Yanjuan He scite author profile

The aggressive biology of human pancreatic adenocarcinoma has been linked with overexpression of vascular endothelial growth factor (VEGF). Constitutive activation of the transcription factor Sp1 plays a critical role in VEGF overexpression. Recent studies indicated that celecoxib, a selective cyclooxygenase-2 inhibitor, exhibits potent antitumor activity. However, the underlying molecular mechanisms of this activity remain unclear. In the present study, we used a pancreatic cancer model to determine the role of Sp1 in the antitumor activity of celecoxib. Treatment of various pancreatic cancer cells with celecoxib suppressed VEGF expression at both the mRNA and protein level in a dose-dependent manner. VEGF promoter deletion and point mutation analyses indicated that a region between nucleotide ؊109 and ؊61 and its intact Sp1-binding sites were required for the inhibition of VEGF promoter activity by celecoxib. Also, celecoxib treatment reduced both Sp1 DNA binding activity and transactivating activity. This decreased activity correlated with reduced Sp1 protein and its phosphorylation as determined using Western blot analysis. Furthermore, in an orthotopic pancreatic cancer animal model, celecoxib treatment inhibited tumor growth and metastasis. The antitumor activity was consistent with inhibition of angiogenesis as determined by evaluating tumor microvessel formation, which correlated with decreased Sp1 activity and VEGF expression. Collectively, our data provide a novel molecular mechanism for the antitumor activity of celecoxib and may help further improve its effectiveness in controlling pancreatic cancer growth and metastasis.

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Regulation of vascular endothelial growth factor expression by acidosis in human cancer cells

Shi

et al. 2001

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TGF-β-activated kinase 1 and TAK1-binding protein 1 cooperate to mediate TGF-β₁-induced MKK3-p38 MAPK activation and stimulation of type I collagen

Kim¹,

Kwak²,

Zachariah³

et al. 2007

American Journal of Physiology-Renal Physiology

105

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We have previously demonstrated that transforming growth factor-beta(1) (TGF-beta(1)) rapidly activates the mitogen-activated protein kinase kinase 3 (MKK3)-p38 MAPK signaling cascade, leading to the induction of type I collagen synthesis in mouse glomerular mesangial cells (Wang L, Ma R, Flavell RA, Choi ME. J Biol Chem 277: 47257-47262, 2002). In the present study, we investigated the functional role of upstream TGF-beta-activated kinase 1 (TAK1) and TAK1-binding protein 1 (TAB1) in the TGF-beta(1) signaling cascade. Rapid activation of endogenous TAK1 activity by TGF-beta(1) was observed in mouse mesangial cells. Transient overexpression of TAK1 with TAB1 enhanced the activation of MKK3 and p38 MAPK with or without TGF-beta(1) stimulation, whereas a dominant-negative mutant of TAK1 (TAK1DN) suppressed TGF-beta(1)-induced activation of MKK3 and p38 MAPK. Moreover, constitutive expression of TAK1DN reduced steady-state protein levels of MKK3 and p38 MAPK as well as MKK3 phosphorylation. Increased p38alpha MAPK activity by ectopic expression of either TAB1 or wild-type p38alpha MAPK resulted in enhanced TGF-beta(1)-induced type I collagen expression. In contrast, constitutive expression of TAK1DN inhibited collagen induction. Taken together, our data indicate that TAK1 and TAB1 play a pivotal role as upstream signal transducers activating the MKK3-p38 MAPK signaling cascade that leads to the induction of type I collagen expression by TGF-beta(1). In addition, our findings also suggest that TAK1 has a novel function in regulation of the steady-state protein levels of MKK3 and p38 MAPK.

