Mechanism of free fatty acid re-esterification in human adipocytes in vitro

Within adipose tissue, free fatty acids liberated by lipolysis may be re-esterified into newly synthesized triacylglycerol. We hypothesized that re-esterification may occur via an extracellular route, such that free fatty acids arising from lipolysis must leave the adipocyte and be taken up again before they can be re-esterified. We simultaneously measured rates of lipolysis, acylglycerol synthesis, and free fatty acid re-esterification in human adipose tissue and isolated adipocytes in vitro, utilizing a dual-isotopic technique. We manipulated incubations to increase mixing of released free fatty acids with the incubation medium. Such manipulations should decrease the probability that released free fatty acids would be taken up and re-esterified. We found that re-esterification was decreased in isolated adipocytes compared to fragments of tissue, in shaken compared to unshaken incubations, and in low adipocyte concentrations compared to high adipocyte concentrations. Rates of acylglycerol synthesis and lipolysis were unaltered by these manipulations, indicating that changes in free fatty acid re-esterification are not secondary to effects on these processes. The results are consistent with an extracellular route for free fatty acid re-esterification. Such a mechanism suggests that adipose tissue blood flow may play an important role in the regulation of free fatty acid release from adipose tissue.     

Adipose triglyceride lipase activity is inhibited by long-chain acyl-coenzyme A

Adipose triglyceride lipase (ATGL) is required for efficient mobilization of triglyceride (TG) stores in adipose tissue and non-adipose tissues. Therefore, ATGL strongly determines the availability of fatty acids for metabolic reactions. ATGL activity is regulated by a complex network of lipolytic and anti-lipolytic hormones. These signals control enzyme expression and the interaction of ATGL with the regulatory proteins CGI-58 and G0S2. Up to date, it was unknown whether ATGL activity is also controlled by lipid intermediates generated during lipolysis. Here we show that ATGL activity is inhibited by long-chain acyl-CoAs in a non-competitive manner, similar as previously shown for hormone-sensitive lipase (HSL), the rate-limiting enzyme for diglyceride breakdown in adipose tissue. ATGL activity is only marginally inhibited by medium-chain acyl-CoAs, diglycerides, monoglycerides, and free fatty acids. Immunoprecipitation assays revealed that acyl-CoAs do not disrupt the protein–protein interaction of ATGL and its co-activator CGI-58. Furthermore, inhibition of ATGL is independent of the presence of CGI-58 and occurs directly at the N-terminal patatin-like phospholipase domain of the enzyme. In conclusion, our results suggest that inhibition of the major lipolytic enzymes ATGL and HSL by long-chain acyl-CoAs could represent an effective feedback mechanism controlling lipolysis and protecting cells from lipotoxic concentrations of fatty acids and fatty acid-derived lipid metabolites.     

Free fatty acids as feedback regulators of adenylate cyclase and cyclic 3':5'-AMP accumulation in rat fat cells.

Rat fat cells incubated with lipolytic agents released substances to the medium which acted as feedback regulators of cyclic adenosine 3':5'-monophosphate (cyclic AMP) accumulation. The feedback regulators were not removed by adenosine deaminase. Dialyzed medium that had previously been incubated with fat cells in the presence of norepinephrine markedly inhibited cyclic AMP accumulation by fresh cells, whereas dialyzed medium from control cells did not inhibit cyclic AMP accumulation. The effects of lipolytic agents could be mimicked by adding dialyzed medium previously incubated with fat cells in the presence of oleic acid. This suggested that free fatty acids were the nondialyzable and adenosine deaminase-insensitive inhibitors of cyclic AMP accumulation released to the medium by fat cells incubated with lipolytic agents. The regulatory function of free fatty acids was related to the molar ratio of fatty acid to albumin. Profound inhibition of both lipolysis and cyclic AMP accumulation was seen as the free fatty acid/albumin ratio exceeded 3. The inhibition of cyclic AMP accumulation by oleate was seen as soon as there was a detectable increase in cyclic AMP due to lipolytic agents. Protein kinase activity (in the presence of cyclic AMP) of the infranatant obtained after centrifugation of fat cell homogenates at 48,000 x g was inhibited by medium from cells incubated with lipolytic agents or added oleate. Adenylate cyclase activity of rat fat cell ghosts was also inhibited by dialyzed or nondialyzed medium that previously had been incubated with lipolytic agents or added fatty acids. The direct addition of oleate markedly inhibited adenylate cyclase activity as the free fatty acid/albumin ratio exceeded 2. These data suggest that the prolonged drop in cyclic AMP accumulation seen during the incubation of rat fat cells with lipolytic agents is due to the inhibition of adenylate cyclase. This occurs when the free fatty acid/albumin ratio exceeds 3.     

