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1.
Gluconeogenesis in chick embryo isolated hepatocytes   总被引:1,自引:0,他引:1  
1. The effectiveness of gluconeogenic precursors in hepatocytes isolated from 18 day old chick embryos is:Lactate much much greater than pyruvate greater than alanine = glutamine greater than glycerol and other amino acids. This result is qualitatively and quantitatively similar to hepatocytes isolated after hatching. 2. In the presence of endogenous glycogenolysis, conversion of [U-14C]lactate to glucose was used to estimate gluconeogenic flux and its control by hormones. 3. Glucagon failed to stimulate lactate gluconeogenesis although simultaneously increasing glycogenolysis. Insulin had no effects on gluconeogenesis.  相似文献   

2.
V M Barabanov 《Ontogenez》1985,16(2):118-126
The appearance and localization of immunoreactive prolactin in the adenohypophysis of chick embryos and chickens was studied by antisera to the bovine prolactin. Immunoreactive prolactin was found in the chick embryos from the 15th day of development on using the methods of indirect immunofluorescence and of unlabelled antibodies with a complex PAP. In the chick embryos and in chickens during the first 10 days of life, the prolactin-containing cells were distributed, mainly, in the cephalic part of adenohypophysis; in the chickens, scarce cells were also found in the caudal part. These results suggest that in the domestic fowl the immunoreactive prolactin, similar by immunochemical specificity with the mammalian prolactin, is a late appearing marker of the adenohypophysis differentiation.  相似文献   

3.
The ultrastructure of mitochondria of hepatocytes in normal and pathological conditions was studied. It was shown that the process of regeneration of the ultrastructure of swollen mitochondria with a lucent matrix up to the normal state was completed in hepatocytes of the rat and chick embryos within one day. It was established that one of the ways of intraorganoid regeneration of mitochondria in hepatocytes of chick embryos and of mice after injections of CCl4 twice a week for 5 months was clasmatosis of the destroyed mitochondria fragments and their removal through the partially disintegrated exterior membrane of mitochondria followed by the membrane restoration. The process of mitochondrial regeneration after clasmatosis of its fragments was shown to require two days in the chick embryo hepatocytes.  相似文献   

4.
Summary Gluconeogenesis by isolated hepatocytes resulted in glucose release but insignificant rates of glycogen synthesis. The effectiveness of precursors was similar for hepatocytes from fed and starved chickens except for impaired gluconeogenesis from pyruvate when compared to lactate in lactate in starved chicken hepatocytes. The impairment was caused by limitations in cytosolic NADH production as a result of the mitochondrial location of phosphoenolpyruvate carboxykinase in chicken liver. The order of effectiveness of precursors on hepatic gluconeogenesis was generally similar to the effects of precursors on increasing the plasma glucose concentration in vivo. The exceptions were caused by interactions with other precursors in vivo.The alteration of the NADH/NAD+ ratio by ethanol and ATP/ADP ratio by adenosine could play significant roles in the control of precursor conversion to glucose. Physiological glucagon concentrations stimulated gluconeogenesis from precursors entering the pathway both above and below the level of triose phosphates, and its effect were mimicked by dibutyryl cyclic AMP.Previous results on the effects of precursor and glucagon injection on the plasma glucose concentration of chickens in vivo can largely be explained by effects at the hepatic level.Isolated chicken and rat hepatocytes share many common features. Qualitatively the ordering of gluconeogenic effectiveness was similar but quantitive differences existed as a result of differing activities and cellular locations of enzymes. Neither preparation readily synthesised glycogen and the sensitivity to glucagon was similar.  相似文献   

