Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
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Target Concepts:
Gene/Protein
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Query: UNIPROT:P04179 (
MnSOD
)
2,777
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Reactive oxygen species (ROS), particularly superoxide (O(2)(.-)), have been identified as key signaling intermediates in ANG II-induced neuronal activation and sympathoexcitation associated with cardiovascular diseases, such as hypertension and heart failure. Studies of the central nervous system have identified NADPH oxidase as a primary source of O(2)(.-) in ANG II-stimulated neurons; however, additional sources of O(2)(.-), including mitochondria, have been mostly overlooked. Here, we tested the hypothesis that ANG II increases mitochondria-produced O(2)(.-) in neurons and that increased scavenging of mitochondria-produced O(2)(.-) attenuates ANG II-dependent intraneuronal signaling. Stimulation of catecholaminergic (CATH.a) neurons with ANG II (100 nM) increased mitochondria-localized O(2)(.-) levels, as measured by MitoSOX Red fluorescence. This response was significantly attenuated in neurons overexpressing the mitochondria-targeted O(2)(.-)-scavenging enzyme
Mn-SOD
. To examine the biological significance of the ANG II-mediated increase in mitochondria-produced O(2)(.-), we used the whole cell configuration of the patch-clamp technique to record the well-characterized ANG II-induced inhibition of voltage-gated K(+) current (I(Kv)) in neurons. Adenovirus-mediated
Mn-SOD
overexpression or pretreatment with the cell-permeable antioxidant tempol (1 mM) significantly attenuated ANG II-induced inhibition of I(Kv). In contrast, pretreatment with extracellular SOD protein (400 U/ml) had no effect.
Mn-SOD
overexpression also inhibited ANG II-induced activation of Ca(2+)/
calmodulin
kinase II, a redox-sensitive protein known to modulate I(Kv). These data indicate that ANG II increases mitochondrial O(2)(.-), which mediates, at least in part, ANG II-induced activation of Ca(2+)/
calmodulin
kinase II and inhibition of I(Kv) in neurons.
...
PMID:Mitochondria-produced superoxide mediates angiotensin II-induced inhibition of neuronal potassium current. 2008 30
Trifoliate orange [Poncirus trifoliata (L) Raf.] is considered highly arbuscular mycorrhizal (AM) dependent for growth responses through a series of signal transductions in form of various physiological responses. The proposed study was carried out to evaluate the effect of an AM fungus (Funneliformis mosseae) on growth, antioxidant enzyme (catalase, CAT; superoxide dismutase, SOD) activities, leaf relative water content (RWC),
calmodulin
(
CaM
), superoxide anion ([Formula: see text]), and hydrogen peroxide (H2O2) concentrations in leaves of the plants exposed to both well-watered (WW) and drought stress (DS) conditions. A 58-day of DS significantly decreased mycorrhizal colonization by 60% than WW. Compared to non-AM seedlings, AM seedlings displayed significantly higher shoot morphological properties (plant height, stem diameter, and leaf number), biomass production (shoot and root fresh weight) and leaf RWC, regardless of soil water status. AM inoculation significantly increased
CaM
and soluble protein concentrations and CAT activity, whereas significantly decreased [Formula: see text] and H2O2 concentration under both WW and DS conditions. The AM seedlings also exhibited significantly higher Cu/Zn-SOD and
Mn-SOD
activities than the non-AM seedlings under DS but not under WW, which are triggered by higher
CaM
levels in AM plants on the basis of correlation studies. Further, the negative correlation of Cu/Zn-SOD and
Mn-SOD
activities with [Formula: see text] and H2O2 concentration showed the DS-induced ROS scavenging ability of
CaM
mediated SODs under mycorrhization. Our results demonstrated that AM-inoculation elevated the synthesis of
CaM
in leaves and up-regulated activities of the antioxidant enzymes, thereby, repairing the possible oxidative damage to plants by lowering the ROS accumulation under DS condition.
...
PMID:Mycorrhizal-induced calmodulin mediated changes in antioxidant enzymes and growth response of drought-stressed trifoliate orange. 2553 96
