Part:BBa_K5234001

anti-CA125-scFv

This part encodes an antibody, anti-CA125 scFv.

Usage and Biology

by BWYA 2024

Our project addresses the critical need for enhanced risk screening and early detection of gynecological diseases. An array of biomarkers should be studied and included to tackle this challenge, and as a proof-of-concept, one of the biomarkers we studied, is CA125.

CA125 is mostly known as an indicator of ovarian cancer, while at the same time, its concentration shows abnormal elevations in many gynecological diseases, such as Endometriosis, Endometrial cancer, Adenomyosis, and etc. The diseases indicated by CA125 covers a wide range of population group.

To detect the biomarker, we intended to utilize the antigen-antibody binding mechanism. We believe this approach will lead to portable, non-invasive, and thus user-friendly gynecological care products.

Producing full-length antibodies is very challenging. To address this challenge, we opted for single-chain variable fragment (scFv) antibodies. They are minimal antigen-binding fragments, approximately 25 kDa. They are composed of the variable domains from both the heavy (VH) and light (VL) chains bridged by a linking sequence. The scFv antibodies can be more easily expressed in simple prokaryotic bacteria.

This part encodes a specific scFv, anti-CA125-scFv. We selected humanized 4H11 (h4H11) antibody against the specific CA125 ectodomain. The ability of the 4H11 to recognize CA125 was proven experimentally by previous works in Fluorescence Activated Cell Sorting (FACs) [1].

We expressed the scFv with a strong T7 promoter, aided with a lac operator (LacO), all carried on a pET28a vector. The plasmid was transformed into E. coli (BL21) for expression. The bacteria strains were cultured in LB medium with proper antibiotics till the OD600 reached 0.6 - 0.8, and then 0.3 mM IPTG was added to induce expression. Incubate the bacteria culture overnight at 20°C with a 200 rpm. Transfer the bacterial culture to a centrifuge tube and subject it to ultrasonication at a power setting of 30W for 10 minutes. Following ultrasonication, centrifuge at 12,000 rpm for 5 minutes, then carefully aspirate and collect the supernatant into a fresh centrifuge tube. Resuspend the pellet with 1 mL of 20 mM Tris-HCl buffer. Perform SDS-PAGE validation assays on both the supernatant and the pellet.

Reference

[1] Lee, K., Perry, K., Xu, M. et al. Structural basis for antibody recognition of the proximal MUC16 ectodomain. J Ovarian Res 17, 41 (2024).

Sequence and Features