Ledakrin effect on free fatty acid and glycerol mobilization from epididymal adipose tissue of rat in vitro

It was demonstrated that Ledakrin, an antitumour drug, causes mobilization of free fatty acids and glycerol from the epididymal adipose tissue of rat in vitro. The disproportion observed in the release of glycerol and free fatty acids following Ledakrin administration suggested a biphasic effect of this drug, with initial stimulation and later inhibition of the processes of lipolysis and lipogenesis. Blockade of adrenergic membrane receptors (with propranolol or regitine) abolished the lipolytic effect of Ledakrin.     

In vitro lipolytic effect of bovine pituitary diabetogenic protein.

Bovine diabetogenic protein has been further purified by gel filtration yielding a fraction (Mr 25 000--28 000) having increased diabetogenic and in vitro lipolytic activity. Using rat epididymal fat pads, this fraction was shown to be lipolytic at concentrations as low as 1--10 mug/ml. The in vitro lipolytic effect was unaffected by the nutritional state of the animals, was not potentiated by dexamethasone, could be demonstrated in the presence and absence of glucose and was not mediated by alpha- and beta-adrenergic receptors. A lag phase of greater than 1 h was observed before diabetogenic protein induced lipolysis occurred, suggesting that protein synthesis might be involved. Cycloheximide (10 mug/ml), added initially, prevented the diabetogenic protein-induced lipolysis. This direct effect of the purified protein on adipose tissue helps explain the elevation of free fatty acids seen when bovine diabetogenic hormone is administered in vivo and suggests that this anterior pituitary protein may be a new lipid-mobilizing hormone.     

Coping with intense reproductive aggression in male arctic ground squirrels: the stress axis and its signature tell divergent stories

We tested the adaptive stress hypothesis that male arctic ground squirrels (Urocitellus parryii) exhibit a stress response over the course of the breeding season that is characterized by increasing free cortisol concentrations, increasing mobilization of stored energy, and decreasing physical condition. We assessed the functioning of the hypothalamic-pituitary-adrenal axis by measuring cortisol levels in response to the stress of capture and in response to a hormone challenge protocol (dexamethasone suppression and adrenocorticotropic hormone stimulation). We measured blood glucose levels, free fatty acids, white blood cells, and hematocrit to assess the downstream physiological responses to cortisol. Immediately after spring emergence, male arctic ground squirrels had ample free abdominal fat and few signs of wounding. By the end of the breeding season 3 wk later, visible fat reserves were almost entirely gone, and most males had extensive wounds. Total plasma cortisol concentrations increased over this period, but so did corticosteroid-binding capacity, resulting in no change in the free cortisol response to capture. We found no significant changes in how the animals responded to our hormone challenges, contrary to our prediction that the stress axis should increase free cortisol production. Even though we found no change in the functioning of the stress axis, all of the downstream measures suggested that male arctic ground squirrels are chronically exposed to high cortisol concentrations. Over the breeding season, blood glucose increased, fat stores and circulating free fatty acids were depleted, and both hematocrit levels and white blood cell counts decreased significantly. Our data suggest that a more complex relationship between the stress axis and downstream measures of stress exists than that proposed by the adaptive stress hypothesis. We propose several nonexclusive, testable mechanisms that could explain our observations.     

In vitro lipolytic effect of bovine pituitary diabetogenic protein

Bovine diabetogenic protein has been further purified by gel filtration yielding a fraction (M_r 25 000–28 000) having increased diabetogenic and in vitro lipolytic activity. Using rat epididymal fat pads, this fraction was shown to be lipolytic at concentrations as low as 1–10 μg/ml. The in vitro lipolytic effect was unaffected by the nutritional state of the animals, was not potentiated by dexamethasone, could be demonstrated in the presence and absence of glucose and was not mediated by α- and β-adrenergic receptors. A lag phase of > 1 h was observed before diabetogenic protein induced lipolysis occurred, suggesting that protein synthesis might be involved. Cycloheximide (10 μg/ml), added initially, prevented the diabetogenic protein-induced lipolysis. This direct effect of the purified protein on adipose tissue helps explain the elevation of free fatty acids seen when bovine diabetogenic hormone is administered in vivo and suggests that this anterior pituitary protein may be a new lipid-mobilizing hormone.     

Short-term fasting and lipolytic activity in rat adipocytes.