5.
6.
Glucagon and dibutyryl cyclic AMP inhibited glucose utilization and lowered fructose 2,6-bisphosphate levels of hepatocytes prepared from fed chickens. Partially purified preparations of chicken liver 6-phosphofructo-1-kinase and fructose 1,6-bisphosphatase were activated and inhibited by fructose 2,6-bisphosphate, respectively. The sensitivities of these enzymes and the changes observed in fructose 2,6-bisphosphate levels are consistent with an important role for this allosteric effector in hormonal regulation of carbohydrate metabolism in chicken liver. In contrast, oleate inhibition of glucose utilization by chicken hepatocytes occurred without change in fructose, 2,6-bisphosphate levels. Likewise, pyruvate inhibition of lactate gluconeogenesis in chicken hepatocytes cannot be explained by changes in fructose 2,6-bisphosphate levels. Exogenous glucose caused a marked increase in fructose 2,6-bisphosphate content of hepatocytes from fasted but not fed birds. Both glucagon and lactate prevented this glucose effect. Fasted chicken hepatocytes responded to lower glucose concentrations than fasted rat hepatocytes, perhaps reflecting the species difference in hexokinase isozymes.  相似文献   

7.
1. Regulation of hepatic gluconeogenesis by fatty acid was studied in goat, calf and guinea pig hepatocytes. 2. Fatty acid effects on gluconeogenesis were dependent upon species; fatty acid and gluconeogenic substrate. 3. Oleate and octanoate inhibited gluconeogenesis from propionate in guinea pig hepatocytes and stimulated it in goat hepatocytes. 4. Oleate and octanoate markedly inhibited gluconeogenesis from lactate in guinea pig hepatocytes whereas octanoate, but not oleate, decreased glucose production from lactate in goat hepatocytes. 5. Effects of fatty acids on gluconeogenesis in calf hepatocytes were similar to goat hepatocytes suggesting control of gluconeogenesis is similar among ruminant species but differs from guinea pigs.  相似文献   

8.
The influence of the hypoglycemic agent glipizide (0-100 microM) on the rate of gluconeogenesis from lactate, as well as on the levels of fructose 2,6-bisphosphate, has been investigated in hepatocytes isolated from genetically obese (fa/fa) Zucker rats and from their corresponding lean (Fa/-) littermates. As compared to lean rat hepatocytes, liver cells isolated from obese animals showed a lower rate of basal gluconeogenesis (0.9 +/- 0.2 vs 5.4 +/- 0.5 micromol of lactate converted to glucose/g cell x 30 min, n=4) and higher levels of fructose 2,6-bisphosphate (11.5 +/- 1.0 vs 5.9 +/- 0.4 nmol/g cell, n=8-9). In lean rat hepatocytes, the presence of glipizide in the incubation medium caused a dose-dependent inhibition of the rate of lactate conversion to glucose (maximal inhibition=46%; EC50 value=26 microM), and simultaneously raised the cellular content of fructose-2,6-bisphosphate (maximal increment=40%; EC50 value=10 microM). In contrast, in hepatocytes isolated from obese rats, the inhibition of gluconeogenesis and the increment in fructose-2,6-bisphosphate levels elicited by glipizide were significantly reduced (maximal effects of 22 and 13%, respectively). Similarly, the activation of glycogen phosphorylase and the increase in hexose 6-phosphate levels in response to glipizide were less marked in obese rat hepatocytes than in liver cells isolated from lean animals. These results demonstrate that the efficacy of sulfonylureas as inhibitors of hepatic gluconeogenesis is reduced in the genetically obese (fa/fa) Zucker rat.  相似文献   

9.
V M Barabanov 《Ontogenez》1987,18(3):239-246
The differentiation of somatotropocytes was studied in the Leghorn chick embryos during 11 to 18 days of incubation and in chickens during the first week of life using the immunohistochemical method of nonlabelled antibodies with PAP complex and antiserum against human somatotropic hormone (STH). Unlike in humans, the fixation of pituitaries in the Carnoy mixture is optimal for STH to be immunohistochemically estimated in the chickens and chick embryos. STH was found in adenohypophysis from 12-13 days of development. Besides predominant localization of somatotropocytes in the adenohypophysis caudal lobe, individual STH-positive cells are also present in the cephalic lobe of chickens and chick embryos. The results obtained suggest a relatively late appearance of STH during histotypical development of adenohypophysis in chick embryos.  相似文献   

