Serum catalase as marker of graft-vs-host disease in allogeneic bone marrow transplant recipients: pilot study.

We evaluated the efficacies of serum catalase (CAT), 5'-nucleotidase (5'NT), and tumor necrosis factor-alpha (TNF) as diagnostic markers of acute graft-vs-host disease (GVHD) in 28 allogeneic bone marrow transplant recipients by comparing their abilities to discriminate between GVHD-related and non-GVHD-related complications. Mean peak serum CAT concentrations for patients with GVHD-related complications (n = 17) were about fivefold higher than concentrations in patients with non-GVHD-related complications (n = 25; P = 0.003), whereas the mean peak concentrations of serum 5'NT and TNF were not substantially different. Similarly, the sensitivity and specificity of serum CAT (100% and 88%, respectively) for use as a diagnostic marker of GVHD were much better than those of serum 5'NT (88% and 24%, respectively) or serum TNF (65% and 4%, respectively). Receiver-operating characteristic plots of all possible sensitivity-specificity pairs obtained over the whole range of results also showed that serum CAT has the best diagnostic accuracy. Low specificities of serum TNF and 5'NT were caused mainly by their increase in septicemia, fungal infection, and veno-occlusive disease and after the use of granulocyte-macrophage colony-stimulating factor to stimulate donor cell engraftment. Serum CAT may prove to be a rapid and relatively noninvasive test for the diagnosis of acute GVHD.

Effect of food intake on the activity of liver enzymes in partially hepatectomized rats treated with tumor necrosis factor.

After partial hepatectomy (PHx), there are significant changes in the activity of a number of enzymes in the regenerating rat liver. Administration of low doses of recombinant human tumor necrosis factor-alpha (rHu-TNF) to normal rats induces similar changes in some of the enzymes but not in others. Because certain observations suggest that TNF may play a dominant role in liver regeneration, we speculated that the discrepancies in enzyme activities may be due to the decrease in food intake caused by PHx. Accordingly, the activities of eleven liver enzymes of 70% PHx rats additionally treated i.p. with rHu-TNF (20-50 micrograms/kg/day for 3-4 days) were compared with those of (i) PHx controls fed ad lib., and (ii) PHx controls pair-fed the same amount of food. When pair-fed controls were used, the discrepancies in the activities of the enzymes that are affected by fasting tended to disappear, suggesting that the decrease in the food intake was responsible for the differences.

Hepatic mitochondrial enzyme activity and serum amino acid composition in rats treated with tumor necrosis factor.

The biochemical integrity of hepatocellular mitochondria was investigated in rats treated with small doses of human recombinant tumor necrosis factor-alpha (Hur-TNF;50-100 micrograms/kg/d injected intraperitoneally for 5 d) by measuring the activities of three mitochondrial enzymes, glutamate dehydrogenase, succinate dehydrogenase and malate dehydrogenase. The activity of glutamate dehydrogenase (a mitochondrial matrix enzyme) was 20% to 34% lower than that of control rats (P = 0.02 to 0.0003). The activities of succinate dehydrogenase (an inner mitochondrial membrane enzyme) and malate dehydrogenase (a mitochondrial matrix and cytosolic enzyme) showed no significant difference. The effect of TNF on serum amino acid composition was studied using pair-fed, weight-matched partners to eliminate any effect of the reduction of food intake due to TNF treatment. The results for the TNF-treated rats showed a significant (P < 0.05) increase in the concentration of 12 of the 21 amino acids measured (range = 33% to 140%). Of these, major increases were observed in the urea cycle intermediates, ornithine (140%) and arginine (59%), as well as proline (94%), alanine (41%), valine (61%), leucine (64%), isoleucine (63%), and aspargine (71%). Since previous studies have shown that the treatment of rats with the same low doses of TNF did not cause any change in mitochondrial ultrastructure detectable by electron microscopy, these results suggest that significant biochemical changes in amino acid metabolism occur as a result of a decrease in mitochondrial glutamate dehydrogenase activity.

TNF-alpha effect on oxygen free radical scavenging and generating enzymes in rat liver.

The presence of cancer induces metabolic alterations in distant, tumor-free tissues and organs of the host. A remote humoral effect of cancer growing extrahepatically is an increase in the activity of oxidant and a decrease of antioxidant enzymes in the liver of the tumor-bearing animal. We speculated that TNF-alpha, produced by host cells, the cancer, or both, is responsible for these changes. When human recombinant TNF-alpha, 100 micrograms/kg/d i.p. for 5 days, was injected in groups of rats fed ad libitum, starved, or pair-fed, a decrease in the activity of superoxide dismutase and glutathione peroxidase and an increase in xanthine oxidase was observed, particularly with pair-fed controls. It is concluded that TNF-alpha, directly or indirectly, causes these enzyme alterations in the tumor-free liver of a tumor-bearing host.

Tumor necrosis factor induces enzymatic changes in liver comparable to those in extrahepatic cancer.

