Regulation of lipogenesis in vivo by glucose availability and insulin secretion in maternal and foetal tissues during late gestation in the rat. Effect of glucose intubation, streptozotocin-induced diabetes and starvation.

Administration of an oral load of glucose did not change the rate of lipogenesis in maternal liver during late gestation. However, streptozotocin-induced diabetes or starvation decreased maternal liver lipogenesis at 20-22 days of gestation. Glucose intubation, on the other hand, increased foetal lipogenesis at 21-22 days. In addition, maternal starvation decreased foetal lipogenesis and plasma insulin concentration. However, chronic hyperglycaemia induced by streptozotocin administration to the mother did not change foetal liver lipogenesis.     

Effect of maternal ethanol consumption on foetal and neonatal rat hepatic protein synthesis.

Effects of maternal ethanol consumption were investigated on the rates of protein synthehsis by livers of foetal and neonatal rats both in vivo and in vitro, and on the activities of enzymes involved in protein synthesis and degradation. The rates of general protein synthesis by ribosomes in vitro studied by measuring the incorporation of [14C]leucine into ribosomal protein showed that maternal ethanol consumption resulted in an inhibition of the rates of protein synthesis by both foetal and neonatal livers from the ethanol-fed group. The rates of incorporation of intravenously injected [14C]leucine into hepatic proteins were also significantly lower in the foetal, neonatal and adult livers from the ethanol-fed group. Incubation of adult-rat liver slices with ethanol resulted in an inhibition of the incorporation of [14C]leucine into hepatic proteins; however, this effect was not observed in the foetal liver slices. This effect of externally added ethanol was at least partially prevented by the addition of pyrazole to the adult liver slices. Pyrazole addition to foetal liver slices was without significant effect on the rates of protein synthesis. Cross-mixing experiments showed that the capacity of both hepatic ribosomes and pH5 enzyme fractions to synthesize proteins was decreased in the foetal liver from the ethanol-fed group. Maternal ethanol consumption resulted in a decrease in hepatic total RNA content, RNA/DNA ratio and ribosomal protein content in the foetal liver. Foetal hepatic DNA content was not significantly affected. Ethanol consumption resulted in a significant decrease in proteolytic activity and the activity of tryptophan oxygenase in the foetal, neonatal and adult livers. It is possible that the mechanisms of inhibition of protein synthesis observed here in the foetal liver after maternal ethanol consumption may be responsible for at least some of the changes observed in 'foetal alcohol syndrome'.     

Effects of cortisol or corticotropin administration on hepatic 3-hydroxy-3-methylglutaryl-CoA reductase activity and plasma lipids in the pregnant rat and fetuses

Pregnant rats were given pharmacological doses of cortisol or ACTH or no hormone from gestation day 9 to 19 and maternal and fetal hepatic 3-hydroxy-3-methylglutaryl-CoA reductase activity and plasma cholesterol studied on gestation day 20. Reductase activity was also studied in the maternal and fetal adrenal of the rats given cortisol or no hormone. Cortisol administration increased the maternal and fetal plasma cholesterol but had no effect on the hepatic active (phosphorylated) 3-hydroxy-3-methylglutaryl-CoA reductase activity when compared to untreated rats. Total (active + inactive) 3-hydroxy-3-methylglutaryl-CoA reductase activity, however, was reduced in maternal liver but not altered in the fetal liver by cortisol. The maternal cortisol treatment decreased the fetal, but not maternal, adrenal 3-hydroxy-3-methylglutaryl-CoA reductase total enzyme activity. The data support a hypothesis that utilization of plasma cholesterol for adrenal steroidogenesis may be an important determinant of plasma cholesterol homeostasis in the rat fetus. Maternal ACTH administration increased the foetal but not maternal plasma cholesterol, whilst active 3-hydroxy-3-methylglutaryl-CoA reductase activity was increased in the pregnant rat but not her fetuses. This result may suggest coordination of hepatic active reductase activity with adrenal cholesterol utilization in the pregnant rat. The reason for the fetal hypercholesterolaemia caused by ACTH, which is not known to cross the placenta, is uncertain. The studies, however, indicate that fetal cholesterol homeostasis and the rate limiting enzyme of cholesterol synthesis is influenced by maternal glucocorticoid administration.     

