放射性碘难治性甲状腺癌的临床试验现状及未来展望

李汝平, 杨辉

  1. 1.郑州大学附属肿瘤医院(河南省肿瘤医院)核医学科,河南 郑州 450008
    2.河南省肿瘤核医学精准诊疗医学重点实验室,河南 郑州 450003
  • 收稿日期:2024-12-13 修回日期:2025-01-21 出版日期:2025-01-30 发布日期:2025-02-17
  • 通信作者: 杨辉
  • 作者简介:李汝平(ORCID: 0009-0002-7927-6036),博士,主治医师。
    杨辉,主任医师,硕士研究生导师,郑州大学附属肿瘤医院核医学科主任,河南省肿瘤核医学精准诊疗医学重点实验室主任,河南省甲状腺疾病诊疗中心副主任、河南省甲状腺癌MDT学组副组长。擅长甲状腺癌131I治疗及综合治疗、肿瘤125I粒子植入治疗、89Sr治疗骨转移瘤、223Ra治疗前列腺癌骨转移、90Y微球治疗肝肿瘤、177Lu-PSMA治疗前列腺癌等核素治疗及相关研究,核医学影像诊断。发表论文50余篇,参编专著4部,获科技成果奖5项和国家专利2项。主要兼职:中国抗癌协会肿瘤核医学专业委员会主任委员,河南省医师协会核医学医师分会会长,中国临床肿瘤学会核医学专家委员会副主任委员,中国医师协会核医学医师分会常委,中国医学影像技术研究会核医学分会常委。《国际放射医学核医学杂志》《肿瘤影像学》常务编委,《中华核医学与分子影像杂志》特约审稿专家。
  • 基金资助:
    河南省科技攻关项目(242102311045);国家自然科学基金(82402330);河南省卫生健康委员会科技攻关项目(LHGJ20240132)

PDF

摘要/Abstract

摘要:

放射性碘难治性甲状腺癌(radioiodine-refractory thyroid cancer,RAIR-TC)是指无法或很难从131I治疗中获益的甲状腺癌,目前常涉及的RAIR-TC主要是原本分化较好的分化型甲状腺癌(differentiated thyroid cancer,DTC),随着病程或131I治疗后逐渐出现不摄取131I现象。与能够摄取131I的DTC相比,RAIR-TC的恶性程度明显增加,疾病进展较快,死亡风险较高。因此,RAIR-TC的后续治疗已成为国际甲状腺癌研究领域的热点和难点。RAIR-TC的治疗发展经历了多个阶段,从最初的放射性碘治疗到近年来靶向药物的引入,再到免疫治疗的尝试,治疗手段逐步多样化。分子靶向治疗,特别是酪氨酸激酶抑制剂(tyrosine kinase inhibitors,TKI),为RAIR-TC患者提供了新的治疗选择,但单一靶向治疗的耐药性迅速显现,成为治疗的瓶颈。磷脂酰肌醇3-激酶(phosphoinositide3-kinase,PI3K)/蛋白激酶B(protein kinase,AKT)/哺乳动物雷帕霉素靶蛋白(mammalian target of rapamycin,mTOR)通路和表皮生长因子受体(epidermal growth factor receptor,EGFR)通路的激活是肿瘤逃逸靶向治疗的主要途径。因此,联合治疗策略应运而生,通过靶向多个信号转导通路、优化联合药物的使用,尝试克服单药耐药性。此外,结合患者的分子生物学特征(如BRAF突变、肿瘤免疫表型等)设计个性化治疗方案,已成为研究的热点。免疫治疗,特别是免疫检查点抑制剂(immune checkpoint inhibitors,ICIs)[如派姆单抗(pembrolizumab)],在程序性死亡蛋白配体-1(programmed death ligand-1,PD-L1)高表达的RAIR-TC患者中取得了一定的临床效果。然而,由于RAIR-TC的免疫原性较低,免疫治疗的总体缓解率仍较低,通常为10%~15%。近年来,靶向治疗与免疫治疗的联合治疗策略,如BRAF抑制剂、血管内皮生长因子受体(vascular endothelial growth factor receptor,VEGFR)抑制剂联合程序性死亡蛋白-1(programmed death-1,PD-1)抑制剂的三联疗法,在部分患者中显示出显著疗效,甚至出现完全缓解,为提高免疫治疗效果开辟了新的方向,但如何优化联合治疗方案、克服耐药性和不良反应仍是未来研究的难点。此外,表观遗传学和代谢组学的研究为RAIR-TC的治疗提供了新的思路。DNA甲基化、组蛋白去乙酰化等表观遗传机制在RAIR-TC的进展和耐药中起着重要作用,其相关抑制剂可能恢复肿瘤对放射性碘的摄取能力,从而增强131I治疗的敏感性。尽管表观遗传学的研究取得了初步进展,但临床试验仍处于早期阶段,需进一步验证其应用潜力。肿瘤代谢异常,尤其是乳酸代谢和谷氨酰胺代谢的改变,在肿瘤生长和耐药中发挥重要作用。谷氨酰胺合成酶(glutamine synthetase,GLS)抑制剂和乳酸脱氢酶A(lactate dehydrogenase A,LDHA)抑制剂能有效地抑制肿瘤生长,并可能逆转耐药性。因此,开发针对这些代谢靶点的创新药物,成为未来治疗RAIR-TC的重要方向。尽管现有疗法在一定程度上改善了RAIR-TC患者的生存期,仍面临耐药性、不良反应及肿瘤异质性等挑战。未来的研究应聚焦于优化联合治疗方案、开发新靶点药物及提高免疫治疗的适应性。在多学科协作和技术创新的推动下,RAIR-TC的治疗有望在未来取得突破,进而改善患者的预后和生活质量。

