Detection of distinct receptors for native and acetylated low-density lipoproteins in human placental microvilli by ligand-immunoblotting.

Ligand-immunoblotting was used to detect distinct receptors for native low-density lipoprotein and for acetylated low-density lipoprotein on microvillous membranes from human term placentas. Antisera directed against native and modified low-density lipoproteins were prepared in rabbits and their specificities were assessed by immunodiffusion and immunoelectrophoresis. The receptor for low-density lipoprotein was detected as a 160 kDa protein and that for acetylated low-density lipoprotein as a 200 kDa protein. These receptors were compared with their counterparts in cultured human skin fibroblasts, bovine adrenal cortex and J774 macrophage-like cells. This is the first investigation that visualizes the presence of receptors for both native and modified low-density lipoproteins in a steroidogenic tissue.

Identification of specific binding sites for acetylated low density lipoprotein in microvillous membranes from human placenta.

The ability of microvillous membranes isolated from human placenta to specifically bind human low density lipoprotein (LDL) modified by acetic anhydride has been investigated. The presence of saturable high affinity binding sites specific for [125I]acetyl-LDL was demonstrated. Scatchard analysis of the binding data, obtained at 4 degrees C, revealed a single class of sites with a mean KD value of 3.63 +/- 1.16 micrograms acetyl-LDL protein/ml, and a maximal binding capacity of 335.1 +/- 148.8 ng acetyl-LDL protein/mg of membrane protein. At 37 degrees C, the binding capacity was increased, while the KD value was not modified. The specificity of these binding sites was assessed by competition studies: unlabelled acetyl-LDL were effective competitors, whereas native LDL, VLDL and HDL3 were ineffective. Conversely, unlabelled acetyl-LDL failed to prevent the binding of native [125I]LDL to placental microvilli. The [125I]acetyl-LDL binding was partially inhibited (about 35%) by dextran sulfate and fucoidin, and was abolished by a pretreatment of the microvillous membranes with pronase. The binding sites specific for acetyl-LDL are present during all the gestation and are distinctly different from the binding sites for native LDL, previously characterized in placental microvilli. These 2 types of binding sites may be related to the high amount of cholesterol required by the human placenta for progesterone synthesis and trophoblastic growth.

Monoclonal antibodies to low density lipoprotein used for the study of low- and very-low-density lipoproteins, in "ELISA" and immunoprecipitation technics.

Seven monoclonal antibodies to low-density lipoprotein were studied by the ELISA for their reactivity with LDL or VLDL. Cotitration experiments showed that five of them are addressed to different antigenic epitopes. Two of the monoclonal antibodies were temperature independent whereas the others had a decreased binding activity at 37 degrees C compared to that obtained at 25 degrees C or 4 degrees C, suggesting the presence of antibodies directed to sequence or conformation epitopes, respectively. All antibodies reacted with both LDL and VLDL; four of them had a higher affinity for LDL and two others for VLDL. Immunoprecipitation of LDL and/or VLDL was observed upon immunodiffusion with certain pairs of antibodies. This may allow the use of pairs of monoclonal antibodies to LDL for the quantitative determination of apolipoprotein B in serum LDL and VLDL.

Low-density lipoprotein binding sites in the microvillous membranes of human placenta at different stages of gestation.

Microvillous membranes isolated from early gestation placentas (8-12 weeks of amenorrhoea) and from mid-term placentas (20-22 weeks of amenorrhoea) were used to study the specific binding of low-density lipoprotein (LDL) to the trophoblast. The purity of the microvillous preparations has been assessed by electron microscopy and by their enrichment in two membrane markers, 5'-nucleotidase and alkaline phosphatase. Evidence was presented demonstrating the existence of saturable binding sites for [125I]LDL in placental microvilli as early as 6 weeks of pregnancy. The apparent KD values for these binding sites have been determined by Scatchard analyses to be 6.98 +/- 0.83 and 6.57 +/- 0.81 micrograms protein LDL/ml, for early gestation and mid-term preparations, respectively. This apparent KD value was unaffected by a pretreatment of the membranes by heparin, as indicated by the mean values of 7.13 +/- 0.89 and 6.97 +/- 0.75 micrograms protein LDL/ml obtained for immature microvilli preincubated with or without heparin, respectively. Large variations of binding capacity were observed in each gestational age group and no significant difference was found between them. These results indicate that the LDL binding sites of the human placenta, located on the microvillous membranes, (i) are present as early as the 6th week of pregnancy, and (ii) display the same high affinity and specificity for LDL as those of the term trophoblast.

