Pip-HoGu: An Artificial Assembly with Cooperative DNA Recognition Capable of Mimicking Transcription Factor Pairs

摘要

Cooperation between pairs of transcription factors (TFs) has been widely demonstrated to play a pivotal role in the spatiotemporal regulation of gene expression, but blocking cooperative TF pair–DNA interactions synergistically has been challenging. To achieve this, we designed programmable DNA binder pyrrole-imidazole polyamides conjugated to host–guest assemblies ( Pip-HoGu ) to mimic the cooperation between natural TF pairs. By incorporating cyclodextrin (Cyd)–adamantane (Ada), we synthesized Ada1 (PIP1-Ada) and Cyd1 (PIP2-Cyd), which were evaluated using T _(m), EMSA, competitive, and SPR assays and molecular dynamics studies. The results consistently demonstrated that Pip-HoGu system formed stable noncovalent cooperative complexes, thereby meeting key criteria for mimicking a TF pair. The system also had a longer recognition sequence (two-PIP binding length plus gap distance), favorable sequence selectivity, higher binding affinity, and in particular, a flexible gap distance (0–5 bp). For example, Ada1 – Cyd1 showed thermal stability of 7.2 °C and a minimum free energy of interaction of −2.32 kcal·mol~(–1) with a targeting length of 14 bp. Furthermore, cell-based evaluation validated the capability of Pip-HoGu to exhibit potent cooperative inhibitory effects on gene expression under physiological conditions by disrupting TF pair–DNA function. In conclusion, the modular design of Pip-HoGu defines a general framework for mimicking naturally occurring cooperative TF pair–DNA interactions that offers a promising strategy for applications in the precise manipulation of cell fate.