Induction of 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in foetal rats by maternal cholestyramine feeding

Late gestation foetus from rats fed a non-absorbable bile acid binding resin (cholestyramine) have increased hepatic 3-hydroxy-3-methylglutaryl coenzyme A reductase activity. This was due to increased unphosphorylated (active) as well as total reductase and was accompanied by higher fatty acid synthetase activity. No increase in foetal hepatic cystathionase or tyrosine aminotransferase activity, or changes in plasma insulin, corticosterone or thyroxine were found. The studies demonstrate that foetal hepatic cholesterol metabolism is sensitive to drug-induced perturbation of maternal lipoprotein metabolism. The data suggest induction of foetal cholesterol and fatty acid synthesis by a specific mechanism not involving generalized hormone-induction of hepatic enzyme systems. Cholestyramine appears to have application for in vivo study of the regulation of foetal cholesterologenesis and its coordination to maternal and foetal steroid requirements.     

Stimulation of fibrinogen synthesis in cultured rat hepatocytes by fibrinogen fragment E

Because of the inherent difficulties of experimentation in intact animals, we used primary monolayer cultures of non-proliferating adult rat hepatocytes to study the effects of fibrinogen degradation products on fibrinogen biosynthesis. The freshly isolated hepatocytes obtained by collagenase perfusion of the liver in situ were cultured in a chemically defined serum-free medium. The rate of fibrinogen synthesis in control cultures was $\text{40–50}\text{pmol}\text{2.5·10}{}^6$ cells per 24 h. Additions of 20, 60 or 100 μg of homologous stage I fibrinogen degradation products had no effect on fibrinogen synthesis. In contrast, addition of the same amounts of homologous or heterologous (human) stage III fibrinogen degradation products resulted in a concentration-dependent increase in fibrinogen biosynthesis without affecting the rate of synthesis of albumin. When purified stage III fibrinogen degradation products D and E (human) were tested in 10, 30 or 50 μg/3 ml medium only fragment E showed a significant increase in fibrinogen biosynthesis (1.9-, 2.8- and 5.6-fold, respectively, over the control cultures). The presence of excess fibrinogen had no effect. These results suggest that fibrinogen fragment E may be a specific stimulator of fibrinogen biosynthesis which may play an important role in maintaining normal levels of plasma fibrinogen.     

Acute suppression of albumin synthesis in systemic inflammatory disease: an individually graded response of rat hepatocytes.

The effects of an inflammatory insult on albumin of the rat liver were investigated at the cellular level and were correlated with serum albumin concentration. After SC injection of turpentine, the livers were perfused and fixed in vivo; serial liver sections were stained using a streptavidin-ABC-immunoperoxidase technique with an antibody to rat albumin. Albumin and total protein were measured at intervals after turpentine injection in whole livers and in serum. Fibrinogen was determined in plasma only. Twenty-four hours after turpentine injection serum albumin had dropped by 25% and was at 50% of its initial value at Day 3. Serum fibrinogen increased 2.4-fold within 24 hr and decreased thereafter. Liver homogenates showed no significant changes in albumin concentration. Immunohistochemically, all hepatocytes stained positive for albumin in normal animals. During inflammation, the immunostainable albumin content vanished entirely in a majority of all hepatocytes while remaining unchanged in other cells, thus producing a strikingly patchy staining pattern. No signs of resumption of albumin accumulation in depleted hepatocytes were seen after 8 days, despite a clear trend towards normalization of serum albumin concentration. These results suggest that individual hepatocytes differ widely in their response to agents that suppress albumin synthesis in an acute-phase reaction.     

