Circadian variation of cytosol glucocorticoid receptors in human polymorphonuclear leukocytes (PMN) and mononuclear cells (MN) in a normal population

Glucocorticoid cytosol and whole cell receptors from human PMN's have been quantified, and compared to those of human MN leukocytes on the same blood sample. The normal cytosol PMN receptor density (N = 15) averaged 1,254 +/- 105 (SE) molecules bound/cell at 0900 h and increased significantly to 1,497 +/- 98 at 2,100 h (P less than 0.02). MN cell cytosol receptor density was 1,198 +/- 145 at 0900 h and increased significantly to 1,551 +/- 117 molecules bound/cell at 2,100 h (P less than 0.01). Corresponding whole cell receptor densities at 0900 h were 2,845 +/- 273 (PMN) and 3,547 +/- 290 (MN) and these did not change significantly at 2,100 h. Conclusions: Cytosol receptors in normal human PMN and MN cells increased significantly at 2,100 h from the 0900 h level while serum cortisol levels were dropping. Whole cell receptors in the same PMN and MN cell samples did not change significantly between 0900 and 2,100 h. The normal circadian variation in serum cortisol influences the distribution of the glucocorticoid receptor between the cytosol and the nucleus, but does not influence the amount of receptor available to the whole cell. This is the first time that an endogenous physiological variation of cortisol concentration has been utilized to demonstrate a corresponding change in receptor capacity in vivo.     

Importance of extracellular divalent cations to polarisation of polymorphonuclear leukocytes induced by plasma

The roles of extracellular calcium and magnesium ions in the polarisation of human peripheral blood polymorphonuclear leukocytes (PMN) induced by autologous fresh heparinised plasma were investigated by studying the effects of 5 mM chelators of divalent cations [ethylenediamine tetra-acetic acid (EDTA), ethylenebis-(oxyethylene-nitrilo)-tetra-acetic acid (EGTA) or disodium hydrogen citrate]. In addition, the effects of a blocker of membrane calcium channels (verapamil) were studied. Polarisation of PMN suspended in plasma (84.1 +/- 11.9%) was reduced by each chelating agent over 30 min (to 20.0 +/- 15.6% by EDTA, to 42.5 +/- 19.3% by EGTA and to 29.4 +/- 22.9% by citrate). Polarisation of PMN suspended in plasma treated with EDTA or EGTA was restored by inclusion of equimolar additional Ca2+ ions, and in plasma treated with EDTA, EGTA or citrate, by equimolar additional Mg2+ ions. Additional Mg2+ had no effect on the spherical shape of PMN in Hanks' solution and additional cations had no effects on the polarisation of PMN induced by fMLP. Cells rendered spherical by each chelating agent in plasma for 30 min retained their ability to polarise on addition of fMLP to the plasma-chelator medium. Verapamil (10(-4) M) markedly reduced polarisation in plasma (to 52 +/- 11.3%) but the same drug (10(-5) M) had no such effect. In contrast to the polarisation of cells in plasma, the polarisation response of PMN to N-formyl-methionyl-leucyl-phenylalanine (fMLP, 10(-8) M) in buffered Hanks' solution was not affected by any of the chelating agents or by verapamil, even in high concentration. These results indicate that extracellular divalent cations are necessary for the polarisation of PMN suspended in autologous plasma and that the mechanism of polarisation of PMN in plasma may be different to that of polarisation induced by fMLP.     

Measurement of plasma methoxyamines for the diagnosis of pheochromocytoma.