The aim of this experiment was to study the influence of 18-hour food deprivation on basal and stimulated lipolysis in adipocytes obtained from young male Wistar rats. Fat cells from fed and fasted rats were isolated from the epididymal adipose tissue by collagenase digestion. Adipocytes were incubated in Krebs-Ringer buffer (pH 7.4, 37 degrees C) without agents affecting lipolysis and with different lipolytic stimulators (epinephrine, forskolin, dibutyryl-cAMP, theophylline, DPCPX, amrinone) or inhibitors (PIA, H-89, insulin). After 60 min of incubation, glycerol and, in some cases, also fatty acids released from adipocytes to the incubation medium were determined. Basal lipolysis was substantially potentiated in cells of fasted rats in comparison to adipocytes isolated from fed animals. The inhibition of protein kinase A activity by H-89 partially suppressed lipolysis in both groups of adipocytes, but did not eliminate this difference. The agonist of adenosine A (1) receptor also did not suppress fasting-enhanced basal lipolysis. The epinephrine-induced triglyceride breakdown was also enhanced by fasting. Similarly, the direct activation of adenylyl cyclase by forskolin or protein kinase A by dibutyryl-cAMP resulted in a higher lipolytic response in cells derived from fasted animals. These results indicate that the fasting-induced rise in lipolysis results predominantly from changes in the lipolytic cascade downstream from protein kinase A. The antagonism of the adenosine A (1) receptor and the inhibition of cAMP phosphodiesterase also induced lipolysis, which was potentiated by food deprivation. Moreover, the rise in basal and epinephrine-stimulated lipolysis in adipocytes of fasted rats was shown to be associated with a diminished non-esterified fatty acids/glycerol molar ratio. This effect was presumably due to increased re-esterification of triglyceride-derived fatty acids in cells of fasted rats. Comparing fed and fasted rats for the antilipolytic effect of insulin in adipocytes revealed that short-term food deprivation resulted in a substantial deterioration of the ability of insulin to suppress epinephrine-induced lipolysis.     

Lipolysis: pathway under construction

PURPOSE OF REVIEW: The lipolytic catabolism of stored fat in adipose tissue supplies tissues with fatty acids as metabolites and energy substrates during times of food deprivation. This review focuses on the function of recently discovered enzymes in adipose tissue lipolysis and fatty acid mobilization. RECENT FINDINGS: The characterization of hormone-sensitive lipase-deficient mice provided compelling evidence that hormone-sensitive lipase is not uniquely responsible for the hydrolysis of triacylglycerols and diacylglycerols of stored fat. Recently, three different laboratories independently discovered a novel enzyme that also acts in this capacity. We named the enzyme 'adipose triglyceride lipase' in accordance with its predominant expression in adipose tissue, its high substrate specificity for triacylglycerols, and its function in the lipolytic mobilization of fatty acids. Two other research groups showed that adipose triglyceride lipase (named desnutrin and Ca-independent phospholipase A2zeta, respectively) is regulated by the nutritional status and that it might exert acyl-transacylase activity in addition to its activity as triacylglycerol hydrolase. Adipose triglyceride lipase represents a novel type of 'patatin domain-containing' triacylglycerol hydrolase that is more closely related to plant lipases than to other known mammalian metabolic triacylglycerol hydrolases. SUMMARY: Although the regulation of adipose triglyceride lipase and its physiological function remain to be determined in mouse lines that lack or overexpress the enzyme, present data permit the conclusion that adipose triglyceride lipase is involved in the cellular mobilization of fatty acids, and they require a revision of the concept that hormone-sensitive lipase is the only enzyme involved in the lipolysis of adipose tissue triglycerides.     

Effect of chronic heparin administration on serum lipolytic activity and some aspects of lipid metabolism

Chronic heparin administration to rats for periods up to 8 days by i.p. implantation of mini pumps, increased serum total lipolytic activity in a dose-dependent manner up to infusion rates of 10 U/h per 100 g body weight. This augmentation was predominantly due to lipoprotein lipase (LPL). Synchronously, heart muscle demonstrated a dose-dependent reduction in LPL activity and adipose tissue showed a biphasic response, LPL activity decreasing at low doses and rising towards control levels at higher doses. Lipolytic activities of skeletal muscle and liver were unaffected. Increased serum LPL could not be attributed to altered enzyme clearance from the circulation in chronically heparinised rats, but was accompanied by a reduced response to i.v. high-dose heparin indicating reduction in the pool of endothelial-bound enzyme. Fasting serum concentrations of triacylglycerol and glycerol were unaffected in chronically heparinised animals although accelerated clearance of exogenous 14C-labelled VLDL was demonstrated, together with enhanced uptake of the isotope by liver and heart. Since de novo synthesis of fatty acids and triacylglycerol from 3H2O was not increased by heparin, we suggest that serum triacylglycerol concentrations were maintained by enhanced re-esterification of preformed fatty acids taken up by the liver. Hepatic cholesterol synthesis from 3H2O was augmented by heparin; this observation is consistent with reported increases in serum total and HDL-cholesterol mediated by chronic heparin administration in man and dog.     