Differential effects of endotoxin and fibrinogen degradation products (FDPS) on liver synthesis of fibrinogen and albumin: evidence for the involvement of a novel monokine in the stimulation of fibrinogen synthesis induced by FDPS

1. Administration of endotoxin or fibrinogen degradation products (FDPs) in rats increase fibrinogen synthesis comparable to that found during the acute phase response. 2. An increased fibrinogen synthesis is also found in co-cultures of hepatocytes with peripheral blood mononuclear cells upon administration of endotoxin or FDPs, but not in primary cultures of hepatocytes alone. 3. However, the increased synthesis of fibrinogen by FDPs is not accompanied by a decreased albumin synthesis, as in the case of stimulated fibrinogen synthesis induced by endotoxin in vivo and in co-cultures of hepatocytes with peripheral blood mononuclear cells, or induced by monocytic products in vivo and in primary cultures of hepatocytes alone. 4. Since IL-1 and/or IL-6 could not be accounted for the stimulation of fibrinogen synthesis without a decreased albumin synthesis, a novel monokine produced by mononuclear cells upon FDP administration might be involved.     

Differential hepatic lobar gene expression in offspring exposed to altered maternal dietary protein intake

Increased plasma fibrinogen concentrations are a recognized risk factor for coronary heart disease, and increased fibrinogen levels in adults are associated with parameters of reduced early growth. We studied fibrinogen gene expression in adult offspring of dams fed either a 20% (control) or an 8% protein diet [maternal low-protein (MLP) rats] during pregnancy and lactation and determined whether any effects were consistent between left and right liver lobes, since the fetal liver has a unique blood supply that produces differential stimuli to the left and right lobes. In MLP offspring, there was a reduction in all three fibrinogen mRNA copy numbers in the left liver lobe [left vs. right lobes for alpha-, beta-, and gamma-fibrinogen (x10(6) copies/ng total RNA): 8.04 vs. 23.16, P<0.001; 4.74 vs. 13.07, P<0.001; and 4.61 vs. 16.38, P = 0.007, respectively], with a parallel reduction in fibrinogen concentration in the left liver lobe (8.53+/-0.33 vs. 10.41 +/-0.65 arbitrary units, P = 0.014, left and right lobes, respectively). No such effect was observed in offspring of control dams. To investigate the underlying mechanism, glucocorticoid receptor function and mRNA levels were studied, since expression of fibrinogen genes is regulated by glucocorticoid hormones. The binding affinity of the high-affinity glucocorticoid receptor was reduced only in the left liver lobe of the MLP offspring (P = 0.02, left. vs. right), with a parallel reduction in this lobe in glucocorticoid receptor mRNA level (P = 0.006, left vs. right). In conclusion, maternal dietary protein restriction reduces fibrinogen gene expression, fibrinogen protein, and mRNA level and binding affinity of glucocorticoid receptors only in the left liver lobe of the adult offspring.     

Metallothionein synthesis in foetal, neonatal and maternal rat liver

The synthesis of hepatic metallothionein relative to other cytosol proteins was measured by [35S]cysteine incorporation in foetal, neonatal and pregnant rats. The relative rate of hepatic metallothionein synthesis reached a maximum in foetal liver on days 18-21 of gestation. Metallothionein synthesis then declined until weaning, when adult levels were established. The rate of metallothionein synthesis was greater in pregnant rats at term than in nulliparous rats. To determine if circulating inducing agents could play a role in the regulation of metallothionein synthesis in foetal liver we treated pregnant rats with inducers at a time prior to the normal rise in foetal liver metallothionein synthesis. Injections of copper, cadmium or hydrocortisone to 17-day-pregnant dams failed to induce foetal metallothionein synthesis. In contrast, zinc injection to the dam was an effective inducer in the foetuses. Maternal laparotomy (performed to expose the foetus for direct injection of inducers) induced foetal metallothionein synthesis. Metallothionein synthesis in the livers of 17-day-gestation dams was induced by all metal injections and laparotomy but, surprisingly, not by hydrocortisone injection. Maternal adrenalectomy did not influence the subsequent normal elevation in foetal or maternal metallothionein synthesis. These results, in conjunction with previous reports, suggest that mobilization of zinc in serum during late gestation may regulate foetal and maternal changes in metallothionein synthesis.     