Urinary methoxyamine determination is considered as the most sensitive and specific parameter for the diagnosis of pheochromocytoma. Since blood sampling is easier to perform, we developed a new HPLC method to assay metanephrine (MN) and normetanephrine (NMN) in plasma. We now report the results for total (free and conjugated) MN and NMN in 22 cases of pheochromocytoma compared to 26 healthy subjects, 33 patients with essential hypertension, 14 with miscellaneous diseases and 4 patients with renal failure. The mean normal values (mean +/- SD) were 0.40 +/- 0.10 ng/ml for MN and 0.85 +/- 0.25 ng/ml for NMN. The sum of MN+NMN was 1.25 +/- 0.28 and the range 0.9-1.9. In essential hypertension, the range of NMN+MN was 1.2-6.0. In the 4 renal failures, both MN and NMN were drastically increased. In 49 samples drawn from 22 pheochromocytomas, MN was elevated over the hypertensive range in 34 samples and NMN in 47 samples. The total MN+NMN ranged from 6.2 to 436 ng/ml; this figure was observed whatever the clinical presentation even in silent tumors or in paroxysmal forms between the crisis. After tumor removal, the values dropped rapidly. In conclusion, plasma determination of MN and NMN provides a highly sensitive and specific biological pointer for the diagnosis of pheochromocytoma in patients without renal failure.     

A HISTOCHEMICAL STUDY OF PHAGOCYTIC AND ENZYMATIC FUNCTIONS OF RABBIT MONONUCLEAR AND POLYMORPHONUCLEAR EXUDATE CELLS AND ALVEOLAR MACROPHAGES : I. Survey and Quantitation of Enzymes, and States of Cellular Activation

The cytochrome oxidase (CO), aminopeptidase (AMP), succinic dehydrogenase (SD), acid phosphatase, esterase, and alkaline phosphatase of rabbit mononuclear (MN) and polymorphonuclear (PMN) peritoneal exudate cells and pulmonary alveolar macrophages (AM) - air dried on Mylar strips - were characterized by histochemical techniques with respect to stability, activators, inhibitors, and pH optima. A granule count method was established for the quantitation of these enzymes. For the acid phosphatase of MN, in which the most precise results were obtained, time, pH, substrate, and inhibitor curves resembled those commonly obtained biochemically. Five of these enzymes were usually more active in AM than MN, whereas the sixth, alkaline phosphatase, was not present in either cell type. AM also tended to consume more oxygen than MN and to divide more frequently. Since the most active cells in the population would be first involved in the host's defense against microbial agents, a comparison was made of the 10 per cent of the AM and MN with the highest enzymatic activities. No differences were found in the granule counts that were not reflected by the means. However, within a given AM population, cells containing ingested dust particles seemed to have higher enzymatic activities than those without particles. MN had greater acid phosphatase and SD activities than PMN and consumed more oxygen, but the CO, AMP, and esterase activites of both types of cells were of similar magnitude. PMN showed high alkaline phosphatase activity; MN showed none. A survey of the histochemical literature indicates that a positive correlation between the enzymatic and phagocytic activities of both MN and PMN exists in vivo.     

Comparison of bloodstream fatty acid composition from African-American women at gestation, delivery, and postpartum

Our aim was to examine the docosahexaenoic acid (DHA; 22:6n-3) status of pregnant African-American women reporting to the antenatal clinic at Wayne State University in a longitudinal study design. Fatty acid compositions of plasma and erythrocyte total lipid extracts were determined and food frequency surveys were administered at 24 weeks of gestation, delivery, and 3 months postpartum for participants (n = 157). DHA (mean +/- SD) in the estimated total circulating plasma was similar at gestation (384 +/- 162 mg) and delivery (372 +/- 155 mg) but was significantly lower at 3 months postpartum (178 +/- 81 mg). The relative weight percentage of DHA and docosapentaenoic acid n-6 (DPAn-6; 22:5n-6) decreased postpartum, whereas their respective metabolic precursors, eicosapentaenoic acid (EPA; 20:5n-3) and arachidonic acid (AA; 20:4n-6), increased. Similar results were found in erythrocytes. Dietary intake of DHA throughout the study was estimated at 68 +/- 75 mg/day. The relative amounts of circulating DHA and DPAn-6 were increased during pregnancy compared with 3 months postpartum, possibly via increased synthesis from EPA and AA. The low dietary intake and blood levels of DHA in this population compared with others may not support optimal fetal DHA accretion and subsequent neural development.     