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Alterations of gut microbiome accelerate multiple myeloma progression by increasing the relative abundances of nitrogen-recycling bacteria

Jian

Zhu²,

Ouyang

et al. 2020

Microbiome

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Background Gut microbiome alterations are closely related to human health and linked to a variety of diseases. Although great efforts have been made to understand the risk factors for multiple myeloma (MM), little is known about the role of the gut microbiome and alterations of its metabolic functions in the development of MM. Results Here, in a cohort of newly diagnosed patients with MM and healthy controls (HCs), significant differences in metagenomic composition were discovered, for the first time, with higher bacterial diversity in MM. Specifically, nitrogen-recycling bacteria such as Klebsiella and Streptococcus were significantly enriched in MM. Also, the bacteria enriched in MM were significantly correlated with the host metabolome, suggesting strong metabolic interactions between microbes and the host. In addition, the MM-enriched bacteria likely result from the regulation of urea nitrogen accumulated during MM progression. Furthermore, by performing fecal microbiota transplantation (FMT) into 5TGM1 mice, we proposed a mechanistic explanation for the interaction between MM-enriched bacteria and MM progression via recycling urea nitrogen. Further experiments validated that Klebsiella pneumoniae promoted MM progression via de novo synthesis of glutamine in mice and that the mice fed with glutamine-deficient diet exhibited slower MM progression. Conclusions Overall, our findings unveil a novel function of the altered gut microbiome in accelerating the malignant progression of MM and open new avenues for novel treatment strategies via manipulation of the intestinal microbiota of MM patients.

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NEK2 induces autophagy‐mediated bortezomib resistance by stabilizing Beclin‐1 in multiple myeloma

Xia

Meng³

et al. 2020

Molecular Oncology

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NEK2 is associated with drug resistance in multiple cancers. Our previous studies indicated that high NEK2 confers inferior survival in multiple myeloma (MM); thus, a better understanding of the mechanisms by which NEK2 induces drug resistance in MM is required. In this study, we discovered that NEK2 enhances MM cell autophagy, and a combination of autophagy inhibitor chloroquine (CQ) and chemotherapeutic bortezomib (BTZ) significantly prevents NEK2‐induced drug resistance in MM cells. Interestingly, NEK2 was found to bind and stabilize Beclin‐1 protein but did not affect its mRNA expression and phosphorylation. Moreover, autophagy enhanced by NEK2 was significantly prevented by knockdown of Beclin‐1 in MM cells, suggesting that Beclin‐1 mediates NEK2‐induced autophagy. Further studies demonstrated that Beclin‐1 ubiquitination is decreased through NEK2 interaction with USP7. Importantly, knockdown of Beclin‐1 sensitized NEK2‐overexpressing MM cells to BTZ in vitro and in vivo. In conclusion, we identify a novel mechanism whereby autophagy is activated by the complex of NEK2/USP7/Beclin‐1 in MM cells. Targeting the autophagy signaling pathway may provide a promising therapeutic strategy to overcome NEK2‐induced drug resistance in MM.

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Yanjuan He

Celecoxib Inhibits Vascular Endothelial Growth Factor Expression in and Reduces Angiogenesis and Metastasis of Human Pancreatic Cancer via Suppression of Sp1 Transcription Factor Activity

Regulation of vascular endothelial growth factor expression by acidosis in human cancer cells

TGF-β-activated kinase 1 and TAK1-binding protein 1 cooperate to mediate TGF-β₁-induced MKK3-p38 MAPK activation and stimulation of type I collagen

Alterations of gut microbiome accelerate multiple myeloma progression by increasing the relative abundances of nitrogen-recycling bacteria

NEK2 induces autophagy‐mediated bortezomib resistance by stabilizing Beclin‐1 in multiple myeloma

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Yanjuan He

Celecoxib Inhibits Vascular Endothelial Growth Factor Expression in and Reduces Angiogenesis and Metastasis of Human Pancreatic Cancer via Suppression of Sp1 Transcription Factor Activity

Regulation of vascular endothelial growth factor expression by acidosis in human cancer cells

TGF-β-activated kinase 1 and TAK1-binding protein 1 cooperate to mediate TGF-β1-induced MKK3-p38 MAPK activation and stimulation of type I collagen

Alterations of gut microbiome accelerate multiple myeloma progression by increasing the relative abundances of nitrogen-recycling bacteria

NEK2 induces autophagy‐mediated bortezomib resistance by stabilizing Beclin‐1 in multiple myeloma

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TGF-β-activated kinase 1 and TAK1-binding protein 1 cooperate to mediate TGF-β₁-induced MKK3-p38 MAPK activation and stimulation of type I collagen