Human recombinant tumor necrosis factor was administered to rats in small doses to determine whether it causes changes in the activity of liver enzymes similar to those observed in cancer growing extrahepatically. Intraperitoneal injection of increasing doses of tumor necrosis factor (20-100 micrograms/kg/day for 5 days) resulted in a 20-50% decrease in hepatic alanine aminotransferase (P < or = 0.05), a 10-20% decrease in aspartate aminotransferase (P < or = 0.04), and a 50-200% increase in alkaline phosphatase (P < or = 0.02). The activity of hepatic 5'-nucleotidase was unchanged. In the serum, there was no significant change in the activity of any of the enzymes. Histologically, there was no damage detectable by light or electron microscopic examination of the liver, and no evidence of biliary obstruction. However, in frozen liver sections stained histochemically for alkaline phosphatase, there was a dramatic increase in the activity of this enzyme in hepatocytes, which was confined to the bile canaliculi. There was also a 3- to 9-fold increase in the mitotic activity of hepatocytes. Comparable changes have been reported in the tumor-free liver of animals with cancer.

Tumor necrosis factor-alpha is a direct hepatocyte mitogen in the rat.

We previously reported that tumor necrosis factor-alpha (TNF-alpha) increases in vivo hepatocyte mitoses and liver regeneration in rats. In the present studies, we used in vitro hepatocyte cultures to determine whether TNF-alpha itself was mitogenic or whether other cytokines (IL-1 beta and IL-6) that share similar actions with TNF-alpha might be involved. Hepatocytes were cultured with TNF-alpha (4, 40 or 400 U/ml), IL-1 beta (0.1, 1 and 10 ng/ml) or IL-6 (0.2, 2, or 20 ng/ml) for 24 h and 3 d. Incorporation of [3H]thymidine was increased significantly by TNF-alpha (40 and 400 U/ml) at 3 d. Both IL-1 beta and IL-6 at all concentrations significantly decreased [3H]thymidine incorporation at 3 d. These results indicate that TNF-alpha has a direct mitogenic action on hepatocytes. In contrast, IL-1 beta and IL-6 appear to suppress DNA synthesis in hepatocytes.

Homogeneous trinder-coupled assay for the determination of glucose-6-phosphatase activity in tissue extracts.

We describe an automated, homogeneous, glucose oxidase-coupled method for the determination of glucose-6-phosphatase activity in tissue extracts. The method is based on measurement of the rate of glucose formation by the Trinder reaction, in which the end product is a quinoneimine dye which absorbs maximally at 505 nm and has a molar extinction coefficient of 5700. The incubation mixture contains 20 microL of tissue extract, 25 microL of 0.5 M phosphate buffer, pH 7.0, 175 microL of Trinder/glucose-6-phosphate reagent, and 30 microL of distilled water. After a delay period of 15 min, to exhaust any glucose endogenously present in the extract, glucose production from glucose-6-phosphate is monitored at 505 nm for 5 min in a centrifugal analyzer. The Km was 13 mM over a 10-fold range in glucose-6-phosphate concentration and the reaction was linear up to about 250 U/L. Within-run CV of the assay at activities of 48 and 190 U/L ranged between 2.5-5.0%. The between-run CV at 190 U/L was 5.1%.

Effect of tumor necrosis factor on enzymes of gluconeogenesis in the rat.

The effect of human recombinant tumor necrosis factor (TNF)-alpha on enzymes of gluconeogenesis in the rat was investigated by determining the activity of glucose 6-phosphatase, fructose 1,6-diphosphatase (FDP), and phosphoenolpyruvate carboxykinase in the liver and kidney of fed and fasted rats. The activity of transaldolase in the pentose phosphate pathway was also measured. Starvation of rats for 24 hr resulted in a 1.6- to 3.1-fold increase in liver and kidney glucose 6-phosphatase and phosphoenolpyruvate carboxykinase (P less than or equal to 0.05), a decrease in liver and kidney FDP (P less than 0.002), and an increase in liver and kidney transaldolase (P = 0.0001). Injection of 50 and 100 micrograms/kg/day of TNF for 5 days resulted in a significant (P less than or equal to 0.03) decrease in kidney FDP only. Injection of 100 micrograms/kg/day of TNF for 5 days with a 24-hr fast on Day 5 resulted in a significant (P = 0.04) increase in liver transaldolase, and a significant decrease in kidney FDP and phosphoenolpyruvate carboxykinase. Comparison of the enzyme activities of rats injected with 100 micrograms/kg/day of TNF for 5 days with those of their pair-fed control partners revealed additionally a significant decrease in glucose 6-phosphatase in the liver (P less than 0.001). It is concluded that TNF administration in the rat has different effects on the enzymes of gluconeogenesis in the liver and kidney, and these effects differ from those seen in starved or tumor-bearing rats.

Geographic distribution of xanthine oxidase, free radical scavengers, creatine kinase, and lactate dehydrogenase enzyme systems in rat heart and skeletal muscle.

The geographic distribution of the following enzyme systems is described in the rat heart (left and right ventricles) and in different skeletal muscles (soleus, plantaris, and red and white gastrocnemius): xanthine oxidase and dehydrogenase, creatine kinase isoenzymes, lactate dehydrogenase isoenzymes, and the free radical scavenger enzymes superoxide dismutase, glutathione reductase, and glutathione peroxidase. No substantial difference in enzyme activities was observed between the left and right ventricles. Skeletal muscles showed a clear distinction between enzyme activities depending on their composition of oxidative fibers and glycolytic fibers.