The platelet cyclooxygenase metabolite 12-L-hydroxy-5, 8, 10-hepta-decatrienoic acid (HHT) may modulate primary hemostasis by stimulating prostacyclin production

Although HHT accounts for approximately one third of the arachidonic acid (AA) metabolites produced by stimulated platelets, no well defined function has been attributed to this product. We report that HHT stimulates prostacyclin production by endothelial cells, and have identified the mechanism for this effect. In human umbilical venous endothelial cells, HHT (0.5 and 1 microM) stimulated prostacyclin (RIA for 6KPGF1 alpha) by 32 +/- 22% (1SD) and 42 +/- 38% (P less than 0.05 and less than 0.01). Similar changes were observed when the effect of HHT on exogenous [1-14C] AA metabolism in fetal bovine aortic endothelial cells (FBAECs) was studied. Kinetic analyses revealed that HHT affected vascular cyclooxygenase. HHT (1 microM) increased Vmax in test microsomes (706 +/- 21 pmol/mg/min, mean +/- 1SE) when compared to controls (529 +/- 20; P less than 0.02). No concomitant effect on Km was observed. A further effect of HHT on AA release from endothelial cell membrane phospholipids was noted. Prelabeling experiments revealed that HHT (1 microM) increased the ionophore stimulated release of AA from FBAECs (20952 +/- 555 cpm/well control mean +/- 1SE vs 25848 +/- 557 for paired HHT treated cells; P less than 0.05). The effect of HHT on platelet AA metabolism was next studied. Preincubation of washed platelets with HHT (1 microM) did not enhance thrombin or arachidonic acid induced platelet TXB2 formation. In platelets prelabelled with [1-14C]AA, HHT (1 microM) had no effect on AA release post thrombin stimulation. Conversion to cyclooxygenase metabolites was also not enhanced. HHT stimulates vascular prostacyclin without a concomitant effect on platelet AA metabolism. HHT may thus be an important local modulator of platelet plug formation.     

Effect of single oral administrations of non steroidal antiinflammatory drugs to healthy volunteers on arachidonic acid metabolism in peripheral polymorphonuclear and mononuclear leukocytes

The effects of a single oral administration of acetylsalicylic acid (500 mg), indomethacin (50 mg) and piroxicam (40 mg) to healthy volunteers on functional and biochemical parameters of platelets, polymorphonuclear (PMN) and mononuclear (MNL) leukocytes were evaluated. Blood was collected before and two hours after the drug intake and blood cells separated according to conventional techniques. The considered drugs almost completely suppressed the aggregation of platelets, whereas they did not affect either PMN and MNL aggregation. Superoxide anion generation by leukocytes was (PMN), or no effect (MNL) was observed after piroxicam and indomethacin respectively. The formation of arachidonate metabolites via the 5-lipoxygenase pathway by PMN and MNL challenged with 10 microM A23187 was unchanged following aspirin and indomethacin. In this respect a selective increase of 5-HETE and LTC4 synthesis by MNL only was detected after piroxicam administration. The three drugs similarly reduced TXB2 synthesis by platelets and PMN (-80% for aspirin and indomethacin, and -40% for piroxicam). As far as MNL is concerned, aspirin inhibited this metabolite by 80%, while indomethacin reduced it by 40% only. In contrast piroxicam increased TXB2 synthesis by stimulated MNL. It can be concluded that the considered antiinflammatory drugs 1) differently affect the cyclooxygenase enzyme in platelets and leukocytes; 2) at variance with the situation in platelets, the inhibition of thromboxane formation by leukocytes is not related to modifications of cellular function; 3) the formation of arachidonate metabolites via the 5-lipoxygenase pathway is affected by piroxicam only.     

Determination of CGS 16617 and stable isotope-labeled CGS 16617, an angiotensin-converting enzyme inhibitor, in human plasma by gas chromatography/mass spectrometry

An analytical method has been developed for the simultaneous determination of a novel orally active angiotensin-converting enzyme inhibitor (CGS 16617) and a stable isotope-labeled analog. Both compounds are isolated from human plasma using an ion-exchange column, derivatized with pentafluoropropionic anhydride and pentafluoropropanol, and analyzed by gas chromatography/mass spectrometry. After splitless injection on a methyl-silicon column, the compound is detected using negative ion chemical ionization with nitrous oxide as a reagent gas. CGS 16617 labeled with four deuteriums and two 13C is used as an internal standard. The accuracy and precision of the method, expressed as the overall mean +/- SD recovery obtained from two sets of 36 quality-control samples used during a clinical study (concentration range 0.2-100 ng ml-1 plasma), was 96.1 +/- 16.2% for unlabeled drug and 97.6 +/- 14.4% for the D4-labeled drug (concentration range 0.2-100 ng ml-1 plasma). The limit of quantification using 1 ml plasma is 0.2 ng ml-1 for both labeled and unlabeled drug.     

