The Potential Tumor-Suppressor DHRS7 Inversely Correlates with EGFR Expression in Prostate Cancer Cells and Tumor Samples.
Simon StücheliSelene ArayaCaner ErcanSeraina O MoserJohn GallonPaul JenöSalvatore PiscuoglioLuigi TerraccianoAlex OdermattPublished in: Cancers (2022)
Prostate cancer (PCa), one of the most common malignancies in men, typically responds to initial treatment, but resistance to therapy often leads to metastases and death. The dehydrogenase/reductase 7 (DHRS7, SDR34C1) is an "orphan" enzyme without known physiological function. DHRS7 was previously found to be decreased in higher-stage PCa, and siRNA-mediated knockdown increased the aggressiveness of LNCaP cells. To further explore the role of DHRS7 in PCa, we analyzed the proteome of LNCaP cells following DHRS7 knockdown to assess potentially altered pathways. Although DHRS7 is able to inactivate 5α-dihydrotestosterone, DHRS7 knockdown did not affect androgen receptor (AR) target gene expression, and its effect on PCa cells seems to be androgen-independent. Importantly, proteome analyses revealed increased expression of epidermal growth factor receptor (EGFR), which was confirmed by RT-qPCR and Western blotting. Comparison of AR-positive LNCaP with AR-negative PC-3 and DU145 PCa cell lines revealed a negative correlation between DHRS7 and EGFR expression. Conversely, EGFR knockdown enhanced DHRS7 expression in these cells. Importantly, analysis of patient samples revealed a negative correlation between DHRS7 and EGFR expression, both at the mRNA and protein levels, and DHRS7 expression correlated positively with patient survival rates. These results suggest a protective role for DHRS7 in PCa.
Keyphrases
- epidermal growth factor receptor
- poor prognosis
- small cell lung cancer
- induced apoptosis
- tyrosine kinase
- prostate cancer
- gene expression
- binding protein
- cell cycle arrest
- advanced non small cell lung cancer
- single cell
- long non coding rna
- endoplasmic reticulum stress
- stem cells
- cell death
- signaling pathway
- radical prostatectomy
- dna methylation
- small molecule
- mesenchymal stem cells
- bone marrow
- protein protein