Sulfoquinovosylacylpropanediol monotherapy suppresses canine hemangiosarcoma patient-derived xenograft models with vascular remodeling
Aoshima, K.; Miyazaki, N.; Goto, T.; Heishima, K.
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Canine hemangiosarcoma (HSA) is an aggressive endothelial malignancy with limited therapeutic options, and its progression is closely associated with vascular architecture, stromal remodeling, and inflammatory cell recruitment. Sulfoquinovosylacylpropanediol (SQAP) is a sulfoquinovosyl lipid radiosensitizer reported to affect angiogenic and tumor-microenvironmental pathways, but its effects in canine HSA are unknown. Here, we evaluated SQAP in canine HSA cell lines and patient-derived xenograft (PDX) models. SQAP showed minimal direct cytotoxicity against HSA cell lines in vitro, whereas it significantly suppressed tumor growth in three canine HSA PDX models. Transcriptome analysis of SQAP-treated HSA PDX tumors detected more SQAP-responsive genes in mouse host-derived cells than in canine tumor cells. Gene-set enrichment analysis of the mouse host-derived fraction showed positive enrichment of angiogenesis, hypoxia, and stromal remodeling-related gene sets after SQAP treatment. Subsequent tissue analysis showed that SQAP reduced host-derived CD31-positive vascular area and increased -smooth muscle actin coverage of remaining vessels in two of the three PDX models, while altering macrophage-associated marker profiles in a model-dependent manner. These findings indicate that SQAP suppresses canine HSA PDX growth primarily through vascular and macrophage-associated remodeling of the tumor microenvironment rather than direct tumor-cell cytotoxicity.
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