关键词: 放射性碘难治性甲状腺癌, 精准医学, 分子靶向治疗, 免疫治疗, 内照射治疗

Abstract:

Radioiodine-refractory thyroid cancer (RAIR-TC) refers to thyroid cancer that is unable to or difficult to benefit from 131I treatment. The type of RAIR-TC we commonly encounter is differentiated thyroid cancer (DTC), which is originally well-differentiated but gradually loses its ability to take up iodine during disease progression or after 131I treatment. Compared to DTC that can still take up 131I, RAIR-TC is more malignant, progresses more rapidly, and carries a higher risk of death. Therefore, the subsequent treatment of RAIR-TC has become a hotspot and a challenge in the field of international thyroid cancer research. The treatment of RAIR-TC has evolved through several stages, from initial radioactive iodine therapy to the introduction of targeted drugs in recent years, followed by attempts at immunotherapy, diversifying treatment options. Molecular targeted therapy, especially tyrosine kinase inhibitors (TKIs), has provided new treatment choices for RAIR-TC patients. However, resistance to single-agent targeted therapy has quickly emerged as a bottleneck in treatment efficacy. Studies have shown that the activation of the phosphoinositide3-kinase (PI3K)/protein kinase (AKT)/mammalian target of rapamycin (mTOR) pathway and epidermal growth factor receptor (EGFR) pathway is the main mechanism by which tumors evade targeted therapy. As a result, combination therapy strategies have emerged, aiming to target multiple signaling pathways and optimize the use of combined drugs to overcome single-drug resistance. Additionally, designing personalized treatment plans based on patients’ molecular features (such as BRAF mutations and tumor immune phenotypes) has become a research focus. Immunotherapy, especially immune checkpoint inhibitors (ICIs) such as pembrolizumab, has shown some clinical effect in RAIR-TC patients with high level of programmed death ligand-1 (PD-L1) expression. However, due to the low immunogenicity of RAIR-TC, the overall response rate to immunotherapy remains relatively low, typically ranging from 10% to 15%. In recent years, combination strategies involving targeted therapy and immunotherapy, such as the triplet therapy of BRAF inhibitors, vascular endothelial growth factor receptor (VEGFR) inhibitors, and programmed death-1 (PD-1) inhibitors, have shown significant efficacy in some patients, even achieving complete remission. This offers new directions for improving the efficacy of immunotherapy, however optimizing combination therapy, overcoming resistance, and managing side effects remain key challenges for future research. Moreover, epigenetics and metabolism studies have provided new insights into the treatment of RAIR-TC. Research has shown that epigenetic mechanisms, such as DNA methylation and histone deacetylation, play important roles in the progression and resistance of RAIR-TC. Inhibitors targeting these mechanisms may restore the ability of tumor to take up radioactive iodine, thus enhancing sensitivity to 131I therapy. Although progress has been made in epigenetic research, clinical trials are still in the early stages, and further verification of their potential is needed. Tumor metabolic abnormalities, particularly changes in lactate and glutamine metabolism, play crucial roles in tumor growth and resistance. Studies have found that glutamine synthetase (GLS) inhibitors and lactate dehydrogenase A (LDHA) inhibitors can effectively suppress tumor growth and potentially reverse resistance. Thus, the development of innovative drugs targeting these metabolic pathways is becoming an important direction for future RAIR-TC treatments. Although current therapies have improved the survival of RAIR-TC patients to some extent, challenges such as resistance, toxic reactions and tumor heterogeneity remain. Future research should focus on optimizing combination treatment strategies, developing new targeted drugs, and improving the adaptability of immunotherapy in clinical trials. With the advancement of multidisciplinary collaboration and technological innovation, breakthroughs in RAIR-TC treatment are expected in the future, ultimately improving patient prognosis and quality of life.

