Characterization of naturally occurring peptides in the skin secretion of Rana pipiens frog reveal pipinin-1 as the novel insulin-releasing agent.

Naturally occurring insulinotropic peptides were isolated from the skin secretions of Rana pipiens frogs. Crude secretions (50 mg; 5-10 frogs) obtained by mild electrical stimulation of the dorsal skin surface were purified by reversed-phase high-performance liquid chromatography (HPLC) yielding 80 fractions. In acute incubations with glucose-responsive BRIN-BD11 cells, fractions 40-47 (band 1) and fractions 60-65 (band 2) showed significant 1.7-6.7-fold increases in insulin-releasing activity (P < 0.001) compared with 5.6 mm glucose alone. Pooled fractions in bands 1 and 2 were rechromatographed yielding a total of seven peaks capable of subsequent 1.2-1.8-fold stimulation of insulin release. Final purification by HPLC to single homogenous peaks revealed one prominent peptide (peak 4.1) with insulin-releasing activity which lacked effects on cell viability. Electrospray mass spectrometric analysis of this peptide indicated molecular mass of 2562.6 Da. Determination of the primary amino acid sequence of this peptide revealed a 24-amino acid sequence: FLPIIAGVAAKVFPKIFCAISKKC. Database search showed a 100% homology to histamine-releasing pipinin-1. In conclusion, this study revealed the skin secretions of Rana pipiens to be a rich source of insulin-releasing peptides. The discovery of insulinotropic activity for pipinin-1, initially characterized as an antimicrobial is interesting and merits further investigation.     

Isolation and structural characterization of novel Rugosin A-like insulinotropic peptide from the skin secretions of Rana saharica frog

Skin secretions of Rana saharica were evaluated for the isolation and characterization of novel insulinotropic peptides. Crude secretions obtained from young adult frogs by mild electrical stimulation of the dorsal skin surface were purified by reversed-phase HPLC yielding 80 fractions. In acute incubations with glucose-responsive BRIN-BD11cells, fractions 36-43, 46-54 and 57-63 showed the significant 2-8-fold increase in insulin-releasing activity (P<0.001) compared with 5.6mM of glucose alone. A pool of fractions 36-43 was subsequently rechromatographed to 28 homogenous peaks out of which 7 were capable of subsequent 1.5-3-fold increase in insulin release (P<0.001). Structural analysis of the non-toxic peptides with greatest insulin-releasing activity was performed by mass spectrometry and Edman degradation. Mass spectrometry analysis of two peaks indicated the molecular masses of 1892.6 and 2930.8Da. The sequence of the 1892.6-Da peptide was determined as KGAAKGLLEVASCKLSKSC, which has 68% homology with Rugosin A originally isolated from the skin secretion of Rana rugosa. A partial N-terminal sequence was determined for the 2930.8-Da peptide as AVITGACERDVQCGGGTCCAVSLI.... These data indicate that the skin secretions of Rana saharica frogs contain novel peptides with insulin-releasing activity.     

Isolation and structural characterisation of a novel 13-amino acid insulin-releasing peptide from the skin secretion of Agalychnis calcarifer

We describe the isolation and characterisation of an insulinotropic peptide from the skin secretions of Agalychnis calcarifer frogs. Peptides in crude secretions obtained by mild electrical stimulation from the dorsal skin surface were purified by reversed-phase HPLC, yielding fractions in two zones with insulin-releasing activity ( p <0.001). The peaks showing greatest in vitro insulin-releasing activity were subsequently purified to homogeneity, revealing a novel insulinotropic 13-amino-acid (1653.2 Da) peptide with the primary structure RRKPLFPFIPRPK [corrected] (RK-13). A database search for RK-13 showed 53.8% similarity with the N-terminal region of proline-arginine-rich antimicrobial peptide (PR-39). Synthetic RK-13 stimulated insulin release in a dose-dependent, glucose-sensitive manner, exerting its effects through a cyclic AMP-protein kinase A pathway independent of pertussis toxin-sensitive G proteins. Unlike PR-39, RK-13 lacks antimicrobial effects on the growth of yeast, and Gram-positive and Gram-negative bacteria. Our data indicate that skin secretions of Agalychnis calcarifer frogs contain insulin-releasing peptides, including RK-13, which merit further investigation as insulin secretagogues.     

