Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
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Target Concepts:
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Query: EC:3.4.24.3 (
collagenase
)
18,340
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Recent research on alpha-tocopherol has revealed specific cellular functions of this compound belonging to the vitamin E family. Alpha-tocopherol can act as a radical scavenger, as a pro-oxidant, as an anti-alkylation agent and, most important, by mechanisms that are independent of the above properties. To the last group belong protein kinase C and 5-lipoxygenase inhibition at post-translational level, as well as alpha-tocopherol activation of protein phosphatase 2A and diacylglycerol kinase. Furthermore, at transcriptional level, several genes (CD36, alpha-
TTP
, alpha-tropomyosin, and
collagenase
) are modulated by alpha-tocopherol. These effects result in inhibition of smooth muscle cell proliferation, platelet aggregation, and monocyte adhesion and may be related to the alleged protection of atherosclerosis by vitamin E. On the other side, epidemiological and intervention studies have shown some inconsistent results. Rather than disregarding vitamin E as a means to protect against atherosclerosis progression, it would be wiser to better design clinical trials based on current knowledge of the biological properties of the molecule.
...
PMID:Vitamin E 80th anniversary: a double life, not only fighting radicals. 1179 98
Molecules provided with an antioxidant function may have additional properties, the latter being sometimes of greater importance than the former. In the last ten years, alpha-tocopherol has revealed precise cellular functions, some of which are independent of its antioxidant/radical scavenging ability. At the posttranslational level, alpha-tocopherol inhibits protein kinase C and 5-lipoxygenase and activates protein phosphatase 2A and diacylglycerol kinase. Some genes (CD36, alpha-
TTP
, alpha-tropomyosin, and
collagenase
) are affected by alpha-tocopherol at the transcriptional level. alpha-Tocopherol also induces inhibition of cell proliferation, platelet aggregation and monocyte adhesion. These effects are unrelated to the antioxidant activity of vitamin E, but rather are believed to be a result of specific interactions of vitamin E with components of the cell, e. g. proteins, enzymes and membranes. This review focuses on novel non-antioxidant functions of alpha-tocopherol and discusses the possibility that many of the effects previously attributed to the antioxidant functions can also be explained by non-antioxidant mechanisms.
...
PMID:The 80th anniversary of vitamin E: beyond its antioxidant properties. 1203 35
Molecules in biological systems often can perform more than one function. In particular, many molecules have the ability to chemically scavenge free radicals and thus act in the test tube as antioxidant, but their main biological function is by acting as hormones, ligands for transcription factors, modulators of enzymatic activities or as structural components. In fact, oxidation of these molecules may impair their biological function, and cellular defense systems exist which protect these molecules from oxidation. Vitamin E is present in plants in 8 different forms with more or less equal antioxidant potential (alpha-, beta-, gamma-, delta-tocopherol/tocotrienols); nevertheless, in higher organisms only alpha-tocopherol is preferentially retained suggesting a specific mechanism for the uptake for this analogue. In the last 20 years, the route of tocopherol from the diet into the body has been clarified and the proteins involved in the uptake and selective retention of alpha-tocopherol discovered. Precise cellular functions of alpha-tocopherol that are independent of its antioxidant/radical scavenging ability have been characterized in recent years. At the posttranslational level, alpha-tocopherol inhibits protein kinase C, 5-lipoxygenase and phospholipase A2 and activates protein phosphatase 2A and diacylglycerol kinase. Some genes (e. g. scavenger receptors, alpha-
TTP
, alpha-tropomyosin, matrix metalloproteinase-19 and
collagenase
) are modulated by alpha-tocopherol at the transcriptional level. alpha-Tocopherol also inhibits cell proliferation, platelet aggregation and monocyte adhesion. These effects are unrelated to the antioxidant activity of vitamin E, and possibly reflect specific interactions of alpha-tocopherol with enzymes, structural proteins, lipids and transcription factors. Recently, several novel tocopherol binding proteins have been cloned, that may mediate the non-antioxidant signaling and cellular functions of vitamin E and its correct intracellular distribution. In the present review, it is suggested that the non-antioxidant activities of tocopherols represent the main biological reason for the selective retention of alpha-tocopherol in the body, or vice versa, for the metabolic conversion and consequent elimination of the other tocopherols.
...
