Frontier Science Center for Synthetic Biology and Key Laboratory of Systems Bioengineering (Ministry of Education), Tianjin University, Tianjin, People's Republic of China.
School of Chemical Engineering and Technology, Tianjin University, Tianjin, People's Republic of China.
PLoS Genet. 2022 Dec 2;18(12):e1010518. doi: 10.1371/journal.pgen.1010518. eCollection 2022 Dec.
Cancer progression is associated with the evolutionary accumulation of genetic mutations that are biologically significant. Mutations of the androgen receptor (AR) are associated with the development of prostate cancer (PCa) by responding to non-androgenic hormones, and the lack of annotations in their responsiveness to hormone ligands remains a daunting challenge. Here, we have used a yeast reporter system to quickly evaluate the responsiveness of all fifty clinical AR mutations to a variety of steroidal ligands including dihydrotestosterone (DHT), 17β-estradiol (E2), progesterone (PROG), and cyproterone acetate (CPA). Based on an AR-driven reporter that synthesizes histidine, a basic amino acid required for yeast survival and propagation, the yeast reporter system enabling clonal selection was further empowered by combining with a random DNA mutagenesis library to simulate the natural evolution of AR gene under the selective pressures of steroidal ligands. In a time-frame of 1-2 weeks, 19 AR mutants were identified, in which 11 AR mutants were validated for activation by tested steroidal compounds. The high efficiency of our artificial evolution strategy was further evidenced by a sequential selection that enabled the discovery of multipoint AR mutations and evolution directions under the pressure of steroidal ligands. In summary, our designer yeast is a portable reporter module that can be readily adapted to streamline high-throughput AR-compound screening, used as a PCa clinical reference, and combined with additional bioassay systems to further extend its potential.
癌症的进展与具有生物学意义的遗传突变的进化积累有关。雄激素受体 (AR) 的突变通过对非雄激素激素的反应与前列腺癌 (PCa) 的发展有关,而其对激素配体反应的注释缺失仍然是一个艰巨的挑战。在这里,我们使用酵母报告系统快速评估了所有 50 种临床 AR 突变对各种甾体配体(包括二氢睾酮 (DHT)、17β-雌二醇 (E2)、孕酮 (PROG) 和醋酸环丙孕酮 (CPA))的反应性。基于一种 AR 驱动的报告基因,该报告基因合成组氨酸,这是酵母生存和繁殖所需的碱性氨基酸,通过与随机 DNA 诱变文库结合,使能够进行克隆选择的酵母报告系统进一步增强,以模拟 AR 基因在甾体配体选择性压力下的自然进化。在 1-2 周的时间内,鉴定出了 19 个 AR 突变体,其中 11 个 AR 突变体被测试的甾体化合物激活所验证。我们的人工进化策略的高效率还通过连续选择得到了进一步证明,该选择能够在甾体配体的压力下发现多点 AR 突变和进化方向。总之,我们设计的酵母是一种便携式报告模块,可以很容易地适应高通量 AR 化合物筛选,用作 PCa 临床参考,并与其他生物测定系统结合使用,进一步扩展其潜力。
