Paediatric Crohn disease patients with stricturing behaviour exhibit ileal granulocyte-macrophage colony-stimulating factor (GM-CSF) autoantibody production and reduced neutrophil bacterial killing and GM-CSF bioactivity.

Granulocyte-macrophage colony-stimulating factor (GM-CSF) autoantibodies are associated with stricturing behaviour in Crohn disease (CD). We hypothesized that CD ileal lamina propria mononuclear cells (LPMC) would produce GM-CSF autoantibodies and peripheral blood (PB) samples would contain GM-CSF neutralizing capacity (NC). Paediatric CD and control PBMC and ileal biopsies or LPMC were isolated and cultured and GM-CSF, immunoglobulin (Ig)G and GM-CSF autoantibodies production were measured by enzyme-linked immunosorbent assay (ELISA). Basal and GM-CSF-primed neutrophil bacterial killing and signal transducer and activator of transcription 5 (STAT5) tyrosine phosphorylation (pSTAT5) were measured by flow cytometry. GM-CSF autoantibodies were enriched within total IgG for LPMC isolated from CD ileal strictures and proximal margins compared to control ileum. Neutrophil bacterial killing was reduced in CD patients compared to controls. Within CD, neutrophil GM-CSF-dependent STAT5 activation and bacterial killing were reduced as GM-CSF autoantibodies increased. GM-CSF stimulation of pSTAT5 did not vary between controls and CD patients in washed PB granulocytes in which serum was removed. However, GM-CSF stimulation of pSTAT5 was reduced in whole PB samples from CD patients. These data were used to calculate the GM-CSF NC. CD patients with GM-CSF NC greater than 25% exhibited a fourfold higher rate of stricturing behaviour and surgery. The likelihood ratio (95% confidence interval) for stricturing behaviour for patients with elevation in both GM-CSF autoantibodies and GM-CSF NC was equal to 5 (2, 11). GM-CSF autoantibodies are produced by LPMC isolated from CD ileal resection specimens and are associated with reduced neutrophil bacterial killing. CD peripheral blood contains GM-CSF NC, which is associated with increased rates of stricturing behaviour.

A pilot study of tandem high-dose chemotherapy with stem cell rescue as consolidation for high-risk neuroblastoma: Children's Oncology Group study ANBL00P1.

Increasing treatment intensity has improved outcomes for children with neuroblastoma. We performed a pilot study in the Children's Oncology Group to assess the feasibility and toxicity of a tandem myeloablative regimen without TBI supported by autologous CD34-selected peripheral blood stem cells. Forty-one patients with high-risk neuroblastoma were enrolled; eight patients did not receive any myeloablative consolidation procedure and seven received only one. Two patients out of 41 (4.9%) experienced transplant-related mortality. CD34 selection was discontinued after subjects were enrolled due to serious viral illness. From the time of study enrollment, the overall 3-year EFS and OS were 44.8 ± 9.6% and 59.2 ± 9.2% (N=41). These results demonstrate that tandem transplantation in the cooperative group setting is feasible and support a randomized comparison of single vs tandem myeloablative consolidation with PBSC support for high-risk neuroblastoma.

Fetal tracheal occlusion in the rat model of nitrofen-induced congenital diaphragmatic hernia: tracheal occlusion reverses the arterial structural abnormality.

