Abstract 2437: HMOX1 modulates tumor stemness and metastatic properties in prostate cancer

Eighty percent of prostate cancers (PCa) metastasize to bone, showing a significant source of patient morbidity. PCa stem-like cells (PCSCs) are capable to quiescently outlast retaining the ability to proliferate and regenerate, consequently remaining able to develop therapy-resistant tumors and met...

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Published in:Cancer research (Chicago, Ill.) Ill.), 2023-04, Vol.83 (7_Supplement), p.2437-2437
Main Authors: Sabater, Agustina A., Toro, Ayelen R., Sanchis, Pablo A., Pascual, Gaston M., Seniuk, Rocio A., Vazquez, Elba S., Cotignola, Javier, Bizzotto, Juan A., Lage-Vickers, Sofia, Gueron, Geraldine
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Language:English
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Summary:Eighty percent of prostate cancers (PCa) metastasize to bone, showing a significant source of patient morbidity. PCa stem-like cells (PCSCs) are capable to quiescently outlast retaining the ability to proliferate and regenerate, consequently remaining able to develop therapy-resistant tumors and metastatic lesions. We have previously reported that the overexpression of heme oxygenase 1 (HO-1), the rate limiting enzyme in heme degradation, leads to a less aggressive PCa phenotype. However, its effect on metastasis-stemness (MS) remains unknown. In this work, we address the biological significance of HO-1 in association with relevant MS genes for PCa progression. Clonogenic assays performed in PCa cells (PC3 and C4-2B) to assess colony formation, evidenced a reduction on the stem-like properties of tumor cells treated with hemin (FDA approved drug and specific HO-1 inducer). RNA-seq analysis to identify MS genes that could be modulated by HO-1 induction, revealed 32 MS-genes that were modulated in PC3-hemin vs. PC3-control cells. We then mined the Oncomine database (n = 1,128) and found that 15/32 HO-1-modulated MS genes were significantly dysregulated in PCa compared with normal gland. To extend our findings, further computational analyses were conducted, and a custom-made bioinformatics tool (Gene Hunter) was created to analyze gene expression and clinicopathological profiles across multiple publicly available PCa datasets with normal, adjacent, tumoral and metastatic samples (n = 1,629). We found that ADAM15, BCL2L1, LTBR, MBNL2 and SPINT1 are consistently dysregulated across different comparisons, with expression profiles in tumors that could be reverted by hemin treatment, according to our RNA-seq results. We constructed a risk score that efficiently stratified patients in high, intermediate and low-risk of biochemical-relapse groups (p
ISSN:1538-7445
1538-7445
DOI:10.1158/1538-7445.AM2023-2437