Zhao Yu, Zhou Chengcheng, Zuo Ling, Yan Haoming, Gu Yuhan, Liu Hong, Yu Guiping, Zhou Xiaorong
Department of Immunology, Medical School of Nantong University, 19 Qixiu Road, Nantong, 226000, China.
Department of Hematology, Affiliated Hospital and Medical School of Nantong University, Nantong, China.
BMC Cancer. 2025 Jan 8;25(1):36. doi: 10.1186/s12885-024-13395-z.
Recent advancements in contemporary therapeutic approaches have increased the survival rates of lung cancer patients; however, the long-term benefits remain constrained, underscoring the pressing need for novel biomarkers. Surfactant-associated 3 (SFTA3), a long non-coding RNA predominantly expressed in normal lung epithelial cells, plays a crucial role in lung development. Nevertheless, its function in lung adenocarcinoma (LUAD) remains inadequately understood.
Single-cell RNA sequencing data were utilized to identify novel cancer cell-intrinsic gene signatures associated with the progression of LUAD, and their roles in LUAD were comprehensively analyzed. Serum samples were collected to quantify the expression levels of SFTA3 in LUAD patients. Furthermore, a series of biological experiments, including cell viability assays, scratch wound healing assays, and colony formation assays, were conducted to demonstrate the tumor-suppressive effects of SFTA3. RNA sequencing was performed to elucidate the molecular mechanisms underlying the role of SFTA3 in lung cancer cells.
We constructed a prognostic model comprising eight genes: ALDOA, ATP5MD, SERPINH1, SFTA3, SLK, U2SURP, SCGB1A1, and SCGB1A3. The model effectively stratified patients into high- and low-risk categories, revealing that low-risk patients experienced superior clinical outcomes, exhibited an immunologically hot tumor microenvironment (TME), and had a greater probability of responding to immunotherapy. In contrast, the high-risk group exhibited a cold TME and may benefit more from chemotherapy. Furthermore, our study revealed that a progressive decrease in SFTA3 expression in cancer cells was correlated with tumor advancement. Notably, the serum levels of SFTA3 significantly decreased in patients with LUAD, suggesting its potential utility in liquid biopsy for LUAD diagnosis. Additionally, the knockdown of SFTA3 enhances the proliferation and migration of lung cancer cells, whereas its overexpression inhibits these phenotypes. The epithelial-mesenchymal transition pathway was significantly enriched following SFTA3 silencing, suggesting that SFTA3 may impact tumor progression by modulating this process. We also identified key transcription factors and epigenetic mechanisms implicated in the downregulation of SFTA3 in LUAD.
We developed a robust prognostic model and identified SFTA3 as a novel biomarker with potential applications in the diagnosis, prognosis, and personalized treatment of LUAD. Additionally, our findings offer new insights into the mechanisms underlying LUAD tumorigenesis and immune evasion.
当代治疗方法的最新进展提高了肺癌患者的生存率;然而,长期益处仍然有限,这突出了对新型生物标志物的迫切需求。表面活性剂相关蛋白3(SFTA3)是一种主要在正常肺上皮细胞中表达的长链非编码RNA,在肺发育中起关键作用。然而,其在肺腺癌(LUAD)中的功能仍未得到充分了解。
利用单细胞RNA测序数据识别与LUAD进展相关的新型癌细胞固有基因特征,并全面分析它们在LUAD中的作用。收集血清样本以量化LUAD患者中SFTA3的表达水平。此外,进行了一系列生物学实验,包括细胞活力测定、划痕伤口愈合测定和集落形成测定,以证明SFTA3的肿瘤抑制作用。进行RNA测序以阐明SFTA3在肺癌细胞中作用的分子机制。
我们构建了一个包含八个基因的预后模型:醛缩酶A(ALDOA)、ATP合成酶F1亚基δ(ATP5MD)、热休克蛋白47(SERPINH1)、SFTA3、丝氨酸/苏氨酸激酶(SLK)、U2小核仁核糖核蛋白相关蛋白(U2SURP)、分泌性肺表面活性物质蛋白A1(SCGB1A1)和分泌性肺表面活性物质蛋白A3(SCGB1A3)。该模型有效地将患者分为高风险和低风险类别,表明低风险患者具有更好的临床结果,表现出免疫热肿瘤微环境(TME),并且对免疫治疗有更高的反应概率。相比之下,高风险组表现出冷TME,可能从化疗中获益更多。此外,我们的研究表明癌细胞中SFTA3表达的逐渐降低与肿瘤进展相关。值得注意的是,LUAD患者血清中SFTA3水平显著降低,表明其在LUAD诊断的液体活检中的潜在用途。此外,敲低SFTA3可增强肺癌细胞的增殖和迁移,而其过表达则抑制这些表型。SFTA3沉默后上皮-间质转化途径显著富集,表明SFTA3可能通过调节这一过程影响肿瘤进展。我们还确定了LUAD中SFTA3下调所涉及的关键转录因子和表观遗传机制。
我们开发了一个强大的预后模型,并确定SFTA3为一种新型生物标志物,在LUAD的诊断、预后和个性化治疗中具有潜在应用。此外,我们的发现为LUAD肿瘤发生和免疫逃逸的潜在机制提供了新的见解。