Mammalian viviparity: a complex niche in the evolution of genomic imprinting

Evolution of mammalian reproductive success has witnessed a strong dependence on maternal resources through placental in utero development. Genomic imprinting, which has an active role in mammalian viviparity, also reveals a biased role for matrilineal DNA in its regulation. The co-existence of three matrilineal generations as one (mother, foetus and post-meiotic oocytes) has provided a maternal niche for transgenerational co-adaptive selection pressures to operate. In utero foetal growth has required increased maternal feeding in advance of foetal energetic demands; the mammary glands are primed for milk production in advance of birth, while the maternal hypothalamus is hormonally primed by the foetal placenta for nest building and post-natal care. Such biological forward planning resulted from maternal–foetal co-adaptation facilitated by co-expression of the same imprinted allele in the developing hypothalamus and placenta. This co-expression is concurrent with the placenta interacting with the adult maternal hypothalamus thereby providing a transgenerational template on which selection pressures may operate ensuring optimal maternalism in this and the next generation. Invasive placentation has further required the maternal immune system to adapt and positively respond to the foetal allotype. Pivotal to these mammalian evolutionary developments, genomic imprinting emerged as a monoallelic gene dosage regulatory mechanism of tightly interconnected gene networks providing developmental genetic stability for in utero development.     

Placental transfer of stobadine in rabbits

Stobadine, a pyridoindole antioxidant, was investigated for its placental transfer and distribution in New Zealand white rabbits on the 27th day of gestation. The concentrations of stobadine were determined in maternal and foetal organs (plasma, brain, heart) at 30, 60, 120, and 360 minutes after oral administration of the drug in a dose of 5 mg/kg. The results obtained proved that after oral stobadine intake by rabbits at the stage of advanced pregnancy both maternal and foetal organs were under a certain drug level which could act protectively against oxidative stress--frequently occurring during late organogenesis, foetal stages and delivery, as well as during early postnatal development.     

Time-course of changes in plasma nitric oxide following lipopolysaccharide and turpentine injection in rats

The effect of lipopolysaccharide (LPS) and turpentine on nitric oxide (NO) production were investigated in rats. Because of short half-life of NO in biological fluids, the plasma nitrite and nitrate concentrations (two stabile metabolites of NO) were measured based on Griess reaction, which is indirect assay for NO production. Injection of LPS at an intraperitoneal dose of 50 μg/kg caused a 3,5-fold increase in plasma nitrite within 3 h and nitrite levels remained significantly elevated 6, 12, and 24 h after endotoxin treatment with LPS. However, injection of turpentine at an intramuscular dose of 20 μl/rat did not alter plasma nitrite concentration at selected times after turpentine treatment (7, 10, 14, and 24 h postinjection). These results further support the hypothesis that NO is involved in pathogenesis of febrile response due to LPS in rats. Because turpentine did not change concentration of NO in plasma, the role of NO, as mediator/modulator, in development of turpentine fever appears to be controversial and needs further experimental verification.     