Inhibition of free fatty acid mobilization by colchicine

Segments of epididymal adipose tissue from normal male rats were incubated with micromolar concentrations of colchicine for different periods of time up to 4 hr, and the mobilization of free fatty acids (FFA) was measured during a subsequent reincubation. Although pretreatment with colchicine did not alter basal unstimulated FFA release, mobilization of FFA in the presence of epinephrine or theophylline was reduced. However, neither lipolysis, as judged by glycerol production, nor cyclic AMP accumulation was impaired under the same conditions. To assess the possibility that colchicine might limit production of fatty acids by accelerating the entry and metabolism of glucose into adipocytes, the metabolism of glucose by adipose tissue was studied. Pretreatment with colchicine did not affect uptake of glucose nor its oxidation to CO(2), although colchicine-treated tissues did have slightly more [(14)C]glucose incorporated into the glyceride moiety of triglyceride. When adipose tissues pretreated with colchicine were incubated in an albumin-free medium, no reduction in FFA production by colchicine was observed. Because no FFA release occurs in albumin-free media, this experiment suggests that colchicine-induced inhibition of FFA mobilization results from impaired extrusion of FFA from adipose cells.     

Energy metabolism and regulatory hormones in women and men during endurance exercise

Gender differences in the changes substrates of carbohydrate and lipid metabolism as well as in adrenaline, noradrenaline, growth hormone, insulin and cortisol were investigated in 24 women and 24 men during exhaustive endurance exercise. Training history and current performance capacity were taken into consideration in the design of the study. Since previous papers present conflicting results the purpose of the present study was to obtain further information regarding possible gender differences in lipid metabolism and its regulation by hormones. Non-endurance-trained women and men each ran 10 km on a treadmill at an intensity of 75% of VO2max; endurance-trained women and men ran 14 and 17 km, respectively, at an intensity of 80% of VO2max. Blood glucose levels in non-endurance-trained women were higher when compared to non-endurance-trained men. This might be explained by increased mobilization of free fatty acids from intramuscular fat depots during energy production in non-specifically trained women. In contrast, no substantial gender differences in endurance-trained persons were seen in lipid metabolism. The changes in substrates of lipid metabolism confirm the higher lipolytic activity and greater utilization of free fatty acids in endurance-trained persons. During endurance exercise, changes in adrenaline, noradrenaline, growth hormone, insulin and cortisol were not substantially affected by the sex of the subjects. This study does not present any conclusive results that endurance-trained persons show gender differences in lipid metabolism and major regulatory hormones.     

Alteration of rat adipose tissue lipolytic response to norepinephrine by dietary fatty acid manipulation.

The present study clearly shows that, by feeding rats a semi-synthetic diet of known composition enriched with saturated fatty acids, the epididymal fat pad responsiveness to norepinephrine $\text{in}\text{vitro}$ can be abolished relative to fat pads from animals fed a similar diet but enriched with polyunsaturated fatty acids. Addition of varying concentrations of norepinephrine to the incubation medium produced a clear dose-response relationship in fat pads from animals fed diet enriched with polyunsaturated fatty acids while no effect of norepinephrine was apparent at any dose level in fat tissue from animals fed saturated fatty acids. These changes in lipolytic responsiveness were concurrent with alterations in fatty acid compositions of adipose tissue phospholipids and triglycerides as well as in total tissue contents of phospholipids and cholesterol.     

Lipolytic Micrococci in Pork Fat

S ummary . The lipolytic activity of Micrococcaceae on pork fat was investigated by their growth in a fat containing medium. Thirty-three free fatty acids were detected of which 6 had a carbon chain with < 8 atoms, and were not present in the original fat. In addition to the free fatty acids the formation of 15 carbonyl compounds was detected, most of which were identified. The result of these investigations, and their influence on the microflora of dry sausages has been analysed.     