Cyclooxygenase and lipoxygenase metabolite synthesis by polymorphonuclear neutrophils: in vitro effect of dipyrone

Functional activity of polymorphonuclear neutrophils (PMN) is associated with the metabolism of Arachidonic Acid (AA) released from membrane phospholipids. In this study the in vitro effect of dipyrone, a non steroidal anti-inflammatory drug, on the production of AA metabolites through cyclooxygenase (CO) and lipoxygenase (LO) pathways by stimulated PMN has been investigated. PMN isolated by counterflow centrifuge elutriator were greater than 98% pure and viable. Metabolite production was evaluated by RIA of Thromboxane A2 (TxA2), Prostaglandin E2 (PGE2), Leukotriene B2 (LTB4) and Leukotriene C4 (LTC4) after PMN stimulation with calcium ionophore A 23187 (20 microM). The levels of beta-thromboglobulin (RIA) lower than 5 ng/ml allowed us to rule out activation of residual contaminant platelets. In these experimental conditions, in the absence of dipyrone the products (ng/10(6) cells) of AA metabolism were LTB4 (3.51 +/- 0.22), LTC4 (0.81 +/- 0.08), TxB2 (0.144 +/- 0.025) and PGE2 (0.150 +/- 0.017). Incubation with dipyrone induced changes of PGE2 and TXB2 production in a dose dependent fashion (r = 0.83 and r = 0.87, p less than 0.001), obtaining already at the lowest drug concentration (5 micrograms/ml) a significant inhibition (33 and 40% for TxB2 and PGE2 p less than 0.005). No significant changes of LTB4 and LTC4 production have been observed. The results of this study indicate that dipyrone relevantly affects CO metabolite synthesis by stimulated PMN at concentrations comparable to those reached in therapeutic use. The inhibition of PGE2 synthesis which is present in inflamed tissues and actively participates in inflammatory reactions, could contribute to the therapeutic anti-inflammatory action of dipyrone.     

Tumor necrosis factor-alpha enhances platelet activation via cathepsin G released from neutrophils

In this paper we show that TNF-alpha enhances platelet activation. Experiments were performed on a human polymorphonuclear neutrophil (PMN)-platelet cooperation system in which PMN, stimulated by FMLP, release cathepsin G (Cat.G), a serine proteinase responsible for the activation of nearby platelets. Pretreatment of the mixed cell suspension with 5 ng/ml TNF-alpha resulted in a strong platelet activation (37.7 +/- 3.2% aggregation; 46.0 +/- 14.4% serotonin release) in response to a weak concentration of FMLP (1.25 x 10(-8) M) inducing by itself only 7.7 +/- 4.0% of aggregation and 3.8 +/- 4.1% of serotonin release (mean +/- SD; n = 10). This effect was concentration dependent (maximum between 5 and 10 ng/ml) and was optimal for a brief preincubation time (5 min). Under these experimental conditions the target of TNF-alpha was PMN, as shown by beta-glucuronidase release. The observed potentiation was modified neither by 0.1 mM acetyl salicylic acid (a cyclo-oxygenase inhibitor) nor by 0.1 mM BN 52021 (a platelet-activating factor antagonist), while such a phenomenon was fully inhibited by 20 micrograms/ml eglin C, a strong and specific inhibitor of the human granulocytic proteinases, elastase and Cat.G. In fact, full inhibition was also observed with 300 nM alpha-1-antichymotrypsin, a specific inhibitor of Cat.G. This clear-cut evidence of Cat.G involvement was substantiated by the enhancement of Cat.G release from FMLP-activated PMN primed with TNF-alpha. These results demonstrate that the priming of PMN by TNF-alpha may modulate the activation of other inflammatory cells, particularly of platelets. It is hypothesized that this phenomenon could contribute to pulmonary pathologies, and more specifically to the adult respiratory distress syndrome, a disease for which PMN, platelet and TNF-alpha involvement has been proposed.     