Effects of maternal nutrient restriction during early or mid-gestation without realimentation on maternal physiology and foetal growth and development in beef cattle

The aim of this study is to determine the effects of early and mid-gestation nutrient restriction on maternal metabolites and foetal growth. Primiparous Angus cows were synchronized and inseminated with semen from one sire. Dietary treatments were: control to gain 1 kg/week (CON) or 0.55% maintenance energy and CP requirements (nutrient restricted; NR). A subset of dams was fed NR (n=8) or CON (n=8) from days 30 to 110 of gestation. Another group was fed CON (n=8), days 30 to 190; NR (n=7), days 30 to 110 followed by CON days 110 to 190; or CON, (n=7) days 30 to 110 followed by NR days 110 to 190. Cows were harvested at days 110 or 190 of gestation, when foetal measurements and samples were collected. Cows that were NR during days 30 to 110 or 110 to 190 of gestation lost significant BW and body condition score (P<0.001), this was associated with reduced plasma glucose during NR (P<0.002). Foetal weights, empty foetal weights, abdominal and thoracic circumferences were all reduced (P<0.03) in day 110 NR animals. Foetal perirenal adipose as a percentage of empty foetal weight was increased (P=0.01) in NR day 110 female foetuses compared with CON foetus. Maternal serum triglycerides at day 110 of gestation were decreased (P<0.05) in NR dams, whereas foetal serum triglycerides were increased (P<0.05) in response to maternal NR. Foetal weights tended to be reduced (P=0.08) in NR/CON and CON/NR v. CON/CON cattle at day 190 of gestation. Empty foetal weights, abdominal and thoracic circumferences were reduced (P⩽0.03) in NR/CON and CON/NR v. CON/CON cattle. Brain weight as a percentage of empty foetal weight was increased (P<0.001) in NR/CON and CON/NR v. CON/CON cattle. Foetal perirenal adipose as a percentage of empty foetal weight was increased (P=0.003) in NR/CON and CON/NR v. CON/CON cattle. Maternal serum triglycerides at day 190 of gestation were decreased (P<0.05) in association with maternal NR. Foetal serum triglycerides at day 190 of gestation were increased (P<0.05) in response to maternal NR during early gestation but decreased by NR in mid gestation compared with CON foetuses. The data show that maternal nutrient restriction during early or mid-gestation cause’s asymmetrical foetal growth restriction, regardless if the restriction is preceded or followed by a period of non-restriction.     

Effect of maternal hypercholesterolemia on fetal sterol metabolism in the Golden Syrian hamster.

The fetus obtains a significant amount of cholesterol from de novo synthesis. Studies have suggested that maternal cholesterol may also contribute to the cholesterol accrued in the fetus. Thus, the present studies were completed to determine whether diet-induced maternal hypercholesterolemia would affect fetal sterol metabolism. To accomplish this, maternal plasma cholesterol concentrations were increased sequentially by feeding hamsters 0.0%, 0.12%, 0.5%, and 2.0% cholesterol. At 11 days into a gestational period of 15.5 days, cholesterol concentrations and sterol synthesis rates were measured in the three fetal tissues: the placenta, yolk sac, and fetus. In the placenta and yolk sac, the cholesterol concentration increased significantly when dams were fed as little as 0.12% cholesterol (P < 0.0167), and sterol synthesis rates decreased in dams fed at least 0.5% or 2% cholesterol, respectively (P < 0.0167). In the fetus, changes in fetal cholesterol concentration and sterol synthesis rates occurred only when dams were fed at least 0.5% cholesterol, which corresponded to a greater than 2-fold increase in maternal plasma cholesterol concentrations. When the cholesterol concentration in the fetal tissues in each animal was plotted as a function of maternal plasma cholesterol concentration, a linear relationship was found (P < 0.001).These studies demonstrate that sterol homeostasis in fetal tissues, including the fetus, is affected by maternal plasma cholesterol concentration in a gradient fashion and that sterol metabolism in the fetus is dependent on sterol homeostasis in the yolk sac and/or placenta.     