Key words: Radioiodine-refractory thyroid cancer, Precision medicine, Molecular targeted therapy, Immunotherapy, Internal radiation therapy

中图分类号: 

相关文章

[1] 耿倩倩, 杨爱民. 碘难治性分化型甲状腺癌的治疗进展及展望[J]. 中国癌症杂志, 2025, 35(1): 30-39.
[2] 林秋玉, 王宇鑫, 林承赫. 靶向治疗与免疫治疗在放射性碘难治性分化型甲状腺癌中的应用与前景[J]. 中国癌症杂志, 2025, 35(1): 58-67.
[3] 徐睿, 王泽浩, 吴炅. 肿瘤相关中性粒细胞在乳腺癌发生、发展中的作用研究进展[J]. 中国癌症杂志, 2024, 34(9): 881-889.
[4] 曹晓珊, 杨蓓蓓, 丛斌斌, 刘红. 三阴性乳腺癌脑转移治疗的研究进展[J]. 中国癌症杂志, 2024, 34(8): 777-784.
[5] 刘帅, 张凯, 张晓青, 栾巍. 派安普利单抗联合安罗替尼和化疗围手术期治疗局部进展期胃癌的探索性研究[J]. 中国癌症杂志, 2024, 34(7): 659-668.
[6] 廖梓伊, 彭杨, 曾蓓蕾, 马影颖, 曾丽, 甘科论, 马代远. 局部晚期食管鳞状细胞癌患者新辅助免疫治疗联合化疗后行根治性手术的术后病理学缓解程度及影响因素分析[J]. 中国癌症杂志, 2024, 34(7): 669-679.
[7] 梁滢昀, 陈健华. 溶瘤病毒联合免疫治疗在恶性肿瘤治疗中的应用进展[J]. 中国癌症杂志, 2024, 34(7): 686-694.
[8] 黄思捷, 康勋, 李文斌. 鞘内注射治疗实体瘤脑膜转移的临床研究进展[J]. 中国癌症杂志, 2024, 34(7): 695-701.
[9] 唐楠, 黄慧霞, 刘晓健. 利用单细胞测序和转录组测序建立结直肠癌免疫细胞的9基因预后模型[J]. 中国癌症杂志, 2024, 34(6): 548-560.
[10] 辛美仪, 林玉红, 赵凯. 肿瘤mRNA疫苗及其递送载体在抗肿瘤免疫治疗中的研究进展[J]. 中国癌症杂志, 2024, 34(5): 509-516.
[11] 许永虎, 徐大志. 21世纪以来胃癌治疗进展及未来展望[J]. 中国癌症杂志, 2024, 34(3): 239-249.
[12] 薛驰, 高鹏, 朱志, 王振宁. 免疫治疗在胃癌的围手术期及转化治疗中的应用和挑战[J]. 中国癌症杂志, 2024, 34(3): 259-267.
[13] 陈亦凡, 李婷, 王碧芸. CCR8在肿瘤免疫治疗中的研究进展[J]. 中国癌症杂志, 2024, 34(3): 299-305.
[14] 康殷楠, 陈顺, 解有成, 郑英, 何昱静, 李初谊, 于晓辉. 抗体药物偶联物在HER2阳性晚期胃癌中的应用进展和展望[J]. 中国癌症杂志, 2023, 33(8): 790-800.
[15] 郑伟涛, 李涵泺, 胡康洪. TCR-T免疫治疗肿瘤:现状、挑战及展望[J]. 中国癌症杂志, 2023, 33(7): 707-716.

地址:上海市东安路270号(复旦大学肿瘤医院内) 上海市抗癌协会办公室电话/传真:021-64042258

上海市通信管理局备案  沪ICP备06014835号   版权所有: 上海市抗癌协会