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Query: UMLS:C0011570 (
depression
)
172,036
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We examined phosphatidylcholine (PC) effects on the isolated rat heart subjected to low- or zero-flow ischemia followed by reperfusion. Untreated hearts subjected to 30 min of low-flow ischemia recovered 15% contractility following reperfusion compared to time-control hearts. Phosphatidylcholine (0.005%) addition either 10 or 20 min before ischemia significantly enhanced recovery to approximately 61% and reduced the incidence of arrhythmias during ischemia and reperfusion. Contracture during ischemia and reperfusion was significantly reduced when PC was added 20 min before ischemia. Phosphatidylcholine was ineffective when administered at the time of reperfusion except for a moderate reduction in arrhythmia development. Phosphatidylcholine also produced a salutary effect when added 20 min prior to zero-flow ischemia. Subsarcolemmal mitochondria (SLM) and, to a much lesser degree, interfibrillar mitochondria (IFM) of untreated hearts subjected to low-flow ischemia and reperfusion exhibited depressed oxidative phosphorylation which was prevented by PC. Both mitochondrial populations exhibited a marked
depression
in
ADP/ATP translocase
activity; however, this was generally unaffected by PC. Subsarcolemmal mitochondria but not IFM of zero-flow ischemic reperfused hearts also exhibited significantly depressed oxidative phosphorylation, which was unaffected by PC. Zero-flow ischemia produced a rapid and total cessation of contractility. Both populations exhibited a substantial PC-insensitive reduction in translocase activity. Our results demonstrate, for the first time, a protection by PC on the reperfused ischemic heart. The PC-induced protection following low-flow but not zero-flow ischemia is associated with improved SLM oxidative phosphorylation suggesting dissimilar contribution of mitochondria to reperfusion-associated myocardial injury.
...
PMID:Protection of the reperfused ischemic isolated rat heart by phosphatidylcholine. 168 76
The direct effects of varying concentrations (5-40 mM) of D,L-carnitine were studied in two populations, subsarcolemmal and interfibrillar, of cardiac mitochondria exposed to inorganic phosphate (Pi). After 5 min preincubation 20 mM Pi significantly depressed oxidative phosphorylation rate and
ADP/ATP translocase
activity, in both populations. Inclusion of D,L-carnitine during preincubation significantly prevented the Pi-induced
depression
in oxidative phosphorylation without affecting the ADP/ATP translocate system. The Pi-induced inhibition in mitochondrial oxygen consumption rate was seen with either pyruvate-malate, glutamate-malate or succinate as respiratory substrates and was also observed in uncoupled mitochondria treated with 2,4-dinitrophenol. Mitochondrial swelling and shrinkage studies revealed Pi-induced inner membrane instability, a phenomenon prevented by D,L-carnitine in a dose-dependent manner. The effect of Pi was also observed at a concentration of 5 mM which was also prevented by carnitine. Mepacrine, a phospholipase A2 inhibitor, failed to prevent any of the effects of Pi. The results therefore suggest that Pi can produce a
depression
in mitochondrial oxidative phosphorylation through a mechanism possibly associated with disturbed inner membrane structure and function but apparently unrelated to phospholipase A2 activation. The salutary actions of carnitine may partly explain its protective effects in the ischemic and reperfused heart, a phenomenon associated with enhanced intracellular Pi accumulation.
...
