Transforming growth factor- beta 1 activates interleukin-6 expression in prostate cancer cells through the synergistic collaboration of the Smad2, p38-NF- Kappa B, JNK, and Ras signaling pathways

Transforming growth factor- beta 1 activates interleukin-6 expression in prostate cancer cells through the synergistic collaboration of the Smad2, p38-NF- Kappa B, JNK, and Ras signaling pathways

Transforming growth factor (TGF)- beta 1 acts as a potent growth inhibitor of prostate epithelial cells, and aberrant function of its receptor type I and II correlates with tumor aggressiveness. However, intracellular and serum TGF- beta 1 levels are elevated in prostate cancer patients and further...

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Veröffentlicht in:Oncogene 2003-07, Vol.22 (28), p.4314-4332
Hauptverfasser: Park, J-I, Lee, M-G, Cho, K, Park, B-J, Chae, K-S, Byun, D-S, Ryu, B-K, Park, Y-K, Chi, S-G
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container_end_page 4332
container_issue 28
container_start_page 4314
container_title Oncogene
container_volume 22
creator Park, J-I
Lee, M-G
Cho, K
Park, B-J
Chae, K-S
Byun, D-S
Ryu, B-K
Park, Y-K
Chi, S-G
description Transforming growth factor (TGF)- beta 1 acts as a potent growth inhibitor of prostate epithelial cells, and aberrant function of its receptor type I and II correlates with tumor aggressiveness. However, intracellular and serum TGF- beta 1 levels are elevated in prostate cancer patients and further increased in patients with metastatic carcinoma, suggesting the oncogenic switch of TGF- beta 1 role in prostate tumorigenesis. Recently, we reported the mitogenic conversion of TGF- beta 1 effect by oncogenic Ha-Ras in prostate cancer cells. Here, we show that TGF- beta 1 activates interleukin (IL)-6, which has been implicated in the malignant progression of prostate cancers, via multiple signaling pathways including Smad2, nuclear factor- Kappa B (NF- Kappa B), JNK, and Ras. TGF- beta 1-induced IL-6 gene expression was strongly inhibited by DN-Smad2 but not by DN-Smad3 while it was further activated by wild-type Smad2 transfection. IL-6 activation by TGF- beta 1 was accompanied by nuclear translocation of NF- Kappa B, which was blocked by the p38 inhibitors SB202190 and SB203580 or by I Kappa B alpha Delta N transfection, indicating the crucial role for the p38-NF- Kappa B signaling in TGF- beta 1 induction of IL-6. TGF- beta 1 activated c-Jun phosphorylation, and IL-6 induction by TGF- beta 1 was severely impeded by DN-c-Jun and DN-JNK or AP-1 inhibitor curcumin, showing that the JNK-c-Jun-AP-1 signaling plays a pivotal role in TGF- beta 1 stimulation of IL-6. It was also found that the Ras-Raf-MEK1 cascade is activated by TGF- beta 1 and participates in the TGF- beta 1 induction of IL-6 in an AP-1-dependent manner. Cotransfection assays demonstrated that TGF- beta 1 stimulation of IL-6 results from the synergistic collaboration of the Smad2, p38-NF- Kappa B, JNK-c-Jun-AP-1, or Ras-Raf-MEK1 cascades. In addition, a time course IL-6 decay revealed that mRNA stability of IL-6 is modestly increased by TGF- beta 1, indicating that TGF- beta 1 also regulates IL-6 at the post-transcriptional level. Intriguingly, IL-6 inactivation restored the sensitivity to TGF- beta 1-mediated growth arrest and apoptosis, suggesting that elevated IL-6 in advanced prostate tumors might act as a resistance factor against TGF- beta 1. Collectively, our data demonstrate that IL-6 expression is stimulated by tumor-producing TGF- beta 1 in human prostate cancer cells through multiple signaling pathways including Smad2, p38, JNK, and Ras, and enhanced expression of IL-6 could contribute
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However, intracellular and serum TGF- beta 1 levels are elevated in prostate cancer patients and further increased in patients with metastatic carcinoma, suggesting the oncogenic switch of TGF- beta 1 role in prostate tumorigenesis. Recently, we reported the mitogenic conversion of TGF- beta 1 effect by oncogenic Ha-Ras in prostate cancer cells. Here, we show that TGF- beta 1 activates interleukin (IL)-6, which has been implicated in the malignant progression of prostate cancers, via multiple signaling pathways including Smad2, nuclear factor- Kappa B (NF- Kappa B), JNK, and Ras. TGF- beta 1-induced IL-6 gene expression was strongly inhibited by DN-Smad2 but not by DN-Smad3 while it was further activated by wild-type Smad2 transfection. IL-6 activation by TGF- beta 1 was accompanied by nuclear translocation of NF- Kappa B, which was blocked by the p38 inhibitors SB202190 and SB203580 or by I Kappa B alpha Delta N transfection, indicating the crucial role for the p38-NF- Kappa B signaling in TGF- beta 1 induction of IL-6. TGF- beta 1 activated c-Jun phosphorylation, and IL-6 induction by TGF- beta 1 was severely impeded by DN-c-Jun and DN-JNK or AP-1 inhibitor curcumin, showing that the JNK-c-Jun-AP-1 signaling plays a pivotal role in TGF- beta 1 