Abstract
Hydrogen sulfide (H2S), an endogenous signaling gaseous molecule, is involved in various physiological activities, including vessel relaxation, regulation of cellular bioenergetics, inflammation, and angiogenesis. By using xenograft orthotopic implantation of prostate cancer PC3 cells and subsequently comparing bone metastatic with primary tumor‐derived cancer cells, we find that H2S‐producing enzyme cystathionine γ‐lyase (CTH) is upregulated in bone‐metastatic PC3 cells. Clinical data further reveal that the expression of CTH is elevated in late‐stage prostate cancer patients, and higher CTH expression correlates with poor survival from The Cancer Genome Atlas (TCGA) prostate cancer RNA‐seq datasets. CTH promotes NF‐κB nuclear translocation through H2S‐mediated sulfhydration on cysteine‐38 of the NF‐κB p65 subunit, resulting in increased IL‐1β expression and H2S‐induced cell invasion. Knockdown of CTH in PC3 cells results in the suppression of tumor growth and distant metastasis, while overexpression of CTH in DU145 cells promotes primary tumor growth and lymph node metastasis in the orthotopic implanted xenograft mouse model. Together, our findings provide evidence that CTH generated H2S promotes prostate cancer progression and metastasis through IL‐1β/NF‐κB signaling pathways.
Highlights
Hydrogen sulfide (H2S), an endogenous signaling gaseous molecule, is involved in various physiological activities, including vessel relaxation, regulation of cellular bioenergetics, inflammation, and angiogenesis
Cystathionine c-lyase (CTH), was upregulated in five of seven pairs of bone-metastatic PC3 cells from microarray analysis (Fig EV1A), and protein expression of CTH among these pairs was validated by Western blot analysis (Fig EV1B)
We identified a signaling cascade mediated by CTH/H2S to promote Prostate cancer (PC) progression and metastasis (Fig 6)
Summary
Hydrogen sulfide (H2S), an endogenous signaling gaseous molecule, is involved in various physiological activities, including vessel relaxation, regulation of cellular bioenergetics, inflammation, and angiogenesis. By using xenograft orthotopic implantation of prostate cancer PC3 cells and subsequently comparing bone metastatic with primary tumor-derived cancer cells, we find that H2S-producing enzyme cystathionine c-lyase (CTH) is upregulated in bone-metastatic PC3 cells. CTH promotes NF-jB nuclear translocation through H2S-mediated sulfhydration on cysteine-38 of the NF-jB p65 subunit, resulting in increased IL-1b expression and H2S-induced cell invasion. Knockdown of CTH in PC3 cells results in the suppression of tumor growth and distant metastasis, while overexpression of CTH in DU145 cells promotes primary tumor growth and lymph node metastasis in the orthotopic implanted xenograft mouse model. Our findings provide evidence that CTH generated H2S promotes prostate cancer progression and metastasis through IL-1b/NF-jB signaling pathways
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