Transient expression of CYP1A1 in rat epithelial cells cultured in suspension

The biochemical properties of an in vivo hormonally regulated low Km cAMP phosphodiesterase (PDE) activity associated with a liver Golgi-endosomal (GE) fraction have been characterized. DEAE-Sephacel chromatography of a GE fraction solubilized by a lysosomal extract resulted in the sequential elution of three peaks of activity (numbered I, II, and III), while ion-exchange HPLC resolved five peaks of activity (numbered 1, 2, 3, 4, and 5). Based on the sensitivity of the eluted activity to cGMP and selected phosphodiesterase inhibitors, two phosphodiesterase isoforms were resolved: a cGMP-stimulated and EHNA-inhibited PDE2, eluted in DEAE-Sephacel peak I and HPLC peak 2 and a cGMP-, a cilostamide-, and ICI 118233-inhibited PDE3, eluted in DEAE-Sephacel peak III and HPLC peaks 3, 4, and 5. GE fractions isolated after acute treatments with insulin, tetraiodoglucagon, and growth hormone displayed an increase in phosphodiesterase activity relative to saline-injected controls, as did GE fractions from genetically obese and hyperinsulinemic rats relative to lean littermates. In all experimental rats, an increase in PDE3 activity associated with DEAE-Sephacel peak III and HPLC peaks 4 and 5 was observed relative to control animals. Furthermore, in genetically obese Zucker rats, an increase in the sensitivity of PDE activity to cilostamide and in the amount of PDE activity immunoprecipitated by an antibody to adipose tissue PDE3 was observed relative to lean littermates. These results extend earlier studies on isolated hepatocytes and show that liver PDE3 is the main if not sole PDE isoform activated by insulin, glucagon, and growth hormone in vivo.     

Separation of rosette formation-inducing polypeptides from the supernatant of cultures of rat thymic epithelial cell line

Four polypeptide fractions were isolated by high-pressure liquid chromatography (HPLC) from culture supernatant of rat thymic epithelial cell line (IT-45R1). Biological activity of these fractions was examined according to the capacity inducing rosette-formation between rat thymocytes and guinea pig erythrocytes. A relatively rich population of non-rosette-forming cells (non-RFC), one of targets for thymic hormones, was separated from rat thymocytes by combining rosette-formation method with differential centrifugation. Non-RFC consists of outer-cortical and medullary thymocytes. Medullary thymocytes treated with the polypeptide fraction did not differentiate into RFC. Therefore, the cells, which rosette-forming capacity was induced, seem to derive from outer-cortical area. One of the polypeptide fractions (estimated molecular weight: 3 K) possessed the activity endowing non-RFC with rosette-forming capacity. Since its molecular weight was similar to that of thymosin alpha 1, the fraction was pretreated with anti-thymosin alpha 1 antiserum. The pretreatment suppressed the activity of the fraction. Thus, the fraction must contain thymosin alpha 1 or a polypeptide possessing an antigenic determinant similar to that of thymosin alpha 1. Moreover, two of four subfractions, which were divided from the active fractions by reversed-phase HPLC, showed the biological activity.     

Separation of bilirubin species in serum and bile by high-performance reversed-phase liquid chromatography

A high-performance, reversed-phase liquid chromatographic (HPLC) procedure has been developed for the separation of at least three major bilirubin fractions in bile and four fractions in human serum. This procedure was unlike most others, in that serum was not totally deproteinized prior to injection onto the HPLC column; instead, serum was treated with an excess of sodium sulfate solution to precipitate primarily proteins larger than albumin. Injection of the filtered and diluted supernatant onto a reversed-phase column then resulted in the separation of the bilirubin species in a 24-min gradient elution run. Both the initial aqueous acidic mobile phase and the final isopropyl alcohol-based mobile phase contained 5% methoxyethanol (v/v) to facilitate elution of albumin still present in the treated sample. Bilirubin species eluting from the column were detected by absorbance at 450 nm.Results of a number of chromatographic separations of pathological sera indicated a wide variation in the relative proportions of the four bilirubin fractions observed. A correlation of the sum of the areas of the bilirubin peaks observed by HPLC was found with the total bilirubin value obtained by a standard reference procedure.     

