Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:2.3.3.1 (
citrate synthase
)
4,488
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have previously demonstrated that alpha(1)-adrenergic (AR)-mediated contraction is diminished in the senescent rat heart, in part due to alterations in
protein kinase C
(
PKC
) signaling. Since chronic exercise training (EX) can exert independent effects on increasing alpha(1)-AR contraction in the adult rat heart, we sought to determine whether age-related defects in alpha(1)-AR contraction could be reversed by chronic EX. We further hypothesized that improved alpha(1)-AR contraction by EX may be
PKC
dependent. Adult (4 months; Y) and aged (24 months; O) male F344 rats were treadmill-trained (n = 12-13/group; TR) at approximately 70% of VO(2max) for 12 weeks or remained sedentary (YSED, YTR, OSED, OTR). Training status was verified by plantaris
citrate synthase
activity and left ventricular (LV) contractile responses (dP/dt) to alpha(1)-AR stimulation were assessed in Langendorff-perfused hearts using the alpha(1)-AR agonist phenylephrine (PE; 10(-5) M) with and without the
PKC
inhibitor chelerythrine (CE; 10(-6) M). alpha(1)-AR stimulation elicited greater increases in LV dP/dt in hearts isolated from OTR (4525.4 +/- 224.1 mmHg/s) versus OSED (3658.9 +/- 291.0 mmHg/s), while CE abolished PE-induced effects (OTR, 4069.2 +/- 341.2) versus (OSED, 3608.9 +/- 321.2) (p < .01). Upon western blotting, phosphospecific antibodies directed at
PKCepsilon
(pSer(729)) revealed greater levels in LV isolated from YTR versus YSED, and EX ameliorated aged-related reductions in OSED (p < .001). Basal
PKCepsilon
mRNA levels were also greater in YTR and OTR versus YSED (p < .01). PE-induced increases in phosphor-
PKCdelta
(pThr(507)) levels observed in OSED were attenuated in OTR (p < .03). Chronic EX was also associated with significant reductions in
PKCalpha
(pSer(657)) levels following PE in OTR (p < .002). The results indicate that age-related reductions in alpha(1)-AR contraction can be partially reversed by EX in the rat heart. These results further suggest that alterations in
PKC
levels underlie, at least in part, EX-induced improvements in alpha(1)-AR contraction.
...
PMID:Chronic exercise improves myocardial inotropic reserve capacity through alpha1-adrenergic and protein kinase C-dependent effects in Senescent rats. 1560 54
Among the multitude of dysregulated signalling mechanisms that comprise insulin resistance in divergent organs, the primary events in the development of type 2 diabetes are not well established. As
protein kinase C
(
PKC
) activation is consistently present in skeletal muscle of obese and insulin resistant subjects, we generated a transgenic mouse model that overexpresses constitutively active PKC-beta(2) in skeletal muscle to test whether activation of
PKC
is sufficient to cause an aversive whole-body phenotype. Upon this genetic modification, increased serine phosphorylation in Irs1 was observed and followed by impaired (3)H-deoxy-glucose uptake and muscle glycogen content, and transgenic mice exhibited insulin and glucose intolerance as they age. Muscle histochemistry revealed an increase in lipid deposition (intramyocellular lipids), and transgenic mice displayed impaired expression of transcriptional regulators of genes involved in fatty acid oxidation (peroxisome proliferator-activated receptor-gamma, PGC-1beta, acyl-CoA oxidase) and lipolysis (hormone-sensitive lipase). In this regard, muscle of transgenic mice exhibited a reduced capacity to oxidize palmitate and contained less mitochondria as determined by
citrate synthase
activity. Moreover, the phenotype included a profound decrease in the daily running distance, intra-abdominal and hepatic fat accumulation and impaired insulin action in the brain. Together, our data suggest that activation of a classical
PKC
in skeletal muscle as present in the pre-diabetic state is sufficient to cause disturbances in whole-body glucose and lipid metabolism followed by profound alterations in oxidative capacity, ectopic fat deposition and physical activity.
...
PMID:Enforced expression of protein kinase C in skeletal muscle causes physical inactivity, fatty liver and insulin resistance in the brain. 2056 75
The neurobiological basis of bipolar disorder (BD) remains unknown; nevertheless, mitochondrial dysfunction has been identified in this disorder. Inactivation of any step in the tricarboxylic acid (TCA) cycle can impair mitochondrial ATP production. There is recent evidence indicating that
PKC
is an important therapeutic target for bipolar disorder. Therefore, we evaluated the effects of tamoxifen (TMX--a
PKC
inhibitor) on the activities of enzymes in the TCA cycle of rat brains subjected to an animal model of mania induced by amphetamine. In the reversal treatment, Wistar rats were first treated with d-AMPH or saliratsne (Sal) for 14 days. Thereafter, between days 8 and 14, the rats were administered TMX or Sal. The
citrate synthase
, succinate dehydrogenase, and malate dehydrogenase were evaluated in the frontal cortex, hippocampus, and striatum. The d-AMPH administration inhibited TCA cycle enzymes activity in all analyzed structures, and TMX reversed d-AMPH-induced dysfunction. In addition, we observed a negative correlation between d-AMPH-induced hyperactivity and the activity of these enzymes in the rat's brain. These findings suggested that TCA cycle enzymes inhibition can be an important link for the mitochondrial dysfunction seen in BD, and TMX exert protective effects against the d-AMPH-induced TCA cycle enzymes dysfunction.
...
PMID:Effects of tamoxifen on tricarboxylic acid cycle enzymes in the brain of rats submitted to an animal model of mania induced by amphetamine. 2435 11