10.
Dichloroacetate has effects upon hepatic metabolism which are profoundly different from its effects on heart, skeletal muscle, and adipose tissue metabolism. With hepatocytes prepared from meal-fed rats, dichloroacetate was found to activate pyruvate dehydrogenase, to increase the utilization of lactate and pyruvate without effecting an increase in the net utilization of glucose, to increase the rate of fatty acid synthesis, and to decrease slightly [1-14C]oleate oxidation to 14CO2 without decreasing ketone body formation. With hepatocytes isolated from 48-h-starved rats, dichloroacetate was found to activate pyruvate dehydrogenase, to have no influence on net glucose utilization, to inhibit gluconeogenesis slightly with lactate as substrate, and to stimulate gluconeogenesis significantly with alanine as substrate. The stimulation of fatty acid synthesis by dichloroacetate suggests that the activity of pyruvate dehydrogenase can be rate determining for fatty acid synthesis in isolated liver cells. The minor effects of dichloroacetate on gluconeogenesis suggest that the regulation of pyruvate dehydrogenase is only of marginal importance in the control of gluconeogenesis.  相似文献   

11.
Dichloroacetate, an activator of the pyruvate dehydrogenase complex, is known to lower blood glucose, lactate, pyruvate, and alanine when given to diabetic and 24 h fasted rats. Under certain conditions, especially when pyruvate carboxylase is made rate limiting for want of bicarbonate, dichloroacetate effectively inhibits glucose synthesis from lactate by isolated hepatocytes. 2-Chloropropionate also activates the pyruvate dehydrogenase complex, lowers blood glucose, lactate, and pyruvate in 24 h fasted rats, but stimulates gluconeogenesis from lactate or alanine by isolated hepatocytes. Dichloroacetate is catabolized to glyoxylate and thence to oxalate by liver cells, whereas 2-chloropropionate cannot be catabolized to these products. Glyoxylate and oxalate are potent inhibitors of glucose synthesis from lactate, pyruvate, and alanine, but not from dihydroxyacetone. Inhibition is much more pronounced in a bicarbonate-deficient medium, in which pyruvate carboxylase is probably rate limiting for gluconeogenesis. It seems likely, therefore, that the inhibition of lactate gluconeogenesis by dichloroacetate is actually caused by oxalate, which inhibits pyruvate carboxylation. Nevertheless, the major effect of dichloroacetate, and probably the sole effect of 2-chloropropionate, on blood glucose concentration is to limit substrate availability in the blood for hepatic gluconeogenesis. Since oxalic acid stone formation and renal dysfunction may prove to be side effects of any therapeutic application of dichloroacetate, we suggest that further studies on the treatment of hyperglycemia and lactic acidosis with pyruvate dehydrogenase activators be carried out with 2-chloropropionate rather than dichloroacetate.  相似文献   

12.
The rates of glucose production from various substrates entering gluconeogenesis at different steps were investigated in hepatocytes isolated from term-fetus and newborn rabbits fasted during the first 2 days of life. The data were compared to the rate of glucose production measured in hepatocytes from young rabbits (50-60 days) starved for 48 h. The net production of glucose from substrates (lactate, pyruvate, propionate, alanine) entering gluconeogenesis below phosphoenolpyruvate was very low at birth and increased during the first day of life, in relation with an increased cytosolic phosphoenolpyruvate carboxykinase activity. The net production of glucose from precursors entering gluconeogenesis at the level of triose phosphates (dihydroxyacetone, fructose) was low at birth but a maximal capacity for gluconeogenesis was reached within 6 h after birth. This enhanced gluconeogenic capacity was associated with a fall in hepatic fructose 2,6-bisphosphate concentration and a reduced glycolytic flux. In contrast, a high glucose production from galactose was already present at birth and did not rise at 24 or 48 h after delivery. These results suggest that the development of gluconeogenic capacity in hepatocytes isolated from newborn rabbit is dependent upon two factors, a decrease in the F2,6-P2 concentration which reduces the glycolytic flux and an increase in the activity of cytosolic phosphoenolpyruvate carboxykinase.  相似文献   