High insulin levels are required for FAT/CD36 plasma membrane translocation and enhanced fatty acid uptake in obese Zucker rat hepatocytes

In myocytes and adipocytes, insulin increases fatty acid translocase (FAT)/CD36 translocation to the plasma membrane (PM), enhancing fatty acid (FA) uptake. Evidence links increased hepatic FAT/CD36 protein amount and gene expression with hyperinsulinemia in animal models and patients with fatty liver, but whether insulin regulates FAT/CD36 expression, amount, distribution, and function in hepatocytes is currently unknown. To investigate this, FAT/CD36 protein content in isolated hepatocytes, subfractions of organelles, and density-gradient isolated membrane subfractions was analyzed in obese and lean Zucker rats by Western blotting in liver sections by immunohistochemistry and in hepatocytes by immunocytochemistry. The uptake of oleate and oleate incorporation into lipids were assessed in hepatocytes at short time points (30-600 s). We found that FAT/CD36 protein amount at the PM was higher in hepatocytes from obese rats than from lean controls. In obese rat hepatocytes, decreased cytoplasmatic content of FAT/CD36 and redistribution from low- to middle- to middle- to high-density subfractions of microsomes were found. Hallmarks of obese Zucker rat hepatocytes were increased amount of FAT/CD36 protein at the PM and enhanced FA uptake and incorporation into triglycerides, which were maintained only when exposed to hyperinsulinemic conditions (80 mU/l). In conclusion, high insulin levels are required for FAT/CD36 translocation to the PM in obese rat hepatocytes to enhance FA uptake and triglyceride synthesis. These results suggest that the hyperinsulinemia found in animal models and patients with insulin resistance and fatty liver might contribute to liver fat accumulation by inducing FAT/CD36 functional presence at the PM of hepatocytes.     

Characterization of insulin degradation by rat-liver low-density vesicles

When incubated in vitro, isolated rat liver low-density vesicles degrade endocytosed insulin intraluminally. The rate of intravesicular degradation suggests that this pathway contributes significantly to insulin degradation in vivo. The vesicles can be selectively disrupted with digitonin at concentrations that abolish the latency of NADH pyrophosphatase, with minimal effect on the cisternal Golgi marker, galactosyl transferase. The results suggest that latent NADH pyrophosphatase may act as a marker enzyme for the vesicles within which insulin is degraded. The possible role of insulin-glucagon protease, a candidate enzyme for insulin degradation by the liver, was investigated. The activity of latent insulin-glucagon protease associated with low-density vesicles is sufficient to account for the rate of intravesicular proteolysis. However, the rate of intravesicular proteolysis is insensitive to membrane-permeant thiol reagents under conditions which strongly inhibit insulin-glucagon protease. This shows that insulin-glucagon protease is not rate-limiting for insulin degradation by these vesicles, and is unlikely to be involved in the regulation of degradation. After disruption with Brij, internalized insulin remains associated with the membrane. Degradation is not inhibited by addition of excess unlabelled insulin to the medium, and occurs more rapidly than the degradation of an equal activity of iodo-insulin added to the disrupted membranes. This implies that degradation of endocytosed insulin occurs while it is still bound to the inner surface of the vesicles. When bacitracin is coinjected with iodo-insulin, it inhibits degradation of internalized insulin both by intact and Brij-disrupted vesicles, but not the degradation of added exogenous insulin, confirming that degradation is membrane-associated, and that it does not require the release of insulin into free solution.     