Progesterone and the initiation of parturition in the goat

The corpora lutea were surgically removed from 6 goats between 134 and 136 days of pregnancy and progesterone was administered daily. Pregnancy was prolonged past normal term in 4 goats receiving 25 mgs. of progesterone daily as a split dose. However, eventual delivery following progesterone withdrawal was abnormal and foetal mortality high.The progesterone therapy regime maintained maternal jugular plasma concentrations of progesterone in excess of 3 ng/ml. In normal untreated goats, maternal plasma concentrations of progesterone declined over the last 6 days of gestation. In treated goats, plasma concentrations of progesterone fell only after the cessation of therapy. Maternal plasma concentrations of estrogen rose within 24 hours of parturition in normal untreated goats. In the 4 goats in which pregnancy was prolonged, by progesterone administration, maternal plasma concentrations of estrogen were elevated for several days in the period before eventual foetal delivery.     

Synthesis of hepatic secretory proteins in normal adults consuming a diet marginally adequate in protein

The plasma concentration and hepatic synthesis rates of albumin, transthyretin, very low-density lipoprotein apolipoprotein B-100 (VLDL-apoB-100), high-density lipoprotein apolipoprotein A-1, fibrinogen, alpha1-antitrypsin, and haptoglobin were measured in six normal adults before and after consuming a protein intake of 0.6 g. kg body wt(-1). day(-1) for 7 days. The synthesis of hepatic proteins was measured from the incorporation of [(2)H(5)]- phenylalanine, following prime/continuous infusion, using plasma VLDL-apoB-100 isotopic enrichment to represent the precursor pool. Synthesis of albumin declined by 50% (P < 0.001) following the lower-protein diet, VLDL-apoB-100 declined by 20% (P < 0.001), and apoA-1 declined by 16% (P < 0.05). By contrast, synthesis increased for fibrinogen (50%, P < 0.05) and haptoglobin (90%, P < 0.001). This pattern of change, with decreased synthesis of nutrient transport proteins and increased formation of acute-phase proteins, suggestive of a low-grade inflammatory response, was accompanied by increased plasma concentration of the inflammatory cytokine interleukin 6 (30%, P < 0.05). The pattern of change in the synthesis of hepatic secretory proteins following 7 days on the low-protein diet may be of functional relevance for lipid transport and the capacity to cope with stress.     

Inhibition of infection‐mediated preterm birth by administration of broad spectrum chemokine inhibitor in mice

Preterm birth (PTB) is the single most important cause of perinatal and infant mortality worldwide. Maternal infection can result in PTB. We investigated the ability of a Broad Spectrum Chemokine Inhibitor (BSCI) to prevent infection‐induced PTB in mice. PTB was initiated in pregnant mice by intraperitoneal injection of lipopolysaccharide (LPS; 50 μg). Half the mice received BSCI (10 mg/kg) 24 hrs prior to and immediately before LPS administration. The impact of LPS alone or LPS plus BSCI was assessed on (i) injection‐to‐delivery interval, foetal survival rate, placental and neonates' weight; (ii) amniotic fluid and maternal plasma cytokine levels (by Luminex assay); foetal and maternal tissue cytokine gene expression levels (by Real‐Time RT‐PCR); (iii) immune cells infiltration into the uterine tissue (by stereological immunohistochemistry). Pre‐treatment with BSCI (i) decreased LPS‐induced PTB (64% versus 100%, P < 0.05); (ii) significantly attenuated cytokine/chemokine expression in maternal tissues (plasma, liver, myometrium, decidua); (iii) significantly decreased neutrophil infiltration in the mouse myometrium. BSCI‐treated mice in which PTB was delayed till term had live foetuses with normal placental and foetal weight. BSCI represents a promising new class of therapeutics for PTB. In a mouse model of preterm labour, BCSI suppresses systemic inflammation in maternal tissues which resulted in the reduced incidence of LPS‐mediated PTB. These data provide support for efforts to target inflammatory responses as a means of preventing PTB.     