PMID:Non-antioxidant activities of vitamin E. 1513 10
Several genes are regulated by tocopherols which can be categorized, based on their function, into five groups: genes that are involved in the uptake and degradation of tocopherols (Group 1) include alpha-tocopherol transfer protein (alpha-TTP) and cytochrome P450 (CYP3A); genes that are associated with lipid uptake and atherosclerosis (Group 2) include CD36, SR-BI and SR-AI/II. Genes that modulate the expression of extracellular proteins (Group 3) include tropomyosin, collagen(alpha1),
MMP-1
, MMP-19 and connective tissue growth factor (CTGF). Genes that are related to inflammation, cell adhesion and platelet aggregation (Group 4) include E-selectin, ICAM-1, integrins, glycoprotein IIb, II-2, IL-4 and IL-beta. Group 5 comprises genes coding for proteins involved in cell signaling and cell cycle regulation and consists of PPAR-gamma, cyclin D1, cyclin E, Bcl2-L1, p27 and CD95 (Apo-1/Fas ligand). The expression of P27, Bcl2, alpha-
TTP
, CYP3A, tropomyosin, II-2, PPAR-gamma, and CTGF appears to be up-regulated by one or more tocopherols whereas all other listed genes are down-regulated. Several mechanisms may underlie tocopherol-dependent gene regulation. In some cases protein kinase C has been implicated due to its deactivation by alpha-tocopherol and its participation in the regulation of a number of transcription factors (NF-kappaB, AP-1). In other cases a direct involvement of PXR/RXR has been documented. The antioxidant responsive element (ARE) appears in some cases to be involved as well as the transforming growth factor beta responsive element (TGF-beta-RE). This heterogeneity of mediators of tocopherol action suggests the need of a common element that could be a receptor or a co-receptor, able to interact with tocopherol and with transcription factors directed toward specific regions of promoter sequences of sensitive genes. Here we review recent results of the search for molecular mechanisms underpinning the central signaling mechanism.
...
PMID:Regulation of gene expression by alpha-tocopherol. 1531 6
Tristetraprolin (
TTP
or ZFP36) is a tandem CCCH zinc-finger RNA-binding protein that regulates the stability of certain AU-rich element (ARE) mRNAs. Recent work suggests that
TTP
is deficient in cancer cells when compared with normal cell types. In this study we found that
TTP
expression was lower in invasive breast cancer cells (MDAMB231) compared with normal breast cell lines MCF12A and MCF-10.
TTP
targets were probed using a novel approach by expressing the C124R zinc-finger
TTP
mutant that functions as dominant negative and increases target mRNA expression. In contrast to wild-type
TTP
, C124R
TTP
was able to increase certain ARE-mRNA expressions in serum-stimulated breast cancer cells. Using an ARE-gene microarray, novel targets of
TTP
regulation were identified, namely, urokinase plasminogen activator (uPA), uPA receptor and
matrix metalloproteinase-1
, all known to have prominent roles in breast cancer invasion and metastasis. Expression of these targets was upregulated in tumorigenic types, particularly in highly invasive MDAMB231. The mRNA half-lives of these
TTP
-regulated genes were increased in
TTP
-knockout embryonic mouse fibroblasts, as assessed using real-time polymerase chain reaction, whereas forced restoration of
TTP
by transfection led to a reduction in their mRNA levels. RNA immunoprecipitation confirmed an association of
TTP
, but not C124R, with these target transcripts. Moreover,
TTP
reduced, whereas the mutant C124R
TTP
increased, the activity of reporter constructs fused to target ARE. As a result of
TTP
regulation, invasiveness of MDAMB231 cells was reduced. The data suggest that
TTP
, in a 3' untranslated region-and ARE-dependent manner, regulates an important subset of cancer-related genes that are involved in cellular growth, invasion and metastasis.
...
PMID:The RNA-binding zinc-finger protein tristetraprolin regulates AU-rich mRNAs involved in breast cancer-related processes. 2049 46
The activities of RNA-binding proteins are perturbed in several pathological conditions, including cancer. These proteins include tristetraprolin (
TTP
, ZFP36) and HuR (ELAVL1), which respectively promote the decay or stability of adenylate-uridylate-rich (AU-rich) mRNAs. Here, we demonstrated that increased stabilization and subsequent over-expression of HuR mRNA were coupled to
TTP
deficiency. These findings were observed in breast cancer cell lines with an invasive phenotype and were further confirmed in ZFP36-knockout mouse fibroblasts. We show that
TTP
-HuR imbalance correlated with increased expression of AU-rich element (ARE) mRNAs that code for cancer invasion genes. The microRNA miR-29a was abundant in invasive breast cancer cells when compared to non-tumourigenic cell types. When normal breast cells were treated with miR-29a, HuR mRNA and protein expression were up-regulated. MiR-29a recognized a seed target in the
TTP
3' UTR and a cell-permeable miR-29a inhibitor increased
TTP
activity towards HuR 3' UTR. This led to HuR mRNA destabilization and restoration of the aberrant
TTP
-HuR axis. Subsequently, the cancer invasion factors uPA,
MMP-1
and MMP-13, and cell invasiveness, were decreased. The
TTP
:HuR mRNA ratios were also perturbed in samples from invasive breast cancer patients when compared with normal tissues, and were associated with invasion gene expression. This study demonstrates that an aberrant ARE-mediated pathway in invasive cancer can be normalized by targeting the aberrant and functionally coupled
TTP
-HuR axis, indicating a potential therapeutic approach.
...
PMID:miR-29a inhibition normalizes HuR over-expression and aberrant AU-rich mRNA stability in invasive cancer. 2338 14