13.
N G Fedtsova 《Ontogenez》1986,17(4):396-401
The effects of 5-iododeoxyuridine and 5-bromodeoxyuridine on differentiation of the cells of adenohypophysis rudiment from 3, 4, and 5 day old chick embryos were studied in the in vitro organ culture. On the 7th day of cultivation most explants from 3 and 4 day old embryos formed lentoids and individual cells with the lens phenotype among the adenohypophysis tissue. Alpha-, beta- and delta-crystalline were immunochemically detected in them. When cultivating explants from 5 day old embryos, no lentoids formed. But the immunochemical study of serial sections made it possible to detect in individual explants single alpha-crystalline-containing cells. There is a period in the development of chick adenohypophysis, which lasts five days of incubation and during which the adenohypophysis rudiment retained its capacity for lens differentiation despite the fact that it is already determined in the adenohypophysis direction.  相似文献   

14.
Effects of glutathione depletion on gluconeogenesis in isolated hepatocytes   总被引:1,自引:0,他引:1  
Glutathione-depleted hepatocytes, by incubation with diethylmaleate (DEM) or phorone (2,6-dimethyl-2,5-heptadiene-4-one), i.e., substrates of the GSH S-transferases (EC 2.5.1.18), showed rates of gluconeogenesis from various precursors significantly lower than controls; however the rate of glucose synthesis from fructose was similar to that of controls. Isolated hepatocytes from rats pretreated with those substrates 1 h before isolation to deplete hepatic glutathione (GSH) also showed a decrease of the rate of gluconeogenesis from lactate plus pyruvate. Incubation of hepatocytes with L-buthionine sulfoximine, a specific inhibitor of gamma-glutamyl-cysteine synthetase (EC 6.3.2.2), resulted in a decreased rate of gluconeogenesis from lactate plus pyruvate only when GSH values were lower than 1 mumol/g cells. Freeze-clamped livers from GSH-depleted rats showed a higher concentration of malate and glycerol 3-phosphate, indicating that GSH depletion probably affects phosphoenolpyruvate carboxykinase and glycerol-3-phosphate dehydrogenase activities. Several indicators of cell viability, such as lactate dehydrogenase leakage, malondialdehyde accumulation, ATP concentration, or urea synthesis from different precursors, were not affected by GSH depletion under the experimental conditions used here. Besides, the GSH/GSSG ratio remained unchanged in all cases.  相似文献   

15.
The use of n-butylmalonate as an inhibitor of malate transport from mitochondria and of aminooxyacetate as an inhibitor of glutamate-aspartate transaminase indicated that rat liver hepatocytes employ the aspartate shuttle for gluconeogenesis from lactate which supplies reducing equivalents to the cytosolic NAD system. In contrast, malate is transported from mitochondria to cytosol for gluconeogenesis from pyruvate. This conclusion is corroborated by the finding that the addition of ammonium ions enhances gluconeogenesis from lactate but inhibits glucose formation from pyruvate. In hepatocytes, glucagon and epinephrine have relatively little effect on glucose synthesis from lactate. Ammonium ions permit both of these hormones to exert their usual stimulation of gluconeogenesis from lactate.Calcium ions (1.3 mm) enhance gluconeogenesis from lactate and from lactatepyruvate mixtures (10:1). The stimulatory effects of Ca2+ and NH4+ are additive and, when lactate is the substrate, the rates of gluconeogenesis achieved are so high as to preclude further stimulation by glucagon.  相似文献   

16.
The salt extract of the nuclear fraction of a homogenate of the retinal pigment epithelium from 12-15 day old chick embryos inhibits selectively the proliferative activity in the retinal pigment epithelium of 3-5 day old embryos. The inhibiting effect of the nuclear factor is found within 20 h after its introduction into the egg. The nuclear extract from the pigment epithelium does not affect the level of proliferation in retina and lens anterior epithelium.  相似文献   

17.
In hepatocytes from 48 h-starved rats identical glucagon dose-response curves were obtained for the stimulation of gluconeogenesis from lactate, for ketogenesis and for the decreasing of the C5-dicarboxylate pool. Glucagon (20 nM) caused a 5-fold increase in 3-hydroxybutyrate formation, but decreased acetoacetate production 50% of that of the control. In hepatocytes from biotin-deficient rats glucagon no longer stimulated gluconeogenesis from lactate, but still produced its effects on the mitochondrial redox state and the C5-dicarboxylate pool. The results suggest that the primary site of the hormone action on gluconeogenesis is located within the mitochondria rather than in the cytosol.  相似文献   

