Sertraline/chloroquine combination therapy to target hypoxic and immunosuppressive serine/glycine synthesis-dependent glioblastomas.

IF 5.9 2区 医学 Q1 ONCOLOGY Oncogenesis Pub Date : 2024-11-13 DOI:10.1038/s41389-024-00540-3
Anaís Sánchez-Castillo, Kim G Savelkouls, Alessandra Baldini, Judith Hounjet, Pierre Sonveaux, Paulien Verstraete, Kim De Keersmaecker, Barbara Dewaele, Benny Björkblom, Beatrice Melin, Wendy Y Wu, Rickard L Sjöberg, Kasper M A Rouschop, Martijn P G Broen, Marc Vooijs, Kim R Kampen
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Abstract

The serine/glycine (ser/gly) synthesis pathway branches from glycolysis and is hyperactivated in approximately 30% of cancers. In ~13% of glioblastoma cases, we observed frequent amplifications and rare mutations in the gene encoding the enzyme PSPH, which catalyzes the last step in the synthesis of serine. This urged us to unveil the relevance of PSPH genetic alterations and subsequent ser/gly metabolism deregulation in the pathogenesis of glioblastoma. Primary glioblastoma cells overexpressing PSPH and PSPHV116I showed an increased clonogenic capacity, cell proliferation, and migration, supported by elevated nucleotide synthesis and utilization of reductive NAD(P). We previously identified sertraline as an inhibitor of ser/gly synthesis and explored its efficacy at suboptimal dosages in combination with the clinically pretested chloroquine to target ser/glyhigh glioblastoma models. Interestingly, ser/glyhigh glioblastomas, including PSPHamp and PSPHV116I, displayed selective synergistic inhibition of proliferation in response to combination therapy. PSPH knockdown severely affected ser/glyhigh glioblastoma clonogenicity and proliferation, while simultaneously increasing its sensitivity to chloroquine treatment. Metabolite landscaping revealed that sertraline/chloroquine combination treatment blocks NADH and ATP generation and restricts nucleotide synthesis, thereby inhibiting glioblastoma proliferation. Our previous studies highlight ser/glyhigh cancer cell modulation of its microenvironment at the level of immune suppression. To this end, high PSPH expression predicts poor immune checkpoint therapy responses in glioblastoma patients. Interestingly, we show that PSPH amplifications in glioblastoma facilitate the expression of immune suppressor galectin-1, which can be inhibited by sertraline treatment. Collectively, we revealed that ser/glyhigh glioblastomas are characterized by enhanced clonogenicity, migration, and suppression of the immune system, which could be tackled using combined sertraline/chloroquine treatment, revealing novel therapeutic opportunities for this subgroup of GBM patients.

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针对缺氧和免疫抑制丝氨酸/甘氨酸合成依赖性胶质母细胞瘤的舍曲林/氯喹联合疗法。
丝氨酸/甘氨酸(ser/gly)合成途径是从糖酵解分支出来的,在大约30%的癌症中会被过度激活。在约 13% 的胶质母细胞瘤病例中,我们观察到编码 PSPH 酶的基因频繁扩增和罕见突变,该酶催化丝氨酸合成的最后一步。这促使我们揭示 PSPH 基因改变和随后的丝氨酸/甘氨酸代谢失调在胶质母细胞瘤发病机制中的相关性。过表达 PSPH 和 PSPHV116I 的原代胶质母细胞瘤细胞显示出更强的克隆生成能力、细胞增殖和迁移能力,核苷酸合成和还原性 NAD(P) 的利用率也随之升高。我们以前曾发现舍曲林是一种血清/甘氨酸合成抑制剂,并探讨了它与临床预试的氯喹联合使用,以血清/甘氨酸含量高的胶质母细胞瘤模型为靶点的次优剂量疗效。有趣的是,包括 PSPHamp 和 PSPHV116I 在内的高血清/高糖胶质母细胞瘤对联合疗法显示出选择性协同增殖抑制作用。PSPH基因敲除严重影响了ser/glyhigh胶质母细胞瘤的克隆性和增殖,同时增加了其对氯喹治疗的敏感性。代谢物分析表明,舍曲林/氯喹联合治疗可阻断NADH和ATP的生成,限制核苷酸的合成,从而抑制胶质母细胞瘤的增殖。我们之前的研究强调了高血清/高甘氨酸癌细胞在免疫抑制水平上对其微环境的调节。为此,PSPH 的高表达预示着胶质母细胞瘤患者对免疫检查点疗法的反应不佳。有趣的是,我们发现胶质母细胞瘤中 PSPH 的扩增促进了免疫抑制因子 galectin-1 的表达,而舍曲林治疗可抑制 galectin-1 的表达。总之,我们发现血清/甘氨酰高的胶质母细胞瘤具有增强克隆性、迁移性和抑制免疫系统的特点,这可以通过舍曲林/氯喹联合治疗来解决,为这一亚群的胶质母细胞瘤患者提供了新的治疗机会。
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来源期刊
Oncogenesis
Oncogenesis ONCOLOGY-
CiteScore
11.90
自引率
0.00%
发文量
70
审稿时长
26 weeks
期刊介绍: Oncogenesis is a peer-reviewed open access online journal that publishes full-length papers, reviews, and short communications exploring the molecular basis of cancer and related phenomena. It seeks to promote diverse and integrated areas of molecular biology, cell biology, oncology, and genetics.
期刊最新文献
P4HB maintains Wnt-dependent stemness in glioblastoma stem cells as a precision therapeutic target and serum marker. Retraction Note: MEK inhibitors induce apoptosis via FoxO3a-dependent PUMA induction in colorectal cancer cells. Identification of pancreatic cancer-specific protease substrates for protease-dependent targeted delivery. Sertraline/chloroquine combination therapy to target hypoxic and immunosuppressive serine/glycine synthesis-dependent glioblastomas. Condensate remodeling reorganizes innate SS18 in synovial sarcomagenesis.
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