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Enzyme
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Query: EC:2.3.1.21 (
CPT
)
4,580
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A 20-year-old man was shown to have a deficiency of
carnitine palmitoyltransferase
(
CPT
) II in skeletal muscle. The evidence was: (i) there was no significant oxidation of [9,10-3H]-palmitate or of [1-14C]palmitate in mitochondrial fractions from fresh skeletal muscle from the patient; (ii) all the
CPT
activity in a homogenate of fresh muscle from the patient was overt (
CPT I
) with no increase in activity after the inner membrane was disrupted; (iii) all the
CPT
activity in the patient's muscle was inhibited by malonyl-CoA; and (iv) an immunoreactive peptide of 67 kDa corresponding to CPT II, present in mitochondria from controls, was absent in those from the patient.
...
PMID:A case of carnitine palmitoyltransferase II deficiency in human skeletal muscle. 319 28
1. The kinetic properties of overt
carnitine palmitoyltransferase
(
CPT I
,
EC 2.3.1.21
) were studied in rat liver mitochondria isolated from untreated, diabetic and insulin-treated diabetic animals. A comparison was made of the time courses required for the changes in these properties of
CPT I
to occur and for the development of ketosis during the induction of chronic diabetes and its reversal by insulin treatment. 2. The development of hyperketonaemia over the first 5 days of insulin withdrawal from streptozotocin-treated rats was accompanied by parallel increases in the activity of
CPT I
and in the I0.5 (concentration required to produce 50% inhibition) of the enzyme for malonyl-CoA. 3. The rapid reversal of the ketotic state by treatment of chronically diabetic rats with 6 units of regular insulin was not accompanied by any change in the properties of
CPT I
over the first 4 h. Higher doses of insulin (15 units), delivered throughout a 4 h period, resulted in an increase in the affinity of
CPT I
for malonyl-CoA, but the sensitivity of the enzyme to the inhibitor was still significantly lower than in mitochondria from normal animals. 4. Conversely, when insulin treatment was continued over a 24 h period, full restoration of the sensitivity of the enzyme to malonyl-CoA was achieved. However, the activity of the enzyme was only decreased marginally. 5. These results are discussed in terms of the possibility that the major regulatory sites of the rate of hepatic oxidation may vary in different phases of the induction and reversal of chronic diabetes.
...
PMID:Role of carnitine palmitoyltransferase I in the regulation of hepatic ketogenesis during the onset and reversal of chronic diabetes. 327 23
1. A permeabilized isolated rat liver cell preparation was developed to achieve selective permeabilization of the cell membrane to metabolites and to allow the assay of mitochondrial overt
carnitine palmitoyltransferase
(
CPT I
) activity in situ. By performing the digitonin-induced permeabilization in the presence of fluoride and bivalent-metal-cation sequestrants, it was possible to demonstrate that the activity of other enzymes, which are regulated by reversible phosphorylation, was preserved during the procedure and subsequent washing of cells before assay. 2.
CPT
activity at a sub-optimal palmitoyl-CoA concentration was almost totally (approximately 90%) inhibited by malonyl-CoA, indicating that mitochondrial
CPT I
was largely measured in this preparation. 3. The palmitoyl-CoA-saturation and malonyl-CoA-inhibition curves for
CPT
activity in permeabilized cells were very similar to those obtained previously for the enzyme in isolated liver mitochondria. Moreover, starvation and diabetes had the same effects on enzyme activity, affinity for palmitoyl-CoA and malonyl-CoA sensitivity of
CPT I
in isolated cells as found in isolated mitochondria. These physiologically induced changes persisted through the cell preparation and incubation period. 4. Neither incubation of cells with glucagon or insulin nor incubation with pyruvate and lactate before permeabilization resulted in alterations of these parameters of
CPT I
in isolated cells. 5. The results are discussed in relation to the temporal relationships of changes in the activity and properties of
CPT I
in vivo in relation to the effects of insulin and glucagon on fatty acid metabolism in vivo.
...