BACKGROUND/PURPOSE: The high mortality rate of congenital diaphragmatic hernia (CDH) is ascribed generally to pulmonary hypoplasia and persistent pulmonary hypertension characterized by associated pulmonary arterial structural changes. Prenatal tracheal occlusion (TO) accelerates lung growth, but the effect of TO on pulmonary arterial structure in CDH has not been well defined. The authors hypothesized that TO could reverse the pulmonary arterial structural changes observed in CDH. To address this hypothesis, we utilized the nitrofen-induced rat model of CDH to examine the effect of TO on pulmonary arterial morphology of CDH lungs. METHODS: Left-sided CDH was induced by administering 100 mg of nitrofen to pregnant Sprague-Dawley rats on day 9 of gestation. TO was performed on day 19, and the fetuses were harvested on day 21.5 of gestation. After the ductus arteriosus was ligated, the pulmonary arteries were injected with a barium-gelatin mixture, and the lungs were inflation fixed. Coronal sections of the lungs were stained with elastin van Gieson. External diameter (ED), internal diameter (ID), and medial and adventitial wall thickness of the pulmonary arteries were measured using a computer image analyzer, and the percent medial thickness (%MT) and adventitial thickness (%AT) were calculated. The lungs from nitrofen-exposed fetuses with left-sided CDH (CDH group), trachea-occluded left-sided CDH (CDH+TO group), non-CDH (non-CDH group), and normal fetuses (normal group) were compared. RESULTS: The %MT was significantly increased in all sizes of arteries in CDH compared with non-CDH and normal groups (P < .01). Compared with the CDH group, the CDH+TO group had significantly reduced %MT in all sizes of arteries (P < .01), to values comparable or less than the non-CDH and normal groups. The %AT of the CDH group was significantly increased in larger arteries compared with non-CDH and normal control groups (P < .01). CDH+TO had significantly decreased %AT compared with CDH in both larger (P < .01), and smaller arteries (P < .05) and that was comparable with the non-CDH and normal control groups. CONCLUSIONS: TO in hypoplastic CDH lung can reverse the pulmonary arterial structural changes that are seen in the nitrofen-induced fetal rat model of CDH. These data suggest that TO may reduce pulmonary vascular reactivity, and the risk of postnatal persistent pulmonary hypertension observed in human neonates with severe CDH. J Pediatr Surg 36:839-845.

BAPS prize-1999: Lung growth induced by prenatal tracheal occlusion and its modifying factors: a study in the rat model of congenital diaphragmatic hernia.

BACKGROUND/PURPOSE: Prenatal tracheal occlusion (TO) has been shown to accelerate lung growth in animal models and models of pulmonary hypoplasia. However, these models may not mimic early events in human congenital diaphragmatic hernia (CDH). The authors previously have developed a model of TO in the rat. The purpose of this study was to apply this technique to characterize TO-induced lung growth in the early onset nitrofen-induced model of CDH, and to address the clinically important questions of the effect of timing of TO and maternal infusion of terbutaline on TO-induced lung growth. METHODS: Left-sided CDH was induced in the fetuses of time-dated pregnant Sprague-Dawley rats by feeding 100 mg of nitrofen on day 9 of gestation. TO was performed via maternal laparotomy and hysterotomy at 19 days' gestation. At harvest (21.5 days' gestation), lungs from nitrofen-exposed fetuses without CDH (non-CDH), with CDH (CDH), and with CDH and TO (CDH-TO) were compared by analysis of wet and dry weight, DNA and protein content, and stereologic morphometry. A second study was performed to assess relative lung growth achieved by equal intervals of TO after "early" (19 days) versus "late" (20 days) gestational TO. Finally, the effect of maternal infusion of terbutaline, a commonly used tocolytic for fetal surgery, on TO-induced lung growth was analyzed. RESULTS: Analysis of lung growth showed consistent and significant lung growth in CDH-TO lungs. Lung growth after TO was proliferative and characterized by an increase in parenchymal volume as manifest by increased total saccular number and surface area and radial saccular count. Although visceral reduction was partially achieved, herniated liver was reduced incompletely. The majority of lung growth occurred during the latter half of the TO period. Early gestational age at TO and maternal terbutaline administration adversely influenced lung growth in CDH-TO fetuses. CONCLUSIONS: Prenatal TO induces dramatic lung growth in the early onset, nitrofen-induced rat model of CDH. TO is more effective later in gestation presumably because of the advanced stage of lung development and lung fluid production. This effect could be counterbalanced by the use of beta-mimetic tocolytic, which inhibits fetal lung fluid production late in gestation. Multiple factors including fetal lung fluid production and absorption, pharmacologic agents, space-occupying herniated viscera, and timing and duration of TO may be important clinical variables. The development of the rat model should facilitate further studies into the cellular and molecular mechanisms responsible for TO-induced lung growth.