Tumor necrosis factor/cachectin decreases catalase activity of rat liver.

Tumor bearing hosts and animals treated with endotoxin commonly show a decrease in the catalase activity of the liver and kidney. Since tumor necrosis factor (TNF)/cachectin may play a significant role in these conditions, we investigated its effects on the catalatic and peroxidatic activity of catalase in the liver and kidney of the rat. The activities of glucose-6-phosphate dehydrogenase and lactate dehydrogenase were measured simultaneously to monitor the pentose phosphate and glycolytic pathways, respectively. Injection i.p. of 100 micrograms/kg/day human recombinant TNF-alpha for 5 days resulted in a significant (P less than 0.01) decrease in the catalatic activity of the liver when compared to rats fed ad libitum. The decrease in four experiments ranged from 21 to 56%. A significant decrease (18%; P = 0.01) in liver catalatic and peroxidatic activity was also observed in another experiment using pair fed rats as controls. The peroxidatic activity of catalase with ethanol as hydrogen donor closely paralleled the catalatic activity. TNF treatment had no detectable effect on the catalatic or peroxidatic activity of catalase in the kidney. The activity of glucose-6-phosphate dehydrogenase increased (31-80%) significantly (P less than or equal to 0.02) in the liver and, to a lesser extent, in the kidney (5-27%, P = 0.05). Lactate dehydrogenase activity decreased (14-19%) significantly (P less than or equal to 0.05) in the liver and kidney but mainly in rats treated with TNF and additionally fasted for 24 h. Electron microscopic examination of liver sections showed that the hepatocytes of TNF-treated rats were undamaged but contained fewer and smaller peroxisomes than those of the control rats.

Multiple recurrent genomic defects in follicular lymphoma. A possible model for cancer.

Several steps in the clinical evolution of human neoplasia are associated with a variety of recurrent chromosomal defects that could prove essential to the understanding of cancer. We found 15 types of nonrandom chromosomal abnormalities in a study of 71 patients with follicular lymphoma; 10 of the types appeared to influence the histopathological findings, clinical course, or response to treatment. A translocation, t(14;18), observed in 85 percent of all patients appeared to be the main determinant of a follicular pattern. Ten patients with a t(14;18) as a single defect had the histologic features of follicular small cleaved-cell lymphoma. Most did not require treatment for one to four years, because their tumors had an initial indolent course. In contrast, patients with follicular small cleaved-cell lymphoma with t(14;18) and deletion 13q32 acquired the hematologic features of leukemia and had an acceleration of the disease. A deletion 6q together with a complete or partial trisomy 7 or trisomy 12 (or both) was associated with the clinically more aggressive follicular mixed small- and large-cell or large-cell histologic type, which often evolves from follicular small-cell lymphoma. A complete or partial trisomy 3, 18, or 21 correlated almost exclusively with follicular large-cell lymphoma. In all follicular stages, a trisomy 2 or duplication 2p often accompanied an accelerated clinical course and a poor response to treatment. This study suggests that several discrete genomic defects may govern the evolution of a patient's malignant disease.

Autonomic dysreflexia in a paraplegic man with catecholamine-secreting neuroblastoma.

Autonomic dysreflexia and catecholamine secreting tumor, each of which causes paroxysmal hypertension, coexisted in a young man. Two years after neuroblastoma was diagnosed, he developed T4 incomplete paraplegia due to metastases to the spine at T5 and L3 levels. Shortly after the onset of paraplegia, paroxysmal hypertension developed. The hypertension was controlled adequately by good bowel and bladder management and oral clonidine. The paroxysmal hypertension is believed to have resulted from the synergistic effect of the high levels of circulating catecholamines from the tumor and the disruption of autonomic pathways.

Recurrent chromosomal defects are found in most patients with non-Hodgkin's-lymphoma.

Using methotrexate cell synchronization, we successfully analyzed chromosomal preparations of 40 lymph node biopsies and one bone marrow sample from 44 patients with non-Hodgkin's, non-Burkitt's lymphoma. All of the 41 patients successfully analyzed showed clonal chromosomal abnormalities. In 25 of the 41 (61%), the defects were found to be consistent with (A) a deletion 6q in five of seven patients with diffuse large cell lymphoma, (B) a t(11;14), a del 11q, or a + 12 in seven of nine patients with small cell lymphocytic lymphoma, and (C) a t(14;18) in 12 of 15 patients with follicular lymphoma (small cleaved and mixed small and large cleaved) and in a single case of diffuse large cell lymphoma. In three patients with small cell lymphocytic lymphoma whose biopsies exhibited a t(11;14), lymphocytes were cultured and chromosomes examined for the presence of fragile sites. In two, frequent breaks at band 11q13.3 were observed. Such findings suggest a possible relationship between a fragile site and a predisposition to a specific chromosomal rearrangement in human neoplasia.