Separation of polypeptides which induce a mitogen response of thymocytes from the culture supernatant of a thymic epithelial cell line

To examine thymic hormonal factors, four polypeptide fractions (estimated molecular weight: I, 10 K; II, 7 K; III, 3 K; IV, 2.5 K) were separated from the culture supernatant of a rat thymic epithelial cell line by high-pressure liquid chromatography (HPLC) with a gel-filtration column. The effects of the fractions on response to mitogens of three small-lymphocyte subsets were studied. All fractions enhanced response to concanavalin A (Con A) of the lighter subset containing mainly immature thymocytes, but only fractions II and IV increased response to phytohemagglutinin (PHA) of the heavier subset containing relatively mature thymocytes. When fraction IV was subfractionated by reversed-phase HPLC, the polypeptides that enhanced response to Con A and PHA were separated into hydrophobic and hydrophilic subfractions, respectively. Fraction I was subfractionated by a similar method, and the inducing activity of Con A response was found in a relatively hydrophobic subfraction. These data suggested that the cell line secretes several kinds of bioactive polypeptides that affect the thymocytes at different stage of maturation.     

Effects of adenosine receptor antagonism on protein tyrosine phosphatase in rat skeletal muscle

Earlier studies have shown that whole body adenosine receptor antagonism increases skeletal muscle insulin sensitivity in insulin-resistant Zucker rats. To find which steps in the insulin signaling pathway are influenced by adenosine receptors, muscle from lean and obese Zucker rats, treated for 1 week with the adenosine receptor antagonist, 1,3-dipropyl-8-(4-acrylate)-phenylxanthine (BWA1433), were analyzed. All rats were first anesthetized and injected intravenously (i.v.) with 1 IU of insulin. About 3 min later the gastrocnemius was freeze clamped. Insulin receptors were partially purified on wheat germ agglutinin (WGA) columns and insulin receptor kinase activity measured in control and BWA1433-treated lean and obese Zucker rats. Protein tyrosine phosphatase (PTPase) activity was also analyzed in subcellular fractions, including the cytosolic fraction, a high-speed particulate fraction and the insulin receptor fraction eluted from WGA columns. Administration of BWA1433 increased insulin receptor kinase activity in obese but not lean Zucker rats. PTPase activities were higher in the untreated obese rat muscle particulate fractions than in the lean rat particulate fractions. The BWA1433 administration lowered the PTPase activity of the obese rats but not the lean rats. Although the PTPase activity in WGA eluate fractions containing crude insulin receptors were similar in lean and obese animals, BWA1433 administration was found to lower the PTPase activities in the fractions obtained from obese but not from the lean rats. PTPases may be upregulated in muscles from obese rats due to activated adenosine receptors. Adenosine receptor blockade, by reducing PTPase activity, may thereby increase insulin signaling.     

In vivo insulin sensitivity and insulin binding to erythrocytes in children: insulin resistance in obese children

This aim of this study was to determine whether RBC insulin receptor assay represents a clinically useful way of assessing insulin sensitivity in obese children. Steady state plasma glucose (SSPG) was established by a constant infusion of glucose (6 mg/kg/min), insulin (0.8 mU/kg/min) and somatostatin (125 micrograms/m2/h), following the loading dose of somatostatin (125 micrograms/m2). Insulin binding to RBCs was measured by a modified method of Gambhir and was compared with SSPG. Of 21 children with various relative body weight, 8 hyperinsulinemic obese children had a decreased insulin binding to RBCs due to decreased receptor concentrations. The insulin binding was inversely correlated with the fasting serum insulin level and with the insulin area under the O-GTT insulin response curve. In 11 children with various relative body weight, a highly significant inverse relationship was found between SSPG and insulin binding. SSPG was also correlated with the fasting serum insulin level. It was concluded that RBC insulin receptor may quantitatively reflect insulin resistance in obese children, and may be a useful tool for clinical evaluation of tissue insulin sensitivity in children.     