Fetal lung growth after short-term tracheal occlusion is linearly related to intratracheal pressure.

Prenatal tracheal occlusion (TO) has been shown to accelerate fetal lung growth, yet the mechanism is poorly understood. The goal of this study was to determine the relationship between fetal intratracheal pressure (Pitr) and fetal lung growth after TO. Fetal lambs underwent placement of an intratracheal catheter and a reference catheter at 115--120 days gestation (term, 145 days). Fetal Pitr was continuously controlled at three levels (high, 8 mmHg; moderate, 4 mmHg; low, 1 mmHg) by a servo-regulated pump. The animals were killed after 4 days, and the parameters of lung growth were compared. Lung volume (136.0 +/- 16.7, 94.9 +/- 9.7, 55.5 +/- 12.4 ml/kg), lung-to-body weight ratio (6.31 +/- 0.70, 4.89 +/- 0.38, 3.39 +/- 0.22%), whole right lung dry weight (3.01 +/- 0.29, 2.53 +/- 0.15, 2.07 +/- 0.24 g/kg), right lung DNA (130.0 +/- 11.3, 116.7 +/- 8.6, 97.5 +/- 10.9 mg/kg), and protein contents (1,865.5 +/- 92.5, 1,657.6 +/- 106.8, 1,312.0 +/- 142.5 mg/kg) in high, moderate, and low groups, respectively, all increased in the moderate compared with the low group and increased further in the high compared with the moderate group. Morphometry confirmed a stepwise increase in the volume of respiratory region and alveolar surface area. We conclude that lung growth in the first 4 days after TO is closely correlated with fetal Pitr, offering additional evidence that an increase in lung expansion is one of the major factors responsible for TO-induced lung growth.

Lung growth induced by tracheal occlusion in the sheep is augmented by airway pressurization.

BACKGROUND/PURPOSE: Prenatal tracheal occlusion (TO) has been shown to accelerate lung growth, yet the mechanism for this effect is poorly understood. Increased intratracheal pressure (ITP) with accumulation of lung fluid and secondary airway distension (stretch) may provide a mechanical stimulus for growth. In this study, ITP after TO is measured continuously, and the effect of altering ITP on lung growth is examined. METHODS: Fetal lambs of 115 to 120 days of gestation (term, 145 days) underwent placement of an intratracheal catheter and an amniotic fluid reference catheter. First, ITP was monitored continuously in normal controls (n = 4) and in fetuses undergoing TO (n = 6). In a subsequent study, 2 groups of fetuses were compared. In the TO group (n = 5) ITP was monitored after TO. In the pressurized group (n = 5) ITP was maintained at 7 to 8 mm Hg by a continuous servo regulated pump that maintains a preset pressure by lactated Ringers infusion. The animals were killed after 4 days, and lung growth was compared. RESULTS: In the control animals, ITP remained constant at 0.4 to 1.5 mm Hg. In the TO animals, ITP increased gradually during the initial 24 hours and plateaued at 4 to 5 mm Hg. In the second set of animals, ITP in the pressurized group was maintained at approximately 8 mm Hg using the infusion system. Lung volume (135.7+/-17.4 v. 95.2+/-14.8 mL/kg; P<.01), lung weight to body weight (6.70+/-0.73 v. 5.33+/-0.77%; P<.05), whole right lung dry weight (3.10+/-0.22 v. 2.63+/-0.20 mg/kg; P<.05), and right lung DNA and protein contents (87.3+/-6.0 v. 74.6+/-8.1 mg/kg, 2,310+/-248 v. 1,860+/-196 mg/kg, respectively; P<.05) were increased significantly in the pressurized group compared with the TO group. Morphometry confirmed greater volume of respiratory region and increased alveolar surface area in the pressurized lung. CONCLUSIONS: TO results in a gradual increase in ITP over 15 to 24 hours, which plateaus at 4 to 5 mm Hg. Further increasing ITP by infusion of crystalloid significantly augments lung growth beyond that observed with TO alone. These data support the hypothesis that airway pressure and secondary mechanical stretch are the primary stimuli of TO induced lung growth.

