Abstract

BackgroundProstate cancer (PCa) is considered one of the most prevalent malignancy globally, and metastasis is a major cause of death. Apigenin (API) is a dietary flavonoid which exerts an antimetastatic effect in various cancer types. Sparc/osteonectin, cwcv, and kazal-like domains proteoglycan 1 (SPOCK1) is a crucial modulator of tumor growth and metastasis in cancers. However, the role and underlying regulatory mechanisms of SPOCK1 in the API-mediated antimetastatic effects of PCa remain unclear.MethodsMTS, colony formation, wound-healing, and transwell assays were conducted to evaluate the effects of API on PCa cell proliferative, migratory, and invasive potentials. In vivo orthotopic bioluminescent xenograft model were employed to determine antitumor activity of API. PCa cells were transfected with either Snail-, Slug-, SPOCK1-overexpressing vector, or small hairpin (sh)SPOCK1 to determine the invasive abilities and expression levels of SPOCK1 and epithelial-to-mesenchymal transition (EMT) biomarkers in response to API treatment. Immunohistochemical (IHC) assays were carried out to evaluate the expression level of SPOCK1 in PCa xenografts and a PCa tissue array. Associations of SPOCK1 expression with clinicopathological features and prognoses of patients with PCa were analyzed by GEO or TCGA RNA-sequencing data.ResultsAPI significantly suppressed in vitro PCa cell proliferation, migration, and invasion and inhibited in vivo PCa tumor growth and metastasis. Moreover, survival times of animals were also prolonged after API treatment. Mechanistic studies revealed that API treatment resulted in downregulation of SPOCK1, which was accompanied by reduced expressions of mesenchymal markers and subsequent attenuation of invasive abilities of PCa cells. Overexpression of SPOCK1 in PCa xenografts resulted in significant promotion of tumor progression and relieved the anticancer activities induced by API, whereas knockdown of SPOCK1 had opposite effects. In clinical, SPOCK1 levels were higher in tumor tissues compared to non-tumor tissues, which was also significantly correlated with shorter disease-free survival in PCa patients.ConclusionsLevels of SPOCK1 increase with the progression of human PCa which suggests that SPOCK1 may act as a prognostic marker or therapeutic target for patients with PCa. Suppression of SPOCK1-mediated EMT signaling contributes to the antiproliferative and antimetastatic activities of API in vitro and in vivo.

Highlights

  • Prostate cancer (PCa) is considered one of the most prevalent malignancy globally, and metastasis is a major cause of death

  • API treatment results in reduced cell viability and motility of human PCa cells To explore the broad therapeutic potential of API against PCa, we examined the cytotoxic effects of various concentrations of API for 24~72 h on four PCa cell lines (LNCap, DU145, PC-3, and PC-3 M)

  • We normalized the data from wound-healing and transwell migration/invasion assays to the cell viability modulated by API and the results showed that API treatment still significantly suppresses the abilities of wound healing, invasion and migration in PC-3 M and DU145 cells (Additional file 1: Table S1)

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Summary

Introduction

Prostate cancer (PCa) is considered one of the most prevalent malignancy globally, and metastasis is a major cause of death. Androgen deprivation therapy (ADT) remains the primary clinical treatment for patients in the early stage of PCa. despite androgen ablation, most patients with advanced stages of PCa experience recurrence as the disease develops into castration-resistant PCa (CRPC), which is characterized by aggressive growth and distal organ metastasis, and is incurable [2]. Early diagnosis and treatment before the tumor metastasizes are critical for improving survival of patients with PCa. Despite advances in detection and treatment strategies, there are currently no effective therapeutics to treat metastatic PCa. the means to prevent PCa progression and conduct necessary interventions before the cancer has spread to other organs remain major clinical challenges

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