Inflammation: a novel mechanism for the transport of extracellular nucleotide-induced arachidonic acid by S100A8/A9 for transcellular metabolism

Extracellular nucleotides cause neutrophil degranulation by activating the purinergic receptor subtype P2Y. However, the molecular mechanism involved in the signal pathway remains unknown. A hypothetical scheme suggesting that leukotriene(s) and leukotriene receptor(s) activation is required for extracellular nucleotide-mediated neutrophil degranulation is presented here. Subsequent to the extracellular nucleotide binding to its receptors, intracellular arachidonic acid (AA) levels are elevated. Although AA is a known substrate of the lipoxygenase pathway mediated by 5-lipoxygenase, excess AA could form a complex with S100A8/A9 for transport to the extracellular milieu. Extracellular availability of the S100A8/A9+AA complex could potentially be used for transcellular metabolism by resting and/or activated leukocytes (PMN, MN), vascular endothelium and smooth muscle cells at the inflammatory foci. Once imported into the resting and/or activated leukocytes, AA derived from the S100A8/A9+AA complex could serve as a substrate in the 5-lipoxygenase-mediated leukotriene pathway. Essentially, in addition to extracellular nucleotide-induced leukotrienes, AA derived from the S100A8/A9+AA complex could also be utilized for the synthesis of inflammatory mediators such as leukotriene B(4)(LTB(4)), which in turn could trigger leukocyte degranulation, as well as cellular damage to vascular endothelium and smooth muscle cells, thereby exacerbating inflammation.     

A modified HPLC technique for simultaneous measurement of 5-hydroxytryptamine and 5-hydroxyindoleacetic acid in cerebrospinal fluid, platelet and plasma.

A sensitive, reliable and simplified HPLC assay for simultaneous measurement of 5-hydroxytryptamine (5-HT) and 5-hydroxyindoleacetic acid (5-HIAA) in human cerebrospinal fluid (CSF), platelets and plasma is described. Perchloric acid is used for one step precipitation of proteins and extraction of 5-HT and 5-HIAA. Precision of the assay has been increased by calibration of the instrument using serotonin-free plasma spiked with known amount of standards and N-w-methyl-5-hydroxytryptamine as internal standard. Integration of the peaks and calculations are achieved by a preprogrammed data module using ratio method. As little as 20 pg/ml of serotonin in the deproteinated sample can be detected using this procedure. In a group of surgical patients, plasma 5-HT concentration is (Mean +/- S D) 3.4 +/- 2.7 ng/ml and that of platelet 748.3 +/- 448.3 ng/10(9) platelets. In CSF, 5-HT is found to be 3.3 +/- 3.4 ng/ml and 5-HIAA is 15.1 +/- 7.3 ng/ml. A good correlation (r = 0.648, p less than .0001) is observed between 5-HT and 5-HIAA in CSF.     

Composition and metabolism of phospholipids of human leukocytes

Human mononuclear (MN) and polymorphonuclear (PMN) leukocytes were analyzed for their phospholipid, triglyceride, cholesterol and fatty acid content. The phospholipid/cholesterol ratio was 1.24 for both cels. MN cells contain more phosphatidylcholine (PC), but less phosphatidylserine (PS), phosphatidylethanolamine (PE) and sphingomyelin (SPH) than PMN cells when expressed as percent of total phospholipid. When expressed on the basis of lipid content per cell, MN cells contain less PS, PE and SPH but more triglyceride than PMN cells. PMN cells incorporate palmitic, stearic, linoleic and linolenic acids into their phospholipids, triglycerides or cholesterol esters. The incorporation into triglycerides was highest for all fatty acids. Of the phospholipids, the incorporation was highest into PC. Labeled fatty acids also were found in proteins which had been delipidized by exhaustive extraction with organic solvents. These represent tightly or covalently bound fatty acids. The incorporation of [³H]palmitic acid into this protein fraction is stimulated by insulin.     