Fetal tracheal occlusion in the rat model of nitrofen-induced congenital diaphragmatic hernia.

Prenatal tracheal occlusion (TO) consistently accelerates lung growth in the sheep model of congenital diaphragmatic hernia (CDH). However, significant variability in lung growth has been observed in early clinical trials of TO. We hypothesized that lung hypoplasia created at relatively late stages of lung development may not be equivalent to human CDH-induced lung hypoplasia, which begins early in gestation. To test this hypothesis, we performed TO in the rat model of nitrofen-induced CDH. Left-sided CDH was induced by administering 100 mg of nitrofen to timed pregnant rats on day 9 of gestation. On day 19 of gestation, four to five fetuses per dam underwent surgical ligation of the trachea. At death (day 21.5), lungs from non-CDH (non-CDH group), left-CDH (CDH group), and trachea-occluded left-CDH fetuses (CDH-TO group) were harvested and compared by weight, DNA and protein content, and stereological morphometry. Wet and dry lung weight-to-body weight ratio, total lung DNA and protein contents, the volume of lung parenchyma, and the total saccular surface area of the CDH-TO group were significantly increased relative to the CDH group and were either greater than or comparable to the non-CDH controls. We conclude that TO accelerates lung growth and increases lung parenchyma in an early-onset model of CDH-induced lung hypoplasia.

Prenatal diagnosis and perinatal management of fetal sacrococcygeal teratoma.

Sacrococcygeal teratoma is the most common fetal neoplasm, with an incidence of 1 in 40,000 births. Fetuses with this malformation are at risk for significant perinatal morbidity and mortality. We identified nine fetuses with sacrococcygeal teratomas that were diagnosed antenatally and managed at the University of North Carolina Hospitals over a 7-year period. We retrospectively reviewed the charts of mothers and infants and recorded data concerning perinatal and surgical management. Six infants survived the neonatal period. All infants diagnosed after 20 weeks' gestation survived. Fetal hydrops developed in three fetuses, all of whom died. Inadequate ventilation secondary to prematurity was a contributing factor in each lethal case. Diagnosis at an early gestational age, development of fetal hydrops, and premature delivery predicted a poor prognosis. When possible, we recommend that delivery be delayed to allow for fetal development. Stabilization of the infant should be attempted before resection of the teratoma.

Prenatal diagnosis and perinatal management of fetal sacrococcygeal teratoma.

Sacrococcygeal teratoma is the most common fetal neoplasm, with an incidence of 1 in 40,000 births. Fetuses with this malformation are at risk for significant perinatal morbidity and mortality. We identified nine fetuses with sacrococcygeal teratomas that were diagnosed antenatally and managed at the University of North Carolina Hospitals over a 7-year period. We retrospectively reviewed the charts of mothers and infants and recorded data concerning perinatal and surgical management. Six infants survived the neonatal period. All infants diagnosed after 20 weeks' gestation survived. Fetal hydrops developed in three fetuses, all of whom died. Inadequate ventilation secondary to prematurity was a contributing factor in each lethal case. Diagnosis at an early gestational age, development of fetal hydrops, and premature delivery predicted a poor prognosis. When possible, we recommend that delivery be delayed to allow for fetal development. Stabilization of the infant should be attempted before resection of the teratoma.

Tracheal occlusion in the fetal rat: a new experimental model for the study of accelerated lung growth.