18.
Chicken hepatocytes synthesize glucose and fatty acids at rates which are faster than rat hepatocytes. The former also consume exogenous lactate and pyruvate at a much faster rate and, in contrast to rat hepatocytes, do not accumulate large quantities of lactate and pyruvate by aerobic glycolysis. α-Cyano-4-hydroxycinnamate, an inhibitor of pyruvate transport, causes lactate and pyruvate accumulation by chicken hepatocytes. Glucagon and N6,O2′-dibutyryl adenosine 3′,5′-monophosphate (dibutyryl cyclic AMP) convert pyruvate kinase (EC 2.7.1.40) of rat hepatocytes to a less active form. This effect explains, in part, inhibition of glycolysis, inhibition of lipogenesis, stimulation of gluconeogenesis, and inhibition of the transfer of reducing equivalents from the mitochondrial compartment to the cytoplasmic compartment by these compounds. In contrast, pyruvate kinase of chicken hepatocytes is refractory to inhibition by glucagon or dibutyryl cyclic AMP. Rat liver is known to have predominantly the type L isozyme of pyruvate kinase and chicken liver predominantly the type K. Thus, only the type L isozyme appears subject to interconversion between active and inactive forms by a cyclic AMP-dependent, phosphorylation-dephos-phorylation mechanism. This explains why the transfer of reducing equivalents from the mitochondrial compartment to the cytoplasmic compartment of chicken hepatocytes is insensitive to cyclic AMP. However, glucagon and dibutyryl cyclic AMP inhibit net glucose utilization, inhibit fatty acid synthesis, inhibit lactate and pyruvate accumulation in the presence of α-cyano-4-hydroxycinnamate, and stimulate gluconeogenesis from lactate and dihydroxyacetone by chicken hepatocytes. Thus, a site of action of cyclic AMP distinct from pyruvate kinase must exist in the glycolytic-gluconeogenic pathway of chicken liver.  相似文献   

19.
Preincubation of rat hepatocytes with EGF (epidermal growth factor) caused a stimulation of gluconeogenesis from alanine. The effect was maximal after preincubation of 20 min, and a half-maximal effect of EGF was obtained at 10 nM. EGF also stimulated gluconeogenesis from lactate and asparagine, but not from glutamine or from proline. Preincubation of hepatocytes with EGF caused a stable inactivation of pyruvate kinase, which may account, at least in part, for the observed effects of EGF on gluconeogenesis.  相似文献   

20.
Summary Isolated hepatocyte preparations from fed immature American eels,Anguilla rostrata Le Sueur, were used to study gluconeogenic, lipogenic, glycogenic and oxidative rates of radioactively labelled lactate, glycerol, alanine and aspartate. Eel hepatocytes maintain membrane integrity and energy charge during a 2 h incubation period and are considered a viable preparation for studying fish liver metabolism.Incubating eel hepatocytes with 10 mM substrates, the following results were obtained: glycerol, alanine and lactate, in that order, were effective gluconeogenic substrates; these three substrates reduced glucose release from glycogen stores, while aspartate had no such effect; lactate, alanine and aspartate led to high rates of glycerol production, with subsequent incorporation into lipid; incorporation into glycogen was low from all substrates; and, alanine oxidation was seven times higher than that observed with other substrates.When eel hepatocytes were incubated with low or physiological substrate concentrations gluconeogenic rates from lactate were twice those from alanine; rates from aspartate were very low. Glucagon stimulated lactate gluconeogenesis, but not amino acid gluconeogenesis, and had no significant effect on glycogenolysis. Cortisol increased gluconeogenic rates from 1 mM lactate.Thus, in the presence of adequate substrate, eel liver gluconeogenesis is preferentially stimulated relative to glycogenolysis to produce plasma glucose. These data support three important roles for gluconeogenesis: the recycling of muscle lactate, the synthesis of glucose from dietary amino acids to supplement glucose levels, and the production of glycerol for lipogenesis.This work was supported from operating grants to TWM from the National Research Council of Canada (A6944)  相似文献   

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