Mononuclear and polymorphonuclear leukocytes show increased fructose-1,6-bisphosphatase activity in patients with type 1 diabetes mellitus

The activity and localization of fructose-1,6-bisphosphatase (FBPase; EC 3.1.3.11) in blood leukocytes of patients with type 1 diabetes mellitus and healthy adults were investigated immunocytochemically. The amount of polymorphonuclear (PMN) and mononuclear (MN) cells with positive FBPase immunocytochemical reaction was 57% and 68%, respectively, in pathological, and 38% and 42%, respectively, in healthy donors. Results of light microscopic investigations were confirmed by measurements of FBPase activity following lysis of PMN and MN cells. The enzyme activity of PMN and MN leukocytes was higher in diabetes mellitus than in healthy adults, by 30% and 127%, respectively. Using immunocytochemistry together with electron microscopy, FBPase was detected not only in the cytoplasm but also in the nucleus of leukocytes of both patients with insulin-dependent diabetes mellitus and healthy donors.     

Opsonic properties of C-reactive protein. Stimulation by phorbol myristate acetate enables human neutrophils to phagocytize C-reactive protein-coated cells

We examined phagocytosis of sheep erythrocytes passively sensitized with pneumococcal C-polysaccharide (E-PnC) and of E-PnC coated with C-reactive protein (E-PnC-CRP) by human polymorphonuclear leukocytes (PMN). PMN isolated from blood of normal individuals failed to ingest either E-PnC or E-PnC-CRP; however, after stimulation with 12-O-tetradecanoylphorbol-13-acetate (PMA; 2 ng/ml), PMN ingested E-PnC-CRP efficiently with a mean phagocytic index (PI) of 99.5 +/- 4.8 (mean +/- SD, n = 11), and E-PnC to a lesser extent with a mean PI of 33.2 +/- 11.7 (mean +/- SD, n = 11). PMN that had adhered to PnC-coated glass and that were stimulated with PMA attached but did not ingest E-PnC-CRP. In contrast, PMN plated on E-PnC-CRP-coated glass and stimulated with PMA did not attach or ingest E-PnC-CRP. These data indicate that PMN can be induced to phagocytize PnC-CRP and that both PnC and CRP are required for ingestion. They also suggest that specific receptors for these ligands are expressed by stimulated PMN. Neither attachment nor phagocytosis of E coated with rabbit anti-E IgG (E-IgG) was affected by plating PMN on PnC or PnC-CRP. On the other hand, both phagocytosis and ingestion of E-PnC-CRP as well as E-IgG was blocked by plating PMA-stimulated PMN on immune complexes containing rabbit IgG. Inhibition experiments with the use of 3G8, a monoclonal antibody to the Fc gamma receptor of PMN, and human monomeric IgG1 demonstrated that attachment of E-PnC-CRP is mediated by receptors other than the Fc gamma receptors. These combined results indicated a nonreciprocal association between the putative CRP receptors and the Fc gamma receptors of stimulated PMN, resulting in the clearance of both types of receptors from the apical surface of PMN by antigen-immobilized rabbit IgG.     

Molecular characteristics of cytochrome b558 isolated from human granulocytes, monocytes and HL60 and U937 cells differentiated into monocyte/macrophages.