BACKGROUND: Prenatal tracheal occlusion accelerates fetal lung growth, but the mechanism of this phenomenon is unknown. Previous animal models have been limited by expense, lack of species-specific molecular probes, or the stage of lung development when studies could be performed. To provide a model that is more amenable to systematic analysis, we have developed an in vivo rat model of prenatal tracheal occlusion. METHODS: Time-dated pregnant rats underwent laparotomy at 19 days' gestational age (term, 22 days). The fetal head and neck were exteriorized through a hysterotomy, and the trachea was ligated under a dissecting microscope. The fetus was returned to the amniotic cavity, and the uterine and maternal abdominal incisions were closed. The dam and the fetuses were killed at 21.5 days' gestational age, and the fetal lungs were assessed for lung growth and compared with nonoperated littermate controls. RESULTS: Thirty-two of 50 manipulated fetuses survived. Of the 32 survivors, successful tracheal ligation was confirmed in 20, and these 20 fetuses were compared with 33 littermate controls. Fetal body weight (4.81+/-0.26 g v 4.87+/-0.41 g) and heart weight (0.05+/-0.01 g v 0.05+/-0.01 g) were not significantly different between ligated fetuses and littermate controls, whereas the wet lung weight (0.30+/-0.06 g v 0.13+/-0.02 g, P<.01), lung-to-body-weight ratio (6.34+/-1.16% v 2.64+/-0.41%, P<.01), dry lung weight (17.4+/-2.45 mg v 12.1+/-1.87 mg, P<.01), total lung DNA (1210+/-371 microg v 828+/-208 microg, P<.01), and total lung protein (14.3+/-5.3 mg v 8.7+/-1.7 mg, P<.01) were increased significantly in the ligated fetuses. The enlarged lung demonstrated normal histology findings after inflation fixation. CONCLUSIONS: Prenatal tracheal occlusion during the canalicular stage of lung development accelerates lung growth in the rat. In comparison with other large animal models, this relatively inexpensive small animal model has the distinct advantages of a short gestation, a large number of fetuses per litter, the availability of a developmental model of congenital diaphragmatic hernia, and the availability of well-defined molecular probes to investigate the mechanism of tracheal occlusion-induced lung growth.

Prenatal diagnosis and perinatal management of fetal sacrococcygeal teratoma.

Sacrococcygeal teratoma is the most common fetal neoplasm, with an incidence of 1 in 40,000 births. Fetuses with this malformation are at risk for significant perinatal morbidity and mortality. We identified nine fetuses with sacrococcygeal teratomas that were diagnosed antenatally and managed at the University of North Carolina Hospitals over a 7-year period. We reviewed retrospectively the charts of mothers and infants and recorded data concerning perinatal and surgical management. Six infants survived the neonatal period. All infants diagnosed after 20 weeks' gestation survived. Fetal hydrops developed in three fetuses, all of whom died. Inadequate ventilation secondary to prematurity was a contributing factor in each lethal case. Diagnosis at an early gestational age, development of fetal hydrops, and premature delivery predicted a poor prognosis. When possible, we recommend that delivery be delayed to allow for fetal development. Stabilization of the infant should be attempted before resection of the teratoma.

Inflammatory bowel disease in children.

Inflammatory bowel disease remains a serious chronic illness in children. Recent developments in the care of these patients involves both basic science research into the pathophysiology of ulcerative colitis and Crohn's disease and the development of refinements in the surgical techniques and medical therapies available as treatment options. In Crohn's disease, a new steroid analogue (budesonide) shows some promise as a possible medical treatment that would limit the devastating side effects of steroids in children. In addition, the bowel-sparing technique of strictureplasty has now been reported in children with good results. In ulcerative colitis, the surgical technique of endorectal pull-through continues to evolve with reports of the efficacy of specific pouch designs and surgical techniques. An understanding of pouchitis, the most common complication of endorectal pull-through, has focused on documenting specific alterations in the microbiology and physiology of the pouch, as well as investigating a possible link between autoantibodies and susceptibility to this complication.

Traumatic delivery: a risk factor for bleeding during ECMO?

Traumatic delivery is associated with orthopedic, nervous, and soft tissue injuries. Anticoagulation for extracorporeal membrane oxygenation (ECMO) support may predispose to hemorrhage from these birth injuries. A case of delayed hemoperitoneum secondary to hepatic laceration after delivery and ECMO, not previously reported, is detailed herein.

In vivo administration of interleukin-1 alpha induces muscle proteolysis in normal and adrenalectomized rats.

