DD-L7Ae - BBa_K5062002
• mCherry XL RFP - BBa_K4241792

Results

In vitro characterisation of this part is currently ongoing prior to the wiki freeze. Full part characterisation is expected by the 2024 iGEM Giant Jambouree.

The study by Morrissey, M. A. et al. (2018) depics the improvement in phagocytotic ability with co-stimulatory domains such as FcγR and MegF10

The study by Cafferty, S. M. et al. (2020) depics the increase in expression as TMP decreases demonstrating the shut-off effect of this system.

References

Cafferty, S. M., De Temmerman, J., Kitada, T., Becraft, J. R., Weiss, R., Irvine, D. J., Devreese, M., De Baere, S., Combes, F., & Sanders, N. N. (2021). In vivo validation of a reversible small Molecule-Based switch for synthetic Self-Amplifying mRNA regulation. Molecular Therapy, 29(3), 1164–1173. https://doi.org/10.1016/j.ymthe.2020.11.010

Jorgovanovic, D., Song, M., Wang, L., & Zhang, Y. (2020). Roles of IFN-γ in tumor progression and regression: a review. Biomarker Research, 8(1). https://doi.org/10.1186/s40364-020-00228-x

Morrissey, M. A., Williamson, A. P., Steinbach, A. M., Roberts, E. W., Kern, N., Headley, M. B., & Vale, R. D. (2018). Chimeric antigen receptors that trigger phagocytosis. eLife, 7. https://doi.org/10.7554/elife.36688

Wagner, T. E., Becraft, J. R., Bodner, K., Teague, B., Zhang, X., Woo, A., Porter, E., Alburquerque, B., Dobosh, B., Andries, O., Sanders, N. N., Beal, J., Densmore, D., Kitada, T., & Weiss, R. (2018). Small-molecule-based regulation of RNA-delivered circuits in mammalian cells. Nature Chemical Biology, 14(11), 1043–1050. https://doi.org/10.1038/s41589-018-0146-9