Abstract
BackgroundInterleukin(IL)-30/IL-27p28 production by Prostate Cancer (PC) Stem-Like Cells (SLCs) has proven, in murine models, to be critical to tumor onset and progression. In PC patients, IL-30 expression by leukocytes infiltrating PC and draining lymph nodes correlates with advanced disease grade and stage. Here, we set out to dissect the role of host immune cell-derived IL-30 in PC growth and patient outcome.MethodsPC-SLCs were implanted in wild type (WT) and IL-30 conditional knockout (IL-30KO) mice. Histopathological and cytofluorimetric analyses of murine tumors and lymphoid tissues prompted analyses of patients’ PC samples and follow-ups.ResultsImplantation of PC-SLCs in IL-30KO mice, gave rise to slow growing tumors characterized by apoptotic events associated with CD4+T lymphocyte infiltrates and lack of CD4+Foxp3+ T regulatory cells (Tregs). IL-30 knockdown in PC-SLCs reduced cancer cell proliferation, vascularization and intra-tumoral Indoleamine 2,3-Dioxygenase (IDO)+CD11b+Gr-1+ myeloid-derived cells (MDCs) and led to a significant delay in tumor growth and increase in survival. IL-30-silenced tumors developed in IL-30KO mice, IL-30−/−tumors, lacked vascular supply and displayed frequent apoptotic cancer cells entrapped by perforin+TRAIL+CD3+Tlymphocytes, most of which had a CD4+T phenotype, whereas IL-10+TGFβ+Foxp3+Tregs were lacking. IL-30 silencing in PC-SLCs prevented lung metastasis in 73% of tumor-bearing WT mice and up to 80% in tumor-bearing IL-30KO mice.In patients with high-grade and locally advanced PC, those with IL-30−/−tumors, showed distinct intra-tumoral cytotoxic granule-associated RNA binding protein (TIA-1)+CD4+Tlymphocyte infiltrate, rare Foxp3+Tregs and a lower biochemical recurrence rate compared to patients with IL-30+/+tumors in which IL-30 is expressed in both tumor cells and infiltrating leukocytes.ConclusionThe lack of host leukocyte-derived IL-30 inhibits Tregs expansion, promotes intra-tumoral infiltration of CD4+T lymphocytes and cancer cell apoptosis. Concomitant lack of MDC influx, obtained by IL-30 silencing in PC-SLCs, boosts cytotoxic T lymphocyte activation and cancer cell apoptosis resulting in a synergistic tumor suppression with the prospective benefit of better survival for patients with advanced disease.
Highlights
Interleukin(IL)-30/IL-27p28 production by Prostate Cancer (PC) Stem-Like Cells (SLCs) has proven, in murine models, to be critical to tumor onset and progression
The lack of IL-30 in PC Stem-Like Cells (PC-SLCs) and host environment synergistically inhibits tumor growth, reduces lung metastasis and prolongs host survival The hypothesis of a patho-biological role for host–derived IL-30 in tumor progression was tested by using p28 conditional knockout, EIIa-p28f/f mice (C57BL/6 J background), hereinafter referred to as IL-30 conditional knockout (IL-30KO) mice
Results from B6 EIIa-cre mice and p28f/f mice are not different from those obtained in wild type (WT) mice (Fisher Exact Probability Test: p > 0.99). c Mean volume of tumors developed after implantation of shPIN-SCs or IL-30shPIN-SCs in WT or in IL-30KO mice
Summary
Interleukin(IL)-30/IL-27p28 production by Prostate Cancer (PC) Stem-Like Cells (SLCs) has proven, in murine models, to be critical to tumor onset and progression. Identified as the p28 subunit of the heterodimeric cytokine Interleukin(IL)-27 [3, 4], and found to suppress the antitumor effects of IL-27 in colon cancer [5], IL-30 is emerging as a new and intriguing factor that may condition PC onset and progression [6,7,8]. It is produced by tumor-infiltrating leukocytes, mostly myeloid derived cells (MDCs), in approximately 77% of metastatic PC. High levels of IL-30 in MDCs of tumor-draining lymph nodes from breast cancer patients have proven to be an independent predictor of poor prognosis [9], suggesting the involvement of IL-30, produced by the host’s immune cells, in conditioning tumor behavior and patient outcome
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