The effect on muscle protein turnover of recombinant interleukin-1 alpha (rIL-1 alpha), 300 micrograms/kg body weight (BW) administered intraperitoneally (IP) in three divided doses over 18 hours, was studied in rats. Protein synthesis rate was determined by measuring incorporation of 14C-phenylalanine into protein, and total and myofibrillar protein breakdown rates were determined by measuring release of tyrosine and 3-methylhistidine, respectively, in incubated extensor digitorum longus muscles. To assess the role of glucocorticoids in rIL-1 alpha-related metabolic alterations, plasma levels of corticosterone following rIL-1 alpha injection and the effect of rIL-1 alpha on muscle protein breakdown in adrenalectomized and sham-adrenalectomized rats were determined. Total and myofibrillar protein breakdown rates were increased by 45% and 167%, respectively, following treatment of normal rats with rIL-1 alpha; muscle protein synthesis was not altered by the cytokine. Plasma corticosterone levels were markedly elevated following rIL-1 alpha injection, with a maximal level occurring at 30 minutes. However, administration of rIL-1 alpha resulted in increased total and myofibrillar protein breakdown rates in both adrenalectomized and sham-adrenalectomized rats. The results suggest that increased muscle proteolysis following administration of rIL-1 alpha is independent of glucocorticoids.

Individual regulation of different hepatocellular functions during sepsis.

The purpose of this study was to test the hypothesis that different hepatocellular functions are regulated individually during sepsis. This was done by simultaneously measuring bile production, release of liver transaminases, and synthesis of secreted proteins in perfused livers from control and septic rats. Sepsis was induced by cecal ligation and puncture (CLP); control rats were sham-operated. After 16 hours, livers were perfused in situ, and bile flow, synthesis rates of albumin and alpha 1-acid glycoprotein (a major acute-phase protein in rats), and release of glutamic-oxaloacetic transaminase (GOT) and glutamic-pyruvic transaminase (GPT) into perfusate were determined. Within the same livers, sepsis resulted in a 54% increase in the synthesis of alpha 1-acid glycoprotein and approximately 30% inhibition of albumin synthesis concomitant with 50% lower bile flow. The concentrations of GOT and GPT in the perfusate increased slightly during the experiments, both when control and septic livers were perfused. The maintained tissue levels of adenosine triphosphate (ATP) and the uptake of Evans blue dye by less than 1% of the hepatocytes, although a late test of viability, suggest that both control and septic livers remained viable during perfusion. The results are consistent with the concept that different hepatocellular functions are individually regulated during sepsis. Thus, impairment of certain hepatocellular functions does not necessarily imply generalized liver failure.

Increased intestinal protein synthesis during sepsis and following the administration of tumour necrosis factor alpha or interleukin-1 alpha.

The influence of sepsis on intestinal protein synthesis was studied in rats. Sepsis was induced by caecal ligation and puncture (CLP); control rats were sham-operated. Protein synthesis was measured in vivo in the jejunum and ileum following a flooding dose of [14C]leucine. At 8 h after CLP the protein synthesis rate was increased by approx. 15% in jejunal mucosa, and at 16 h after CLP, the protein synthesis rate was increased by 50-60% in the mucosa and seromuscular layer of both jejunum and ileum. In a second series of experiments, rats were treated with recombinant tumour necrosis factor alpha (rTNF alpha) or recombinant interleukin-1 alpha (rIL-1 alpha) administered at a total dose of 300 micrograms/kg body weight over 16 h. Control rats received corresponding volumes of solvent. Treatment with rTNF alpha resulted in an approx. 25% increase in mucosal protein synthesis in jejunum. Following treatment with rIL-1 alpha, protein synthesis increased by 25% in jejunal mucosa and almost doubled in ileal mucosa. The results suggest that sepsis stimulates intestinal protein synthesis and that this response may, at least in part, be mediated by TNF and/or IL-1.

The predictive value of head ultrasound in the ECMO candidate.

