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Query: EC:1.4.3.13 (
lysyl oxidase
)
1,248
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Fluctuating oxygen levels characterize the microenvironment of many cancers and tumor hypoxia is associated with increased invasion and metastatic potential concomitant with a poor prognosis. Similarly, the expression of
lysyl oxidase
(
LOX
) in breast cancer facilitates tumor cell migration and is associated with estrogen receptor negative status and reduced patient survival. Here we demonstrate that hypoxia/reoxygenation drives poorly invasive breast cancer cells toward a more aggressive phenotype by up-regulating
LOX
expression and catalytic activity. Specifically, hypoxia markedly increased
LOX
protein expression; however, catalytic activity (beta-aminopropionitrile inhibitable hydrogen peroxide production) was significantly reduced under hypoxic conditions. Moreover, poorly invasive breast cancer cells displayed a marked increase in
LOX
-dependent FAK/Src activation and cell migration following hypoxia/reoxygenation, but not in response to hypoxia alone. Furthermore,
LOX
expression is only partially dependent on hypoxia inducible factor-1 (
HIF-1alpha
) in poorly invasive breast cancer cells, as hypoxia mimetics and overexpression of
HIF-1alpha
could not up-regulate
LOX
expression to the levels observed under hypoxia. Clinically,
LOX
expression positively correlates with tumor progression and co-localization with hypoxic regions (defined by
HIF-1alpha
expression) in ductal carcinoma in situ and invasive ductal carcinoma primary tumors. However, positive correlation is lost in metastatic tumors, suggesting that
LOX
expression is independent of a hypoxic environment at later stages of tumor progression. This work demonstrates that both hypoxia and reoxygenation are necessary for
LOX
catalytic activity which facilitates breast cancer cell migration through a hydrogen peroxide-mediated mechanism; thereby illuminating a potentially novel mechanism by which poorly invasive cancer cells can obtain metastatic competency.
...
PMID:Hypoxia/reoxygenation: a dynamic regulator of lysyl oxidase-facilitated breast cancer migration. 1768 48
Hypoxia has been proposed as an important microenvironmental factor in the development of tissue fibrosis; however, the underlying mechanisms are not well defined. To examine the role of hypoxia-inducible factor-1 (HIF-1), a key mediator of cellular adaptation to hypoxia, in the development of fibrosis in mice, we inactivated Hif-1alpha in primary renal epithelial cells and in proximal tubules of kidneys subjected to unilateral ureteral obstruction (UUO) using Cre-loxP-mediated gene targeting. We found that Hif-1alpha enhanced epithelial-to-mesenchymal transition (EMT) in vitro and induced epithelial cell migration through upregulation of
lysyl oxidase
genes. Genetic ablation of epithelial Hif-1alpha inhibited the development of tubulointerstitial fibrosis in UUO kidneys, which was associated with decreased interstitial collagen deposition, decreased inflammatory cell infiltration, and a reduction in the number of fibroblast-specific protein-1-expressing (FSP-1-expressing) interstitial cells. Furthermore, we demonstrate that increased renal
HIF-1alpha
expression is associated with tubulointerstitial injury in patients with chronic kidney disease. Thus, we provide clinical and genetic evidence that activation of HIF-1 signaling in renal epithelial cells is associated with the development of chronic renal disease and may promote fibrogenesis by increasing expression of extracellular matrix-modifying factors and
lysyl oxidase
genes and by facilitating EMT.
...
PMID:Hypoxia promotes fibrogenesis in vivo via HIF-1 stimulation of epithelial-to-mesenchymal transition. 1803 92
HIF (hypoxia-inducible factor)-3alpha is the third member of the HIF transcription factor family. Whereas
HIF-1alpha
and -2alpha play critical roles in the cellular and systemic adaptation to hypoxia, little is known about the regulation and function of HIF-3alpha. At least five different splice variants may be expressed from the human HIF-3alpha locus that are suggested to exert primarily negative regulatory effects on hypoxic gene induction. In the present paper, we report that hypoxia induces the human HIF-3alpha gene at the transcriptional level in a HIF-1-dependent manner. HIF-3alpha2 and HIF-3alpha4 transcripts, the HIF-3alpha splice variants expressed in Caki-1 renal carcinoma cells, rapidly increased after exposure to hypoxia or chemical hypoxia mimetics. siRNA (small interfering RNA)-mediated HIF-alpha knockdown demonstrated that HIF-3alpha is a specific target gene of
HIF-1alpha
, but is not affected by HIF-2alpha knockdown. In contrast with
HIF-1alpha
and HIF-2alpha, HIF-3alpha is not regulated at the level of protein stability. HIF-3alpha protein could be detected under normoxia in the cytoplasm and nuclei, but increased under hypoxic conditions. Promoter analyses and chromatin immunoprecipitation experiments localized a functional hypoxia-responsive element 5' to the transcriptional start of HIF-3alpha2. siRNA-mediated knockdown of HIF-3alpha increased transactivation of a HIF-driven reporter construct and mRNA expression of
lysyl oxidase
. Immunohistochemistry revealed an overlap of
HIF-1alpha
-positive and HIF-3alpha-positive areas in human renal cell carcinomas. These findings shed light on a novel aspect of HIF-3alpha as a HIF-1 target gene and point to a possible role as a modulator of hypoxic gene induction.
...
PMID:The human HIF (hypoxia-inducible factor)-3alpha gene is a HIF-1 target gene and may modulate hypoxic gene induction. 1969 16
The adaptive response of endothelial cells to hypoxia involves a substantial remodeling of extracellular matrix (ECM). In endothelial cells hypoxia up-regulates
lysyl oxidase
(
LOX
), a key enzyme in ECM assembly, relevant to vascular homeostasis. However, the mechanism underlying this response has not been established. Hypoxia up-regulated
LOX
expression in endothelial cells (HUVEC and BAEC) and concomitantly increased
LOX
enzymatic activity. This effect was independent of autocrine factors released by hypoxic cells and relies on a transcriptional mechanism. Both mTOR blockade and
HIF-1alpha
knockdown slightly prevented
LOX
up-regulation by hypoxia, suggesting that
HIF-1alpha
is only partially responsible for this effect. In fact, serial promoter deletion and mutagenesis studies indicated a limited contribution of the previously described hypoxia response element (-75 bp). Interestingly, Smad over-expression further increased
LOX
transcriptional activity in endothelial cells exposed to hypoxia. Moreover, the increase in
LOX
expression triggered by hypoxia was significantly reduced by reactive oxygen species (ROS) inhibitors. Thus, our data support a role of Smad signaling and ROS in the up-regulation of
LOX
by hypoxia in endothelial cells.
...
PMID:Hypoxia-induced ROS signaling is required for LOX up-regulation in endothelial cells. 2162 4