PMID:Use of a selectively permeabilized isolated rat hepatocyte preparation to study changes in the properties of overt carnitine palmitoyltransferase activity in situ. 328 53
Fatty acid oxidation and synthesis were studied in isolated hepatocytes from adult rats adapted for 44 days on low-fat, high-carbohydrate (LF), diet or high-fat diets, composed of long-chain (LCT) or medium-chain (MCT) triacylglycerols. The rates of [1-14C]octanoate oxidation were almost similar in each group studied, whereas the oxidation of [1-14C]oleate was 50% lower in the LF group than in animals adapted to high-fat diets. The rates of oleate oxidation are inversely correlated with the rates of lipogenesis. However, it seems unlikely that [malonyl-CoA] itself represents the sole mechanism involved in the regulation of oleate oxidation during long-term LCT or MCT feeding, since: (1) despite a 3-fold higher concentration of malonyl-CoA in MCT-fed rats than in LCT-fed ones, the rates of oleate oxidation are similar; (2) when malonyl-CoA concentration is increased after stimulation of lipogenesis (by adding lactate + pyruvate) in MCT-fed rats, to a level comparable with that of the LF group, the rate of oleate oxidation remains 55% higher than that measured under similar conditions in the LF-fed rats; (3) in the LF group, the 90% decrease in malonyl-CoA concentration [by 5-(tetradecyloxy)-2-furoic acid] is not associated with a stimulation of oleate oxidation. By contrast, the sensitivity of
carnitine palmitoyltransferase I
(
CPT I
) to malonyl-CoA is markedly decreased in the LCT- and MCT-fed rats, by 90% and 70% respectively. The relevance of this decrease in the sensitivity of
CPT I
is discussed.
...
PMID:Fatty acid metabolism in hepatocytes isolated from rats adapted to high-fat diets containing long- or medium-chain triacylglycerols. 335 99
1. Estimates of the functional sizes of the molecular species responsible for the overt (I) and latent (II) activities of
carnitine palmitoyltransferase
(
CPT
) in 48 h-starved rat liver mitochondria were obtained from radiation inactivation experiments. 2. The decay in the activity of total
CPT
and that of CPT II only (after inhibition of
CPT I
) was measured in mitochondrial samples exposed to different doses of high-energy ionizing radiation. 3. The decay curves obtained by plotting residual activity of total
CPT
as a logarithm function of irradiation dose suggested the contribution of more than one target towards total
CPT
activity. 4. By contrast, in mitochondria in which
CPT I
activity was approximately 95% inhibited, the activity of
CPT
decayed in a simple mono-exponential manner. Target-size analysis yielded an approximate Mr of 69,700 for this component (CPT II). 5. This information, as well as that on the relative non-irradiated activities of
CPT I
and CPT II, was used in graphical and statistical methods to obtain the parameters of the decay curve for
CPT I
. These analyses yielded an approximate Mr of 96,700 for
CPT I
.
...
PMID:Evidence for distinct functional molecular sizes of carnitine palmitoyltransferases I and II in rat liver mitochondria. 335 31
The specific
carnitine palmitoyltransferase I
(
CPT I
)-inhibitor POCA - sodium-2(5-(4-chlorphenyl)pentyl-oxirane carboxylate - was used in isolated perfused hearts of acutely diabetic, ketotic (AD, 100 mg streptozotocin/kg body weight), chronically diabetic (CD, 60 mg streptozotocin/kg body weight), and obese ZUCKER rats (fa/fa) to study different forms of insulin resistance. In hearts of AD rats an absolute insulin resistance was observed which could be attenuated by perfusion of the hearts with POCA (10 microM). The insulin sensitivity could be fully restored and was not any longer significantly different from control hearts. In hearts of CD rats, which show a relative insulin resistance, POCA only slightly stimulated glucose oxidation and uptake, but the total rate of uptake and conversion of glucose as well as the responsiveness of these hearts to insulin remained low. In hearts of obese ZUCKER rats, the rate of glucose oxidation was accelerated to control levels by perfusion with POCA, however, the rate of glycolysis and glucose uptake remained reduced as compared to controls. Thus, POCA shifted the glucose metabolism by stimulating oxidation without normalizing the reduced glucose uptake. It follows that in hearts of AD rats the insulin resistance is due to the accelerated lipid metabolism described and is, therefore, fully reversible if the oxidation of fatty acids is inhibited. In hearts of ZUCKER rats a form of insulin resistance mediated by lipid metabolism seems to be responsible for the reduced glucose oxidation and the lowered rate of glycolysis. The insulin resistance can be eliminated and has to be distinguished from a defect in the glucose uptake system not affected by POCA. In hearts of CD rats insulin resistance is not dependent on disturbances in lipid metabolism and is practically not influenced by POCA. Thus, a CPI I-inhibitor might be useful to differentiate various forms of insulin resistance and therapeutically beneficial in forms mediated by lipid metabolic defects.
...