A heparin-binding erythroid cell stimulating factor from fetal bovine serum has the N-terminal sequence of insulin-like growth factor II

An 8 kd heparin-binding peptide which stimulates thymidine incorporation in cultures of fetal calf liver erythroid cells was isolated from fetal bovine serum by affinity chromatography on Heparin-Sepharose, ion exchange chromatography, gel filtration and reversed-phase HPLC. The N-terminal sequence of the isolated peptide was identical to the N-terminal sequence of bovine erythrotropin or insulin-like growth factor II (IGF II). The potential heparin-binding site of IGF II is probably situated in the arginine-rich C-peptide region. The affinities of human recombinant IGF I and II were compared with those of apolipoprotein H (a plasma heparin-binding protein) and bovine insulin in a heparin-affinity column. The retention times were in the order: Apolipoprotein H greater than hrIGF II greater than hrIGF I greater than insulin (no retention). This unusual property of IGF II suggests that it may be captured in the extracellular matrix in a similar way to fibroblast growth factor, interleukin 3 or granulocyte/macrophage colony-stimulating factor.     

Major contributions of comparative endocrinology to the development and exploitation of the incretin concept

An incretin is a factor released by the gut in response to nutrients that facilitates uptake of glucose by peripheral tissues. The incretin concept predates the discovery of insulin but it is now clear that incretins act by stimulating secretion of this hormone. As glucagon has insulin-releasing activity, it was speculated that intestinal glucagon-like immunoreactivity (enteroglucagon) was involved in the incretin effect but it was an achievement in the field of comparative endocrinology that led to the demonstration that the preproglucagon gene encodes the most potent incretin in the human. Characterization of cloned cDNAs encoding two preproglucagons from the Brockmann body of the anglerfish Lophius americanus demonstrated that the glucagon sequence is flanked by a 34 amino-acid-residue sequence with appreciable structural similarity to glucagon that was termed glucagon-like peptide (GLP). A 36 amino-acid-residue ortholog of anglerfish GLP was subsequently identified in human preproglucagon but this peptide had only weak insulin-releasing activity. However, alignment of GLP sequences from human and teleost fish showed that the human ortholog is extended from its N-terminus by a hexapeptide. Removal of this extension by an endogenous protease generates GLP-1-(7-36)amide, the potent and effective form of the incretin. More recently, comparative endocrinology has contributed to the exploitation of incretins as antidiabetic drugs. Exendin-4, a GLP-1 receptor agonist first isolated from the venom of the Gila monster Heloderma suspectum, is a clinically valuable, long-acting incretin and the skins of several species of frogs synthesize potent insulin-releasing peptides with therapeutic potential.     

Purification and identification of [hydroxyprolyl3]bradykinin in ascitic fluid from a patient with gastric cancer

Kinins in the ascitic fluid from a patient with gastric cancer were purified by gel filtration and reversed-phase high-performance liquid chromatography (HPLC). Two fractions (fractions I and II) showed kinin activity. Fraction I did not correspond to either bradykinin or other known kinins, whereas fraction II corresponded to bradykinin. Fraction I contained 8 amino acid residues from bradykinin minus 1 proline plus 1 additional hydroxyproline. Sequence analysis of fraction I showed that the proline at the third amino acid residue of bradykinin was replaced by hydroxyproline. The retention time of fraction I on reversed-phase HPLC was exactly the same as that of synthetic [hydroxyprolyl3]bradykinin (Arg-Pro-Hyp-Gly-Phe-Ser-Pro-Phe-Arg) and was distinguishable from des-Pro3-bradykinin. Thus, these results demonstrate for the first time the presence of [hydroxyprolyl3]bradykinin in vivo. This is also the first report of the presence of bradykinin in human tumor ascites.     

Isolation and Characterisation of Insulin-Releasing Compounds from <Emphasis Type="Italic">Pseudechis australis</Emphasis> and <Emphasis Type="Italic">Pseudechis butleri</Emphasis> Venom

Crude venom from two elapid snakes Pseudechis australis and Pseudechis butleri was fractionated by gel filtration chromatography and selected fractions screened for in vitro insulin-releasing activity using clonal pancreatic BRIN-BD11 cells. Following acute 20-min incubation at 5.6 mM glucose, 9 fractions exhibited significant (P < 0.001) insulin-releasing activity. Structural characterisation of active fractions was achieved primarily using MALDI–TOF MS and N-terminal Edman degradation sequencing. The partial N-terminal sequences are reported for a total of 7 venom components. Their homology to existing sequences as determined using BLAST searching uncovered the main insulin-releasing families as being phospholipases A₂ and short α-neurotoxins. A number of sequences are reported for the first time from P. butleri venom which is much less studied than the related P. australis.     

