School of life sciences, Tianjin University, Tianjin, China.
The Cancer Hospital of the University of Chinese Academy of Sciences (Zhejiang Cancer Hospital), Institute of Basic Medicine and Cancer (IBMC), Chinese Academy of Sciences, Hangzhou, Zhejiang, China.
J Clin Pathol. 2024 Nov 19;77(12):853-860. doi: 10.1136/jcp-2023-208974.
Pancreatic ductal adenocarcinoma (PDAC) is highly malignant, with shockingly mortality rates. KRAS oncoprotein is the main molecular target for PDAC. Liquid biopsies, such as the detection of circulating tumour DNA (ctDNA), offer a promising approach for less invasive diagnosis. In this study, we aim to evaluate the precision and utility of programmable enzyme-based selective exponential amplification (PASEA) assay for rare mutant alleles identification.
PASEA uses CRISPR-Cas9 to continuously shear wild-type alleles during recombinase polymerase amplification, while mutant alleles are exponentially amplified, ultimately reaching a level detectable by Sanger sequencing. We applied PASEA to detect KRAS mutations in plasma ctDNA. A total of 153 patients with stage IV PDAC were enrolled. We investigated the relationship between ctDNA detection rates with various clinical factors.
Our results showed 91.43% vs 44.83% detection rate in patients of prechemotherapy and undergoing chemotherapy. KRAS ctDNA was more prevalent in patients with liver metastases and patients did not undergo surgical resection. Patients with liver metastases prior to chemotherapy showed a sensitivity of 95.24% (20/21) with PASEA. Through longitudinal monitoring, we found ctDNA may be a more accurate biomarker for monitoring chemotherapy efficacy in PDAC than CA19-9.
Our study sheds light on the potential of ctDNA as a valuable complementary biomarker for precision targeted therapy, emphasising the importance of considering chemotherapy status, metastatic sites and surgical history when evaluating its diagnostic potential in PDAC. PASEA technology provides a reliable, cost-effective and minimally invasive method for detecting ctDNA of PDAC.
胰腺导管腺癌(PDAC)恶性程度高,死亡率惊人。KRAS 癌蛋白是 PDAC 的主要分子靶点。液体活检,如循环肿瘤 DNA(ctDNA)的检测,为微创诊断提供了有前途的方法。本研究旨在评估可编程酶基选择性指数扩增(PASEA)检测稀有突变等位基因的精确性和实用性。
PASEA 使用 CRISPR-Cas9 在重组酶聚合酶扩增过程中连续剪切野生型等位基因,而突变等位基因则呈指数扩增,最终达到 Sanger 测序可检测的水平。我们应用 PASEA 检测血浆 ctDNA 中的 KRAS 突变。共纳入 153 例 IV 期 PDAC 患者。我们研究了 ctDNA 检测率与各种临床因素的关系。
我们的结果显示,化疗前和化疗患者的检测率分别为 91.43%和 44.83%。KRAS ctDNA 在肝转移患者和未行手术切除的患者中更为常见。化疗前有肝转移的患者通过 PASEA 检测的敏感性为 95.24%(20/21)。通过纵向监测,我们发现 ctDNA 可能是监测 PDAC 化疗疗效比 CA19-9 更准确的生物标志物。
本研究表明 ctDNA 作为一种有价值的精准靶向治疗互补生物标志物具有潜力,强调在评估其在 PDAC 中的诊断潜力时,应考虑化疗状态、转移部位和手术史。PASEA 技术为检测 PDAC 的 ctDNA 提供了一种可靠、经济有效的微创方法。