Phorbol esters inhibit the binding of low-density lipoproteins (LDL) to U-937 monocytelike cells.

The present study demonstrates that U-937 monocytelike human cells possess specific LDL receptors. 125I-LDL binds at 4 degrees C on the cell surface. The bound molecules are releasable by heparin. The reaction requires Ca2+ and the binding sites are sensitive to proteolysis. Unlabeled LDL compete with 125I-LDL, whereas HDL are ineffective. At 37 degrees C, LDL are internalized and degraded by a chloroquine-sensitive pathway. Tumor-promoting phorbol esters inhibit the binding of 125I-LDL to its receptor on U-937 cells. This inhibition exhibits temperature, time, and concentration dependence. At 37 degrees C, inhibition is 50% at 5 X 10(-9) M of TPA. After removal of phorbol esters, treated cells recover their 125I-LDL-binding activity in 60 min. The inhibitory activities of various phorbol esters are proportional to their tumor-promoting activities. Inhibition appears to be due to a reduction in the number of available LDL receptors rather than a decrease in receptor affinity.

Plasma lipids, lipoproteins and apolipoproteins AI, AII, and B in renal transplanted children: what risk for accelerated atherosclerosis?

The aim of the study was to investigate the atherosclerosis risk factors related to hyperlipidemia in renal transplanted children. Plasma cholesterol, triglycerides, apolipoproteins (Apo) AI, AII and B, and the major lipoprotein classes separated by gradient ultracentrifugation were compared in 30 renal transplanted patients and 14 healthy children. Hyperlipidemia was present in 66% of the transplanted children. 'Positive' risk factors for atherosclerosis (high plasma cholesterol and Apo B) were present in hypercholesterolemic and combined hyperlipidemic subgroups. All transplanted children, whether normo- or hyperlipidemic, presented essentially 'negative' risk factors for atherosclerosis, i.e. significantly higher levels of Apo AI and AII in plasma and in high-density lipoprotein HDL2 and higher Apo AI/Apo B and/or Apo AII/B ratios. Repeated evaluations (over a 12-month period) in transplanted children indicated relatively frequent individual changes in the lipid pattern, but not in Apo AI and AII content. These results suggest that the risks for accelerated atherosclerosis related to hyperlipidemia may be considered as moderate in transplanted children.

Insulin receptors and protein synthesis in bone marrow cells and reticulocytes.

Normal rabbit bone marrow erythroid cells have been found to possess insulin receptors. Their number shows an inverse relationship with the stage of differentiation, ranging from 20,000 sites/cell in the less mature to 8,000 sites/cell in the more mature cells. In addition, insulin rapidly stimulates the incorporation of leucine into protein in these cells and in rabbit, human, and rat peripheral blood reticulocytes. In rat reticulocytes, the concentration range of the hormone required for this phenomenon is from 25 to 625 microU/ml.

Stimulation of triacylglycerol synthesis in rat adipocytes by plasma very-low-density lipoproteins.

The effect of human plasma lipoproteins on lipogenesis from glucose has been studied in isolated rat adipocytes. The very-low-density lipoproteins increased lipogenesis specifically, whereas low-density lipoproteins and high-density lipoproteins were without effect. Such stimulation could be reproduced with partially delipidated very-low-density lipoproteins. Nod-esterified fatty acids and glycerol were also without effect. Pretreatment of the adipocytes with trypsin did not alter the effect of very-low-density lipoprotein. The presence of Ca2+ was required for the full activation of lipogenesis. The synthesis of acylglycerol fatty acids and of acylglycerol glycerol were equally increased. The effect of very-low-density lipoprotein was not additive to that of insulin. It is suggested that very-low-density lipoprotein may directly stimulate lipogenesis in fat-cells, particularly in states when the lipoproteins are present at high concentration in the circulation.