Physiological and pathophysiological features of the control of lipolysis and lipid mobilization by natriuretic peptides

We have demonstrated a potent and specific lipolytic effect of natriuretic peptides (NP) in human and primates' fat cells. The lipolytic effect of NP is mediated through intracellular production of cGMP and activation of the cGMP-dependent kinase 1alpha. Local infusion of atrial-NP (ANP), directly within the subcutaneous adipose tissue through a microdialysis catheter, increases lipolysis and stimulates blood flow through its vasodilating effect in lean healthy men. This effect is blunted in overweight men and can be recovered by endurance training. Intravenous infusion of physiological doses of ANP induces lipid mobilization. Higher concentrations of ANP that are encountered during heart failure also stimulate lipid oxidation. ANP activates lipolysis and free fatty acids release from adipose tissue during endurance exercise. This effect is paradoxically amplified when exercise is performed under beta-blockade treatment, because of an enhanced cardiac release of ANP. No gender differences in ANP-induced lipid mobilization during exercise have been found. Heart failure is associated with high circulating levels of NP that could participate to the progression toward cachexia. On contrary, a negative correlation between NP levels and body mass index is found in obese persons. The molecular basis of this inverse correlation is not yet demonstrated from a functional standpoint. Further studies are needed to clearly define the pathophysiological role of NP in obesity and heart failure.     

Regeneration of renal proximal tubules after mercuric chloride injury is accompanied by increased binding of aminoacyl-transfer ribonucleic acid.

The liver of the foetal guinea pig accumulates a large quantity of triacyglycerol late in gestation at the same time that adipose-tissue mass grows at its maximum rate and foetal adipose-tissue lipoprotein lipase activity and sensitivity to lipolytic hormones has substantially declined. The fatty acid for triacyglycerol synthesis is not synthesized in the foetal liver and it is unlikely that it originates from any of the foetal tissues. Before the accumulation of hepatic triacyglycerol the concentration of free fatty acids increases in both the umbilical vein and the maternal inferior vena cava. This occurs at a time when the triacyglycerol lipase activity in maternal adipose tissue is elevated and the rate of lipolysis, but not of fatty acid esterification, is higher than earlier in gestation or than in the non-pregnant state. It is proposed that the increase in lipolysis in maternal adipose tissue, brought about by an increase in circulating lipolytic hormones, mobilizes fatty acid, which passes to the foetus and is partly stored as hepatic triacylglycerol. The foetal liver effectively removes both long-and short-chain fatty acids from umbilical-vein blood. The rate of placental fatty acid transfer is more than adequate to account for the triacylglycerol accumulation.     

Intermediary metabolism of adipose tissue.

Metabolism of ruminant adipocytes involves the synthesis and mobilization of lipids. Rates of lipid synthesis from the uptake of preformed fatty acids (via lipoprotein lipase) and de novo synthesis of fatty acids are related to the energy balance. Acetate is the major carbon source for fatty acid synthesis with NADPH originating from the pentose cycle and the isocitrate cycle. Ruminant adipose tissue lacks the ability to utilize for lipogenesis those substrates that generate mitochondrial acetyl CoA because of an absence of ATP citrate-lyase and NADP-malate dehydrogenase. Lipid mobilization in ruminant adipocytes is apparently regulated via cAMP levels and a summary of the compounds investigated for lipolytic responses is presented. The control of lipid synthesis and mobilization is interrelated in ruminant adipose tissue. The coordinated manner in which these two functions are regulated is examined with regard to adipocyte responses to insulin and epinephrine. In both lipid synthesis and lipid mobilization, ruminant adipocytes are uniquely different from nonruminant adipose tissue. The physiological significance and possible basis for these species differences in adipose metabolism are discussed.     

Regulation of hormone stimulation of adipose tissue lipolysis by guanosine triphosphate

Guanosine triphosphate (GTP) enhanced the rate of mobilization of free fatty acids from isolated rat epididymal fat cells and potentiated the lipolytic response to norepinephrine, adrenocorticotropic hormone, glucagon, and theophylline. ITP, CTP, UTP, and TTP also increased basal and norepinephrine-stimulated lipolysis but to a lesser extent than GTP. ATP differed from the other nucleotides by inhibiting norepinephrine-stimulated lipolysis. The degree of phosphorylation of the guanine was important for activity since GTP was more active than GDP which, in turn, was more active than GMP in potentiating hormone-sensitized free fatty acid mobilization. Cyclic 3′, 5′-GMP, guanine, and guanosine were inactive in this regard. Activation of lipolysis by GTP occurred immediately upon addition of the nucleotide. The lipolytic response to GTP alone or in combination with norepinephrine or theophylline was exquisitely sensitive to inhibition by prostaglandin E₂. Nicotinic acid also inhibited the GTP response but to a lesser extent than prostaglandin E₂ and the β-blocker, propranolol, had no effect. Lipolytic concentrations of GTP in combination with norepinephrine increased intracellular levels of cAMP. By some as yet unknown mechanism GTP and GDP sensitized the adenylate cyclase of adipocytes to the actions of both agonists and antagonists.