Enriched cytochrome b558 preparations were obtained from human mature monocytes (MN) and retinoic acid plus interferon gamma induced human myeloid leukemia cell lines HL-60 and U937, using an adaptation of the procedure described by A.W. Segal (Nature (1987) 326, 88-91) for purification of cytochrome b558 from human polymorphonuclear leukocytes (PMN). Spectral characteristics of cytochrome b558 were determined and found to be independent of cell type and specific heme b content of the preparation. To increase the sensitivity of the spectral assay, analysis in the gamma band were used and delta epsilon 427-413 was determined to be equal to 158 mM-1 cm-1. An alpha beta type heterodimeric cytochrome b558 was found for PMN and MN by the concordant elution of heme b spectral activity from heparin agarose and the detection of two polypeptide chains by SDS-PAGE. The expression of the lighter polypeptide alpha chain in the various human monocyte-like cell lines was assessed and its identity, as a component of cytochrome b, was confirmed by immunodetection using a rabbit polyclonal antibody reacting with the alpha subunit of PMN cytochrome b558. Immunoblotting studies detected the alpha subunit in monocyto-macrophagic differentiated HL-60 and U 937 cells and mature MN at 22 kDa, but not in uninduced cells which did not express the respiratory burst. Whatever the specific content or the cell origin of the cytochrome b558-enriched preparations, the heme b binding site was shown to be associated with the alpha subunit defined by a constant molecular mass of 22 kDa, as evidenced by the finding of a constant ratio between the silver stained band intensity and the corresponding heme b amount. The heavy polypeptide beta chain from MN cytochrome b was found to have a significantly higher molecular weight than the beta subunit from PMN at 94 +/- 5 kDa instead of 90 +/- 4 kDa. In contrast, in cytochrome b preparations from induced monocyto-macrophagic cells, isolated with a low heme specific content, the variability in the detection of the staining intensity of the beta band either in SDS-PAGE or immunodetection reactivities precludes accurate definition of its molecular mass and estimation of the stoichiometry between the alpha and beta subunits in the differentiated cells. However, wheat-germ agglutinin binding studies indicated the presence of N-glycosylated protein in the range of 85-110 kDa.     

Direct transesterification of plasma fatty acids for the diagnosis of essential fatty acid deficiency in cystic fibrosis

This study was aimed at redefining criteria for essential fatty acid (EFA) deficiency with the use of the direct transesterification procedure (1986. J. Lipid Res. 27: 114-120) and at determining whether a simple assay of total fatty acids (FA) is as predictive of EFA deficiency as the FA pattern from plasma, red cell, and platelet phospholipids. Fasting blood samples were taken from 163 cystic fibrosis (CF) patients who were encouraged to consume 35-40% of their calories as fat. Their mean (+/- SD) age was 9.6 +/- 4.8 yr. The control group consisted of 44 unaffected siblings aged 13.1 +/- 3.1 yr. The 20:3(n-9)/20:4(n-6) ratio in 77 (47%) CF children was more than 2 SD above the values (mean +/- SD) of 0.021 +/- 0.007 obtained in the 44 controls. Groups of EFA-sufficient (n = 10) and EFA-deficient (n = 7) subjects were selected for further studies. The plasma total FA 20:3(n-9)/20:4(n-6) ratios of 0.029 +/- 0.003 in EFA-sufficient and of 0.216 +/- 0.103 in EFA-deficient was as good a discriminant as FA in phospholipids from plasma, red cell PC, and platelets. Among the 21 individual fatty acids, 20:3(n-9), which was also found in controls, and 16:1(n-7) (palmitoleic) proved to be the most sensitive indices of EFA deficiency. They are equally reliable in plasma, red cells, and platelets, but the inverse linear relationship (r = -0.91) between the n-7 family and 18:2(n-6) proved to be more closely associated with EFA deficiency than the one (r = 0.66) between 20:3(n-9) and 20:4(n-6).(ABSTRACT TRUNCATED AT 250 WORDS)     

A high-performance liquid chromatographic method for the determination of tocopherol in plasma and cellular elements of the blood.

A rapid sensitive, and reproducible procedure is described for the analysis of alpha-tocopherol in blood cells and plasma using high-performance liquid chromatography and fluorometric detection. The cardinal feature for the increased sensitivity of this high-performance liquid chromatographic procedure is that the fluorometric analysis was carried out at a short excitation wavelength (205 nm) which increased the sensitivity of 20-fold over the usual excitation wavelength of 295 nm. Tocopherol levels can be measured in as little as 50 microliters of plasma and 200 microliters of erythrocytes. The tocopherol contentof plasma, red blood cells, platelets, polymorphonuclear leukocytes, and lymphocytes of normal subjects and subjects ingesting additional quantitites of vitamin E are reported. The values for the white cells are approximately 30 times higher than those of the red blood cells (polymorphonuclear leukocytes 4.47 +/- 0.62 micrograms/10(9), lymphocytes 3.89 +/- 0.85 micrograms/10(9), and erythrocytes 1.40 +/- 0.14 micrograms/10(10) cells). The tocopherol contents of the plasma and all the cellular elements of the blood were increased by oral feeding with vitamin E.     