Receptor-mediated binding and degradation of subfractions of human plasma low-density lipoprotein by cultured fibroblasts

The receptor-mediated metabolism of human plasma low-density lipoprotein (LDL) subfractions was studied. LDL was isolated from healthy donors and further fractionated by density gradient ultracentrifugation into three subfractions: (I) d = 1.031-1.037, (II) d = 1.037-1.041 and (III) d = 1.041-1.047 g/ml, comprising 24 +/- 7%, 46 +/- 8% and 30 +/- 9% of the total LDL protein, respectively. As assessed by electron microscopy and gradient gel electrophoresis, the LDL particle size decreased and the relative protein content increased from fraction I towards fraction III. Fraction II had the highest (Kd 2.6 micrograms/ml) and fraction I the lowest (Kd 5.8 micrograms/ml) binding affinity to LDL receptors of human fibroblasts at 4 degrees C. The rate of receptor-mediated degradation of fraction II was also higher than that of the other two fractions at 37 degrees C. These results suggest that LDL subfractions have different rates of receptor-mediated catabolism depending on particle size or composition, and therefore their metabolic fate and atherogenic properties may also differ.     

ISOLATION AND CHARACTERIZATION OF MYELIN-RELATED MEMBRANES

Abstract— Myelin related membrane fractions from rat brain and spinal cord were isolated from material normally discarded during standard myelin isolation procedures. A fraction which floated on 0.32 M-sucrose (F) and the material released after subjecting the myelin fraction to osmotic shock at two stages in the purification (W₁ and W₂) were characterized. These fractions were subjected to subfractionation on three step discontinuous sucrose gradients. Morphologically, the heavier subfrac-tions of W₁ and W₂ were shown to consist mainly of single membranes and vesicles. Sodium dodecyl sulphate (SDS) polyacrylamide gel electrophoresis showed that, relative to myelin, proteolipid and basic protein were reduced in all subfractions, while the high molecular weight proteins were increased. The specific activity of 2′,3′-cyclic nucleotide 3′-phosphohydrolase (CNP) was up to 2-fold higher than that of myelin in the heavier subfractions of W₁ and W₂. The major myelin-associated glycoprotein was also increased in these subfractions as determined by periodic acid-Schiff staining. Differential centrifugation of the initial tissue homogenate to remove microsomes prior to myelin isolation gave rise to W₁ and W₂ subfractions with a CNP specific activity 3–4 times that of myelin. The high molecular weight proteins and glycoproteins were enriched in these microsome-depleted subfractions, but were qualitatively similar to those of myelin. Some of the membranes in these fractions may be derived from the continuum between the plasma membrane of the oligodendrocyte and compact myelin. Fraction F consisted of small membrane fragments and many vesicles, and was particularly deficient in proteolipid. The specific activity of CNP in fraction F was about the same as myelin, while the major myelin associated glycoprotein could not be detected. Fraction F from normal CNS tissue appears to be similar to the floating fractions previously isolated in larger amounts from pathological brain undergoing edematous demyelination.     

