TGF-β3 promotes vascular normalization of prostate cancer to potentiate immunotherapy and chemotherapy
- Cancer Immunol Immunother. 2025 Jul 12;74(8):268. doi: 10.1007/s00262-025-04103-2.
- 1. Department of Urology, Kidney and Urology Center, Pelvic Floor Disorders Center, The Seventh Affiliated Hospital, Shenzhen Campus, Sun Yat-sen University, Shenzhen, People's Republic of China.
- 2. Molecular Cancer Research Center, School of Medicine, Shenzhen Campus of Sun Yat-sen University, No. 66, Gongchang Road, Guangming District, Shenzhen, 518107, Guangdong, People's Republic of China.
- 3. School of Medicine, Shenzhen Campus of Sun Yat-sen University, Sun Yat-sen University, Shenzhen, People's Republic of China.
- 4. School of Public Health, Southern Medical University, Guangzhou, People's Republic of China. [email protected].
- 5. Shenzhen Maternity and Child Healthcare Hospital, Southern Medical University, Shenzhen, Guangdong, People's Republic of China. [email protected].
- 6. Molecular Cancer Research Center, School of Medicine, Shenzhen Campus of Sun Yat-sen University, No. 66, Gongchang Road, Guangming District, Shenzhen, 518107, Guangdong, People's Republic of China. [email protected].
- 7. Department of Urology, Kidney and Urology Center, Pelvic Floor Disorders Center, The Seventh Affiliated Hospital, Shenzhen Campus, Sun Yat-sen University, Shenzhen, People's Republic of China. [email protected].
- # Contributed equally.
Background: Prostate Cancer (PCa) has previously been established as a cold tumor with highly complex tumor environment. Transforming growth factor (TGF)-β1 plays pro-oncogenic roles in PCa. TGF-β3, another isoform of the TGF-β family, is reported to have different and even opposite regulatory roles to TGF-β1. However, the effect of TGF-β3 in PCa has not been elucidated.
Methods: TGF-β3 expression and its association with multiple clinicopathological characteristics were analyzed immunohistochemically in human PCa specimens. The antitumor effect of TGF-β3 and its combination with immunochemotherapy was observed by subcutaneous xenograft tumor model. RNA-seq of mouse tumor tissues identified differentially expressed genes (DEGs) that were enriched in vascular biological processes. The angiogenesis effect of TGF-β3 was evaluated using tube formation assay. Hypoxic area, NG2+ pericytes, Col IV+ basement membrane, adhesion molecules and immune cells were analyzed by immunofluorescence. Vascular permeability was measured by Evans blue staining. The flow cytometry was conducted to examine the composition of tumor-infiltrating CD8+ T cells.
Results: Low TGF-β3 expression in prostate Cancer (PCa) was correlated with higher Gleason scores and pathological T stage. While intratumoral TGF-β3 injection demonstrated antitumor effects in vivo, it did not directly affect PCa cell proliferation, migration or invasion in vitro. GO analysis revealed significant enrichment of DEGs in vascular-related biological process. TGF-β3 treatment normalized tumor vascular architecture and reduced vascular leakage. This vascular normalization upregulated endothelial adhesion molecules and enhanced CD8+ T cell infiltration, suppressing tumor growth. Critically, TGF-β3-induced vascular normalization synergized with anti-PD-L1 immunotherapy or paclitaxel chemotherapy, enhancing CD8+ T cell or drug infiltration and significantly boosting therapeutic efficacy.
Conclusions: TGF-β3 potentially acts as a protective factor in PCa by promoting vascular normalization and remodeling of the tumor environment, which facilitates infiltration of CD8+ T cells or drugs, significantly enhancing their antitumor effects.
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