PMID:Reduction of phosphate-induced dysfunction in rat heart mitochondria by carnitine. 225 1
The possible relationship of the atractyloside-sensitive adenine nucleotide translocase activity, oxidative phosphorylation, and the recovery of ventricular contractility following reperfusion of the ischemic isolated rat heart was studied. Five minutes of total global ischemia without reperfusion produced a significant
depression
in adenine nucleotide translocase in subsarcolemmal mitochondria (SLM), whereas a minimum of 10 min ischemia was required to observe a significant
depression
in interfibrillar mitochondria (IFM). Increasing durations of ischemia resulted in a progressively larger
depression
in translocase activity, with a maximum
depression
of approximately 75% seen in both populations following 20 min ischemia. In contrast, oxidative phosphorylation was totally unaffected in either mitochondrial population following up to 20 min of ischemia. We assessed whether translocase activity or oxidative phosphorylation were related to contractile recovery in hearts reperfused following various durations of ischemia. In SLM, translocase activity was further depressed following reperfusion compared with pre-reperfusion ischemic values, whereas with IFM only reperfusion following 5 min ischemia produced a further
depression
in translocase values. Oxidative phosphorylation rates of SLM and IFM were significantly depressed following reperfusion of ischemic hearts, although SLM exhibited a generally higher sensitivity in this regard. In reperfused hearts, an overall significant relationship was found between oxidative phosphorylation rate and adenine translocase activity as well as between translocase activity and post-reperfusion contractile recovery. These data show that ischemia can produce a significant
depression
in translocase activity in the absence of any change in oxidative phosphorylation. The results also suggest that the
depression
in mitochondrial
ADP/ATP translocase
and subsequent inhibition of oxidative phosphorylation in the reperfused heart may represent one of the important contributory mechanisms involved in cardiac failure and injury during acute ischemia and reperfusion.
...
PMID:Relationship between oxidative phosphorylation and adenine nucleotide translocase activity of two populations of cardiac mitochondria and mechanical recovery of ischemic hearts following reperfusion. 254 94
1. The effect of 100 microM (20 micrograms ml-1) of D,L-carnitine was studied on the isolated heart of the rat subjected to 30 min of low flow ischaemia followed by reperfusion. 2. In untreated hearts (n = 30) ischaemia produced an almost total loss of contractility (P less than 0.05 compared with non-ischaemic time control) which was accompanied by an increase in resting tension of approximately 235% (P less than 0.05). Ventricular arrhythmias developed during ischaemia in 100% (P less than 0.05) of untreated hearts studied. Following reperfusion, untreated hearts recovered 16.3% of contractile function and demonstrated a 60% elevation in resting tension. The incidence of reperfusion-associated ventricular fibrillation was 60%. 3. Carnitine treatment produced no effect on either the contractile
depression
or the elevation in resting tension during ischaemia but did significantly decrease the incidence of arrythmias at the termination of ischaemia to 63.3% (n = 30, P less than 0.05). In the presence of carnitine, contractile recovery at the end of reperfusion was significantly increased to 30.2% (n = 10, P less than 0.05) and the elevation in resting tension was decreased to 30% (n = 10, P greater than 0.05). The incidence of ventricular arrhythmias during reperfusion was significantly reduced by carnitine. 4. Two populations of mitochondria, subsarcolemmal (SLM) and interfibrillar (IFM) isolated at the end of the ischaemic period exhibited an overall increase in oxidative phosphorylation rates as well as uncoupled oxygen consumption; both phenomena were more pronounced with IFM. Carnitine generally potentiated this response. A 29% and 38% inhibition in atractyloside-sensitive ADP uptake was observed in SLM and IFM, respectively, following ischaemia, which was partially prevented by carnitine. 5. After 10min of reperfusion, adenosine diphosphate (ADP) uptake in SLM was further reduced to 55% of control whereas with IFM, uptake was not different from that seen at the end of ischaemia. Mitochondria isolated from hearts after 30 min of reperfusion revealed a significantly depressed oxidative phosphorylation as well as
ADP/ATP translocase
activity. These defects were partially reversed in hearts perfused with carnitine. 6. Our study demonstrates that D,L-carnitine protects the rat isolated heart against injury associated with ischaemia and reperfusion through a mechanism associated with improved mitochondrial function.
...
PMID:Effect of D,L-carnitine on the response of the isolated heart of the rat to ischaemia and reperfusion: relation to mitochondrial function. 261 94