Isolation and characterisation of an unexpected class of insulinotropic peptides in the skin of the frog Agalychnis litodryas

Skin secretions of the frog Agalychnis litodryas were evaluated for the isolation and characterisation of novel insulinotropic peptides. Crude secretions obtained from young adult frogs by mild electrical stimulation of the dorsal skin surface were purified by reverse-phase high-performance liquid chromatography (HPLC) yielding 70 fractions. In acute 20-min incubations with glucose responsive BRIN-BD11 cells, fractions 39-42 (band 1) and fractions 44-46 (band 2) significantly stimulated insulin release by 2-3.5-fold compared with 5.6 mM glucose alone. Pooled fractions in band 1 and band 2 were rechromatographed to reveal 20 homogenous peptide peaks, which elicited significant 1.5-4-fold increases in insulin release. Mass spectrometry analyses indicated molecular masses of between 1649.2 and 4988.9 Da. The two peptides with the greatest insulin-releasing activity were directly subjected to N-terminal amino acid sequence analysis. The sequence of the 3020 Da peptide, called frog skin insulinotropic peptide or FSIP, was determined as AVWKDFLKNIGKAAGKAVLNSVTDMVNE, which has 79% homology with the C-terminal of the 75 amino acid dermaseptin BIV precursor. A partial N-terminal sequence was determined for the 2546.2 Da peptide as MLADVFEKIMGD... These data indicate that the skin secretions of A. litodryas frogs contain biologically active peptides which merit further evaluation as a new class of insulin secretagogues.     

Dissociable and nondissociable forms of platelet-activating factor acetylhydrolase in human plasma LDL: implications for LDL oxidative susceptibility

Platelet-activating factor acetylhydrolase (PAF-AH) is transported by lipoproteins in plasma and is thought to possess both anti-inflammatory and anti-oxidative activity. It has been reported that PAF-AH is recovered primarily in small, dense LDL and HDL following ultracentrifugal separation of lipoproteins. In the present studies, we aimed to further define the distribution of PAF-AH among lipoprotein fractions and subfractions, and to determine whether these distributions are affected by the lipoprotein isolation strategy (FPLC versus sequential ultracentrifugation) and LDL particle distribution profile. When lipoproteins were isolated by FPLC, the bulk (～85%) of plasma PAF-AH activity was recovered within LDL-containing fractions, whereas with ultracentrifugation, there was a redistribution to HDL (which contained ～18% of the activity) and the d>1.21 g/ml fraction (which contained ～32%). Notably, re-ultracentrifugation of isolated LDL did not result in any further movement of PAF-AH to higher densities, suggesting the presence of dissociable and nondissociable forms of the enzyme on LDL. Differences were noted in the distribution of PAF-AH activity among LDL subfractions from subjects exhibiting the pattern A (primarily large, buoyant LDL) versus pattern B (primarily small, dense LDL) phenotype. In the latter group, there was a relative depletion of PAF-AH activity in subfractions in the intermediate to dense range (d=1.039–1.047 g/ml) with a corresponding increase in enzyme activity recovered within the d>1.21 g/ml ultracentrifugal fraction. Thus, there appears to be a greater proportion of the dissociable form of PAF-AH in pattern B subjects. In both populations, most of the nondissociable activity was recovered in a minor small, dense LDL subfraction. Based on conjugated dienes as a measure of lipid peroxidation, variations in PAF-AH activity appeared to contribute to variations in oxidative behavior among ultracentrifugally isolated LDL subfractions. The physiologic relevance of PAF-AH dissociability and the minor PAF-AH-enriched oxidation-resistant LDL subpopulation remains to be determined.     

Characteristic features of antilipolytic activity of serum in relation to obesity.

Antilipolytic activity (ALA) of serum of the obese and controls was tested on rat epididymal adipose tissue incubated in medium containing adrenaline; the results were compared with the effect of insulin. Serum of the obese displayed lower ALA than controls, in one third obese individuals serum potentiated the effect of adrenaline. After fasting, ALA of serum decreased. ALA value is related to the prevailing metabolic situation, an inverse relationship was observed between ALA and levels of NEFA and ketone bodies. This seems to suggest that antilipolytic effect of insulin, whose concentrations are higher in the obese, is antagonised. This effect does not apparently depend on the presence of insulin antibodies, which do not inhibit, but, on the contrary, potentiated antilipolytic effect of insulin in vitro. Investigation of fractions of native serum proteins showed the effect of fraction 10 000--50 000 MW. to differ in the obese and controls. That particular fraction of sera of the obese had an adipokinetic effect.