Cranial ultrasound (US) examination is the screening technique of choice for assessing preexisting neurological damage in potential neonatal extracorporeal membrane oxygenation (ECMO) candidates. Currently, US evidence of intracranial hemorrhage greater than grade I in severity is a contraindication to ECMO at this ECMO center. In the current study, radiological findings were reviewed in 129 consecutive neonatal ECMO cases in an attempt to identify which pre-ECMO US findings were associated with the development of subsequent intracranial complications while on ECMO. Pre-ECMO head US, post-ECMO head US, and head computed tomography (CT) scans were reviewed retrospectively by one radiology team. Ventricular, parenchymal, and extraaxial fluid abnormalities were recorded for each case. Pre-ECMO US findings were then correlated with the subsequent development of significant intracranial radiological abnormalities noted on post-ECMO studies as well as with clinical data regarding ECMO course and outcome. Results showed that infants with evidence of severe edema or periventricular leukomalacia on pre-ECMO imaging had a 63% incidence of subsequent major intracranial complications. This represents a significantly higher risk than in candidates with a normal examination or evidence of grade I intracranial hemorrhage, subependymal cysts, or mild edema. These results suggest that infants with sonographic evidence of ischemic or anoxic damage on pre-ECMO US are at high risk for the development of significant intracranial complications if ECMO therapy is instituted.

The effect of interleukin-1 alpha and the glucocorticoid receptor blocker RU 38486 on total and myofibrillar protein breakdown in skeletal muscle.

The purpose of the present study was to test the hypothesis that muscle proteolysis induced by interleukin-1 alpha (IL-1 alpha) is mediated by glucocorticoids. Male Sprague-Dawley rats, weighing 40-60 g, were treated with recombinant IL-1 alpha (rIL-1 alpha), 300 micrograms/kg in three divided intraperitoneal doses over 16 hr, or corresponding control injections. Groups of rats received the glucocorticoid receptor blocker RU 38486 by gavage (15 mg/kg in three divided doses over 16 hr) or were subjected to sham-gavage. In other experiments we tested the effectiveness of the same dose of RU 38486 to block muscle proteolysis in rats treated with corticosterone (200 mg/kg in two divided doses over 16 hr). Total and myofibrillar protein breakdown rates in incubated extensor digitorum longus muscles were determined by measuring release of tyrosine and 3-methylhistidine, respectively. Administration of rIL-1 alpha increased total and myofibrillar protein breakdown by 49 and 134%, respectively. This effect of the cytokine was not affected by RU 38486. The same dose of RU 38486, however, completely blocked the increase in total and myofibrillar protein breakdown induced by corticosterone. The results suggest that muscle proteolysis induced by the administration of rIL-1 alpha is not mediated by glucocorticoids.

Effect of ischemia on protein synthesis in the septic liver.

The effect of ischemia on hepatic protein synthesis during sepsis is not known, but is of clinical relevance, since hepatic blood flow decreases during the late phase of sepsis. In this study, synthesis of acute-phase proteins was measured in perfused livers of rats 16 hours after sham operation or cecal ligation and puncture. Livers from each group had 45 minutes of complete ischemia or control perfusion. Protein synthesis was measured during two hour perfusion after the ischemia or control period, by determining incorporation of 3H-leucine into total secreted trichloracetic acid precipitated proteins, immunoprecipitated complement component C3 and albumin and phosphotungstenate-precipitated alpha 1-acid glycoprotein. Lactate, glutamine-oxalacetic transaminase (GOT) and glutamic-pyruvic transaminase (GPT) levels in the perfusate were measured during preischemic and postischemic perfusion. Tissue glutathione levels were measured at the end of the perfusion. Synthesis of alpha 1-acid glycoprotein was increased by 100 per cent and albumin synthesis decreased by 46 per cent in septic livers, consistent with an acute-phase response and apparent downregulation of albumin synthesis during early sepsis. Synthesis rates were reduced by 50 to 60 per cent after ischemia in perfused livers from sham operated rats and 70 to 80 per cent in livers from septic rats. Hepatic production of interleukin-1 was not different between the groups during perfusion. GOT and GPT levels increased significantly during ischemia of both nonseptic and septic livers and rapidly returned toward baseline during reperfusion. Lactate levels were higher in perfusate of septic than of nonseptic livers before ischemia and increased further during ischemia. The results suggest that ischemia inhibits production of secreted hepatic proteins similarly in nonseptic and septic livers, but perhaps to a slightly greater extent in septic livers.