Association of serum prostate-specific antigen (PSA) level and circulating tumor cell-based PSA mRNA in prostate cancer

BACKGROUND: Prostate-specific antigen (PSA) is used for diagnosing prostate cancer, but does not reflect the characteristics of prostate cancer cells to allow assessment of cancer progression. PSA mRNA and circulating tumor cells (CTCs) could be potential biomarkers. However, the relationship between serum PSA levels and PSA mRNA in CTCs is unclear, and this study aimed to investigate this relationship. METHODS: Healthy donors (HD, n = 9), and patients with local non-metastatic stage prostate cancer (n = 30), metastatic hormone–sensitive prostate cancer (mHSPC, n = 10), and metastatic castration–resistant prostate cancer (mCRPC, n = 75), were included. The expression of PSA mRNA in CTCs was measured by droplet digital PCR. Serum PSA (ng/mL) levels and PSA mRNA (copies/μL) in CTCs were then compared using Spearman correlation coefficients. RESULTS: PSA mRNA expression in CTCs was observed in 30% (9/30) of patients with localized cancer, 60.0% (6/10) among patients with mHSPC, 65.3% (49/75) among patients with mCRPC, and 0% among patients with HD, indicating that the detection rate of PSA mRNA increased with cancer stage. PSA mRNA expression in CTCs also increased from localized to metastatic stages. PSA mRNA levels rapidly increased in the mHSPC and mCRPC stages. Interestingly, PSA mRNA expression in CTCs was not correlated with serum PSA levels at the localized stage (R = 0.064, P = 0.512). However, there were significant correlations between serum PSA levels and PSA mRNA expression in mHSPC (R = 0.532, P = 0.041) and mCRPC (R = 0.566, P = 0.025). The number of CTCs isolated from mHSPC and mCRPC was not proportional to serum PSA and PSA mRNA levels. CONCLUSION: CTC PSA mRNA has the potential to be used as a biomarker to complement serum PSA protein analysis or replace serum PSA in metastatic stages of prostate cancer.