Protein kinases C translocation responses to low concentrations of arachidonic acid

Arachidonic acid (AA) directly activates protein kinases C (PKC) and may thereby serve as a regulatory signal during cell stimulation. The effect, however, requires a > or =20 microm concentration of the fatty acid. We find that human polymorphonuclear neutrophils (PMN) equilibrated with a ligand for the diacylglycerol receptor on PKC, [(3)H]phorbol dibutyrate (PDB), increased binding of [(3)H]PDB within 15 s of exposure to > or =10-30 nm AA. Other unsaturated fatty acids, but not a saturated fatty acid, likewise stimulated PDB binding. These responses, similar to those caused by chemotactic factors, resulted from a rise in the number of diacylglycerol receptors that were plasma membrane-associated and therefore accessible to PDB. Unlike chemotactic factors, however, AA was fully active on cells overloaded with Ca(2+) chelators. The major metabolites of AA made by PMN, leukotriene B(4) and 5-hydroxyicosatetraenoate, did not mimic AA, and an AA antimetabolite did not block responses to AA. AA also induced PMN to translocate cytosolic PKCalpha, beta(II), and delta to membranes. This response paralleled PDB binding with respect to dose requirements, time, Ca(2+)-independence, resistance to an AA antimetabolite, and induction by another unsaturated fatty acid but not by a saturated fatty acid. Finally, HEK 293 cells transfected with vectors encoding PKCbeta(I) or PKCdelta fused to the reporter enhanced green fluorescent protein (EGFP) were studied. AA caused EGFP-PKCbeta translocation from cytosol to plasma membrane at > or =0.5 microm, and EGFP-PKCdelta translocation from cytosol to nuclear and, to a lesser extent, plasma membrane at as little as 30 nm. We conclude that AA induces PKC translocations to specific membrane targets at concentrations 2-4 orders of magnitude below those activating the enzymes. These responses, at least as they occur in PMN, do not require changes in cell Ca(2+) or oxygenation of the fatty acid. AA seems more suited for signaling the movement than activation of PKC.     

Effect of mechanical deformation of neutrophils on their CD18/ICAM-1-dependent adhesion.

Mechanical deformation of polymorphonuclear leukocytes (PMN) changes their expression of the surface adhesion molecule CD11b/CD18. We tested the hypothesis that mechanical deformation of PMN enhances their adhesiveness. Purified human PMN were deformed through either 5- or 3-microm polycarbonate membrane filters and allowed to adhere to 96-well plates coated with human recombinant intercellular adhesion molecule-1 (ICAM-1). Flow cytometric studies showed that deformation of PMN increased CD11b/CD18 expression (P < 0.01). PMN adhesion to ICAM-1-coated plates was dependent on the magnitude of cell deformation (5 microm, 63.8 +/- 8.1%, P < 0.04; 3 microm, 232.4 +/- 20.9%, P < 0.01). Priming of PMN (0.5 nM N-formyl-methionyl-leucyl-phenylalanine) before deformation (5 microm) increased PMN adhesion (63.8 +/- 8.1 vs. 105.3 +/- 16.4%; P < 0.04). Stimulation (5% zymosan-activated plasma) of PMN after deformation resulted in increased adhesion, and the degree of increase was dependent on the magnitude of PMN deformation (stimulation, 50.6 +/- 4%; 5-microm filtration and stimulation, 62.9 +/- 6.6%; 3-microm filtration and stimulation, 249.9 +/- 24.2%; P < 0.01). This study shows that mechanical deformation of PMN causes an increase in PMN adhesiveness to ICAM-1 that was enhanced by both priming of PMN before deformation and stimulation after cell deformation.