scholarly journals Correction: Multiple tumor suppressors regulate a HIF-dependent negative feedback loop via ISGF3 in human clear cell renal cancer

eLife ◽  
2021 ◽  
Vol 10 ◽  
Author(s):  
Lili Liao ◽  
Zongzhi Z Liu ◽  
Lauren Langbein ◽  
Weijia Cai ◽  
Eun-Ah Cho ◽  
...  
Keyword(s):  
Renal Cancer ◽  
Negative Feedback ◽  
Tumor Suppressors ◽  
Feedback Loop ◽  
Clear Cell ◽  
Negative Feedback Loop ◽  
Multiple Tumor ◽  
Cell Renal Cancer

scholarly journals Multiple tumor suppressors regulate a HIF-dependent negative feedback loop via ISGF3 in human clear cell renal cancer

eLife ◽  
2018 ◽  
Vol 7 ◽  
Author(s):  
Lili Liao ◽  
Zongzhi Z Liu ◽  
Lauren Langbein ◽  
Weijia Cai ◽  
Eun-Ah Cho ◽  
...  
Keyword(s):  
Tumor Growth ◽  
Negative Feedback ◽  
Tumor Suppressors ◽  
Feedback Loop ◽  
Clear Cell ◽  
Xenograft Model ◽  
Interferon Response ◽  
Negative Feedback Loop ◽  
Multiple Tumor ◽  
Response Expression

Whereas VHL inactivation is a primary event in clear cell renal cell carcinoma (ccRCC), the precise mechanism(s) of how this interacts with the secondary mutations in tumor suppressor genes, including PBRM1, KDM5C/JARID1C, SETD2, and/or BAP1, remains unclear. Gene expression analyses reveal that VHL, PBRM1, or KDM5C share a common regulation of interferon response expression signature. Loss of HIF2α, PBRM1, or KDM5C in VHL-/-cells reduces the expression of interferon stimulated gene factor 3 (ISGF3), a transcription factor that regulates the interferon signature. Moreover, loss of SETD2 or BAP1 also reduces the ISGF3 level. Finally, ISGF3 is strongly tumor-suppressive in a xenograft model as its loss significantly enhances tumor growth. Conversely, reactivation of ISGF3 retards tumor growth by PBRM1-deficient ccRCC cells. Thus after VHL inactivation, HIF induces ISGF3, which is reversed by the loss of secondary tumor suppressors, suggesting that this is a key negative feedback loop in ccRCC.

scholarly journals Smad2/3 Activation Regulates Smad1/5/8 Signaling via a Negative Feedback Loop to Inhibit 3T3-L1 Adipogenesis

2021 ◽  
Vol 22 (16) ◽  
pp. 8472
Author(s):  
Senem Aykul ◽  
Jordan Maust ◽  
Vijayalakshmi Thamilselvan ◽  
Monique Floer ◽  
Erik Martinez-Hackert
Keyword(s):  
Negative Feedback ◽  
Feedback Loop ◽  
Negative Feedback Loop ◽  
Adipose Tissues ◽  
Family Growth ◽  
Simultaneous Activation ◽  
Adipocyte Hypertrophy ◽  
Adipocyte Development ◽  
Energy Surplus

Adipose tissues (AT) expand in response to energy surplus through adipocyte hypertrophy and hyperplasia. The latter, also known as adipogenesis, is a process by which multipotent precursors differentiate to form mature adipocytes. This process is directed by developmental cues that include members of the TGF-β family. Our goal here was to elucidate, using the 3T3-L1 adipogenesis model, how TGF-β family growth factors and inhibitors regulate adipocyte development. We show that ligands of the Activin and TGF-β families, several ligand traps, and the SMAD1/5/8 signaling inhibitor LDN-193189 profoundly suppressed 3T3-L1 adipogenesis. Strikingly, anti-adipogenic traps and ligands engaged the same mechanism of action involving the simultaneous activation of SMAD2/3 and inhibition of SMAD1/5/8 signaling. This effect was rescued by the SMAD2/3 signaling inhibitor SB-431542. By contrast, although LDN-193189 also suppressed SMAD1/5/8 signaling and adipogenesis, its effect could not be rescued by SB-431542. Collectively, these findings reveal the fundamental role of SMAD1/5/8 for 3T3-L1 adipogenesis, and potentially identify a negative feedback loop that links SMAD2/3 activation with SMAD1/5/8 inhibition in adipogenic precursors.

scholarly journals IL‐8 and CXCR1 expression is associated with cancer stem cell‐like properties of clear cell renal cancer

2019 ◽  
Vol 248 (3) ◽  
pp. 377-389 ◽  
Author(s):  
Claudia Corrò ◽  
Marc E Healy ◽  
Stefanie Engler ◽  
Bernd Bodenmiller ◽  
Zhe Li ◽  
...  
Keyword(s):  
Stem Cell ◽  
Cancer Stem Cell ◽  
Renal Cancer ◽  
Clear Cell ◽  
Cell Renal Cancer
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