PMID:Influence of the carnitine palmitoyltransferase inhibitor POCA on myocardial performance and metabolism of insulin resistant rats. 338 70
Culture of rat hepatocytes with etomoxir, an inhibitor of
carnitine palmitoyltransferase I
(
CPT I
), for 48 h, resulted in increased carnitine acetyltransferase (CAT) activity (74%), a marked decrease in
CPT
activity (82%) measured in detergent extracts, and increased activities of glucose-6-phosphate dehydrogenase (227%) and fructose-1,6-bisphosphatase (65%). Changes in CAT and
CPT
activities were not observed after 4 h culture with etomoxir. When hepatocytes were cultured with etomoxir and benzafibrate (a hypolipidaemic analogue of clofibrate) for 48 h, etomoxir prevented the 5-fold increase in CAT activity caused by bezafibrate, whereas bezafibrate suppressed the increase in glucose-6-phosphate dehydrogenase and fructose-bisphosphatase caused by etomoxir. However, bezafibrate did not prevent the suppression of
CPT
activity by etomoxir. Etomoxir inhibited palmitate beta-oxidation and ketogenesis after short-term (0-4 h) and long-term (48 h) exposure, but it caused accumulation of triacylglycerol in hepatocytes only after short-term exposure (0-4 h). These effects of etomoxir on fatty acid metabolism and suppression of
CPT
(after 48 h) were similar in periportal and perivenous hepatocytes, but the increases in CAT and glucose-6-phosphate dehydrogenase activities were higher in periportal than in perivenous cells. The effects of
CPT I
inhibitors on CAT activity and long-term suppression of
CPT
activity are probably mediated by independent mechanisms.
...
PMID:Interactions of inhibitors of carnitine palmitoyltransferase I and fibrates in cultured hepatocytes. 342 40
Rats were subjected to laparotomy, or laparotomy and partial hepatectomy, at 0-48 h before administration of water or medium-chain-length triacylglycerol, having been starved post-operatively. Functional hepatectomies were performed at intervals after the intragastric load. Blood ketone-body concentrations after medium-chain triacylglycerol administration and/or functional hepatectomy of these rats were compared with values obtained in starved control rats. Decreased ketonaemia in response to medium-chain triacylglycerol was observed for up to 48 h after partial hepatectomy and at 1 and 2 h after laparotomy, but not at 24 or 48 h after laparotomy. Rates of ketone-body clearance after functional hepatectomy were unaffected by prior laparotomy or partial hepatectomy. Ketonaemia after medium-chain-triacylglycerol administration was only partially blocked by inhibition of
CPT I
(
carnitine palmitoyltransferase I
). The results demonstrate sustained effects of partial hepatectomy and short-term effects of surgical stress to decrease ketonaemia via inhibition of ketogenesis at site(s) distal to
CPT I
.
...
PMID:Ketone-body metabolism after surgical stress or partial hepatectomy. Evidence for decreased ketogenesis and a site of control distal to carnitine palmitoyltransferase I. 359 3
Mitochondria were isolated from rat skeletal muscle, heart, and liver and from human skeletal muscle. The distribution of
CPT I
and CPT II was studied by measuring
CPT
activity and malonyl-CoA sensitivity before and after disruption of the mitochondria. Neither sonication, freezing and thawing, nor detergent treatment increased
CPT
activity in heart or skeletal muscle mitochondria, but these procedures did increase
CPT
activity in liver mitochondria. These results cannot be attributed to different kinetics of
CPT I
and II to palmitoyl-CoA or carnitine, or to different effects of electrolytes on
CPT I
and II. Sensitivity to inhibition by malonyl-CoA also failed to distinguish convincingly between
CPT I
and II in skeletal muscle. Because the presence of
CPT I
and II in muscle cannot be ascertained, the notion of a selective
CPT I
or II deficiency in muscle cannot be entertained.
...
PMID:Are there two forms of carnitine palmitoyltransferase in muscle? 367 Jun 16
The recovery of the parameters of the kinetic properties of
carnitine palmitoyltransferase
(
CPT
) I in liver mitochondria of starved rats was studied after re-feeding animals for various periods of time. There were no significant changes either in the activity of the enzyme at high palmitoyl-CoA concentrations or in the affinity of the enzyme for palmitoyl-CoA, or in the sensitivity of
CPT I
to malonyl-CoA inhibition after 3 h or 6 h re-feeding. After 24 h re-feeding, both the affinity of the enzyme for palmitoyl-CoA and the activity of the enzyme were still not significantly different from those for the enzyme in mitochondria from 24 h-starved animals. By contrast, the sensitivity of
CPT I
to malonyl-CoA inhibition was largely, but not fully, restored to that observed in mitochondria from fed rats.
...
PMID:Restoration of the properties of carnitine palmitoyltransferase I in liver mitochondria during re-feeding of starved rats. 381 87
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