Fibrinolytic Enzyme System and Pregnancy

The effect of pregnancy on the components of the fibrinolytic enzyme system was determined by serial observations on 10 healthy women during normal pregnancy, labour, and the puerperium. The plasminogen level was substantially increased in the third trimester; the increase occurred pari passu with a pronounced increase in fibrinogen concentration. After allowing for the expansion of plasma volume in pregnancy a twofold increase in the absolute amounts of circulating fibrinogen and plasminogen was found. In late pregnancy and during labour the level of plasminogen activator was greatly decreased, whereas a normal or increased level was present in the first week of the puerperium. No alteration in the levels of inhibitors of plasminogen activation by urokinase was found during normal pregnancy. The thrombin time and platelet count remained unchanged during pregnancy and labour but the platelet count rose significantly during the first week of the puerperium.The haemostatic mechanism in pregnancy appears to be altered towards an enhanced capacity to form fibrin and a diminished ability to lyse fibrin. These changes may be a physiological development to ensure the integrity of the foetal and maternal circulations and provide rapid and effective haemostasis in the uterus during and after placental separation. Nevertheless, the changes may also establish a vulnerable state for intravascular fibrin deposition.     

Liver export protein synthetic rates are increased by oral meal feeding in weight-losing cancer patients

We have demonstrated previously that, in the fasting state, whereas albumin synthesis is similar in cachectic cancer patients compared with controls, fibrinogen synthesis is increased. Whether synthesis of these proteins is altered after an oral meal was examined in eight weight-losing pancreatic cancer patients and six healthy controls by use of an intravenous flooding dose of [(2)H(5)]- or [(2)H(8)]phenylalanine. Cancer patients had a median weight loss of 19%, a significantly lower serum albumin concentration, and a significantly higher plasma fibrinogen concentration than controls (P < 0.005). Fasting albumin synthesis rates were similar between cancer patients and controls (median total synthesis rate 11.3 vs. 13.9 g/day, respectively) and rose on feeding by a similar degree (median 29 and 24%). The fasting fibrinogen total synthetic rate was significantly higher in cancer patients than in controls (median 3.3 vs. 1.0 g/day, P = 0.0019). In cancer patients in the fed state, fibrinogen synthetic rate rose by a median of 38% (P = 0.012), whereas in controls there was no significant change. These findings demonstrate significant upregulation by feeding of acute-phase protein synthesis in cachectic cancer patients.     

Increased synthesis rate of fibrinogen as a basis for its elevated plasma levels in obese female adolescents

Increased concentrations of plasma fibrinogen, an independent risk factor for cardiovascular disease (CVD), in obese children have been reported. The underlying mechanism for this, however, remains to be defined. In the current study, we measured the fractional synthesis rates (FSR) of plasma fibrinogen in six healthy postpubertal obese girls [body mass index (BMI) 36.6 +/- 1.8 kg/m(2); age 16.6 +/- 0.5 yr] and six age-matched lean normal control girls (BMI 20.8 +/- 0.7 kg/m(2); age 16.4 +/- 0.4 yr) during a primed, continuous infusion of L-[1-(13)C]leucine in the postabsorptive state. The method involved purification of plasma fibrinogen by use of immunoaffinity chromatography followed by measurement of [(13)C]leucine enrichment using gas chromatography-combustion-isotope ratio mass spectrometry. The FSR of fibrinogen in obese girls (35.06 +/- 2.61%/day) was almost double that in lean girls (17.02 +/- 1.43%/day), and this increase was associated with a relative increase in plasma concentration of fibrinogen as well as BMI in the subjects studied. Obese subjects had high fasting insulin levels (138 +/- 47 pmol/l) compared with lean subjects (54 +/- 11 pmol/l), whereas their glucose concentrations were similar (4.5 +/- 0.3 mmol/l in obese and 4.4 +/- 0.4 mmol/l in lean subjects), suggesting insulin resistance. The doubling of the FSR of fibrinogen provides novel insight into the mechanism of elevated levels of plasma fibrinogen and suggests a primary role for increased synthesis in producing the hyperfibrinogenemia associated with obesity. This finding may have important implications in the design of therapies for modulating plasma fibrinogen levels in obesity and/or CVD in childhood.