Lenz Jennifer A, Peng Brandon, Assenmacher Charles-Antoine, King Austin, Zhang Paul J, Maki Robert G, Blanco M Andres, Radaelli Enrico, Atherton Matthew J
Department of Clinical Sciences and Advanced Medicine, School of Veterinary Medicine, University of Pennsylvania, Philadelphia, PA, USA.
Department of Biomedical Sciences, School of Veterinary Medicine, University of Pennsylvania, Philadelphia, PA, USA.
Cancer Immunol Immunother. 2025 Jan 3;74(2):61. doi: 10.1007/s00262-024-03908-x.
Histiocytic sarcoma (HS) is a rare yet lethal malignancy with no established standard of care therapies. A lack of pre-clinical models limits our understanding of HS pathogenesis and identification of therapeutic targets. Canine HS shares multiple clinical and genetic similarities with human HS, supporting its use as a unique translational model. Prior studies have investigated the immunogenicity of HS. Although increased tumor infiltrating lymphocyte (TIL) density is associated with favorable outcomes in canine HS, virtually all canine patients eventually succumb to progressive disease consistent with ultimate failure of anti-tumor immunity. To investigate potential regulators of the immune tumor microenvironment (TME), we undertook a comparative transcriptional approach of three long-lived cases of canine pulmonary HS with heavy T cell infiltrate and three short-lived cases of splenic HS that lacked significant T cell inflammation and compared these data to corresponding grossly normal tissues from dogs undergoing necropsy. This comparison identified PDCD1, encoding the immune checkpoint PD-1, and SPP1, encoding the secreted pro-tumorigenic protein osteopontin, as positive differentially expressed genes (DEGs) in canine HS. TXNIP, encoding the tumor suppressor TXNIP, was the most significant negative DEG. Comparative transcriptomic studies revealed conservation of enriched (including SPP1) and depleted (including TXNIP) DEGs between canine and human HS patients. Immunohistochemistry demonstrated osteopontin in the TMEs of canine and human HS. Collectively, we uncover PD-1, osteopontin, and TXNIP as putative actionable targets in HS and further establish canine HS as a preclinical platform to screen novel immunotherapeutic approaches for this deadly disease.
组织细胞肉瘤(HS)是一种罕见但致命的恶性肿瘤,目前尚无既定的标准治疗方案。缺乏临床前模型限制了我们对HS发病机制的理解以及治疗靶点的识别。犬HS与人类HS在临床和基因方面有多种相似之处,这支持了将其用作独特的转化模型。先前的研究已经探讨了HS的免疫原性。尽管肿瘤浸润淋巴细胞(TIL)密度增加与犬HS的良好预后相关,但几乎所有犬类患者最终都会因疾病进展而死亡,这与抗肿瘤免疫的最终失败一致。为了研究免疫肿瘤微环境(TME)的潜在调节因子,我们采用了比较转录方法,对三例有大量T细胞浸润的犬肺HS长期存活病例和三例缺乏显著T细胞炎症的脾HS短期存活病例进行了研究,并将这些数据与来自尸检犬的相应大体正常组织进行了比较。这种比较确定了编码免疫检查点PD-1的PDCD1和编码分泌性促肿瘤蛋白骨桥蛋白的SPP1作为犬HS中阳性差异表达基因(DEG)。编码肿瘤抑制因子TXNIP的TXNIP是最显著的阴性DEG。比较转录组学研究揭示了犬和人类HS患者之间富集(包括SPP1)和缺失(包括TXNIP)DEG的保守性。免疫组织化学显示犬和人类HS的TME中有骨桥蛋白。总体而言,我们发现PD-1、骨桥蛋白和TXNIP是HS中假定的可操作靶点,并进一步将犬HS确立为一个临床前平台,用于筛选针对这种致命疾病的新型免疫治疗方法。