stimulation of IL-6. It was also found that the Ras-Raf-MEK1 cascade is activated by TGF- beta 1 and participates in the TGF- beta 1 induction of IL-6 in an AP-1-dependent manner. Cotransfection assays demonstrated that TGF- beta 1 stimulation of IL-6 results from the synergistic collaboration of the Smad2, p38-NF- Kappa B, JNK-c-Jun-AP-1, or Ras-Raf-MEK1 cascades. In addition, a time course IL-6 decay revealed that mRNA stability of IL-6 is modestly increased by TGF- beta 1, indicating that TGF- beta 1 also regulates IL-6 at the post-transcriptional level. Intriguingly, IL-6 inactivation restored the sensitivity to TGF- beta 1-mediated growth arrest and apoptosis, suggesting that elevated IL-6 in advanced prostate tumors might act as a resistance factor against TGF- beta 1. 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IL-6 activation by TGF- beta 1 was accompanied by nuclear translocation of NF- Kappa B, which was blocked by the p38 inhibitors SB202190 and SB203580 or by I Kappa B alpha Delta N transfection, indicating the crucial role for the p38-NF- Kappa B signaling in TGF- beta 1 induction of IL-6. TGF- beta 1 activated c-Jun phosphorylation, and IL-6 induction by TGF- beta 1 was severely impeded by DN-c-Jun and DN-JNK or AP-1 inhibitor curcumin, showing that the JNK-c-Jun-AP-1 signaling plays a pivotal role in TGF- beta 1 stimulation of IL-6. It was also found that the Ras-Raf-MEK1 cascade is activated by TGF- beta 1 and participates in the TGF- beta 1 induction of IL-6 in an AP-1-dependent manner. Cotransfection assays demonstrated that TGF- beta 1 stimulation of IL-6 results from the synergistic collaboration of the Smad2, p38-NF- Kappa B, JNK-c-Jun-AP-1, or Ras-Raf-MEK1 cascades. In addition, a time course IL-6 decay revealed that mRNA stability of IL-6 is modestly increased by TGF- beta 1, indicating that TGF- beta 1 also regulates IL-6 at the post-transcriptional level. Intriguingly, IL-6 inactivation restored the sensitivity to TGF- beta 1-mediated growth arrest and apoptosis, suggesting that elevated IL-6 in advanced prostate tumors might act as a resistance factor against TGF- beta 1. 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However, intracellular and serum TGF- beta 1 levels are elevated in prostate cancer patients and further increased in patients with metastatic carcinoma, suggesting the oncogenic switch of TGF- beta 1 role in prostate tumorigenesis. Recently, we reported the mitogenic conversion of TGF- beta 1 effect by oncogenic Ha-Ras in prostate cancer cells. Here, we show that TGF- beta 1 activates interleukin (IL)-6, which has been implicated in the malignant progression of prostate cancers, via multiple signaling pathways including Smad2, nuclear factor- Kappa B (NF- Kappa B), JNK, and Ras. TGF- beta 1-induced IL-6 gene expression was strongly inhibited by DN-Smad2 but not by DN-Smad3 while it was further activated by wild-type Smad2 transfection. IL-6 activation by TGF- beta 1 was accompanied by nuclear translocation of NF- Kappa B, which was blocked by the p38 inhibitors SB202190 and SB203580 or by I Kappa B alpha Delta N transfection, indicating the crucial role for the p38-NF- Kappa B signaling in TGF- beta 1 induction of IL-6. TGF- beta 1 activated c-Jun phosphorylation, and IL-6 induction by TGF- beta 1 was severely impeded by DN-c-Jun and DN-JNK or AP-1 inhibitor curcumin, showing that the JNK-c-Jun-AP-1 signaling plays a pivotal role in TGF- beta 1 stimulation of IL-6. It was also found that the Ras-Raf-MEK1 cascade is activated by TGF- beta 1 and participates in the TGF- beta 1 induction of IL-6 in an AP-1-dependent manner. Cotransfection assays demonstrated that TGF- beta 1 stimulation of IL-6 results from the synergistic collaboration of the Smad2, p38-NF- Kappa B, JNK-c-Jun-AP-1, or Ras-Raf-MEK1 cascades. In addition, a time course IL-6 decay revealed that mRNA stability of IL-6 is modestly increased by TGF- beta 1, indicating that TGF- beta 1 also regulates IL-6 at the post-transcriptional level. Intriguingly, IL-6 inactivation restored the sensitivity to TGF- beta 1-mediated growth arrest and apoptosis, suggesting that elevated IL-6 in advanced prostate tumors might act as a resistance factor against TGF- beta 1. Collectively, our data demonstrate that IL-6 expression is stimulated by tumor-producing TGF- beta 1 in human prostate cancer cells through multiple signaling pathways including Smad2, p38, JNK, and Ras, and enhanced expression of IL-6 could contribute to the oncogenic switch of TGF- beta 1 role for prostate tumorigenesis, in part by counteracting its growth suppression function.</abstract><doi>10.1038/sj.onc.1206478</doi><tpages>19</tpages></addata></record>
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title Transforming growth factor- beta 1 activates interleukin-6 expression in prostate cancer cells through the synergistic collaboration of the Smad2, p38-NF- Kappa B, JNK, and Ras signaling pathways
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