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The effects of human low and high density lipoproteins on the binding of rat intermediate density lipoproteins to rat liver membranes 总被引:1,自引:0,他引:1
Upon incubation with rat liver membranes, radioiodinated rat intermediate density lipoproteins (IDL) interacted with at least two binding sites having a low and a high affinity as demonstrated by the curvilinear Scatchard plots obtained from the specific binding data. The purpose of our work was to identify the nature of these binding sites. Human low density lipoproteins (LDL), contain apolipoprotein B only, and human high density lipoproteins (HDL3), containing neither apolipoprotein B nor E, were both capable of decreasing the specific binding of rat 125I-IDL. The Scatchard analysis clearly revealed that only the low affinity component was affected by the addition of these human lipoproteins. In fact, the low affinity binding component gradually decreased as the amount of human LDL or HDL3 increased in the binding assay. At a 200-fold excess of human LDL or HDL3, the low affinity binding was totally masked, and the Scatchard plot of the specific 125I-IDL binding became linear. Only the high affinity binding component was left, enabling a precise measurement of its binding parameters. In a series of competitive displacement experiments in which the binding assay contained a 200-fold excess of human LDL or HDL3, only unlabeled rat IDL effectively displaced the binding of rat 125I-IDL. We conclude that the low affinity binding of rat IDL to rat liver membranes is due to weak interactions with unspecified lipoprotein binding sites. The camouflage of these sites by human lipoproteins makes possible the study of IDL binding to the high affinity component which likely represents the combined effect of IDL binding to both the remnant and the LDL receptors. 相似文献
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The binding of human intermediate density lipoproteins (IDL) to HepG2 cells was studied. We found that human 125I-IDL interact with a binding site of high-affinity (Kd 0.74 micrograms/ml, Bmax 0.049 micrograms/mg cell protein) and a binding site of lower affinity (Kd 86.8 micrograms/ml; Bmax 0.53 micrograms/mg cell protein). The high-affinity binding sites show characteristics of LDL-receptors since they interact with IDL and low-density lipoproteins (LDL) and are calcium dependent. The low-affinity binding sites are calcium-independent and interact with IDL, LDL, high density lipoproteins-3 (HDL3), apolipoprotein (apo) E-liposomes, apoCs-liposomes, apoA-I-liposomes but not with liposomes containing albumin or erythrocyte membrane proteins. Therefore, HepG2 cells have on their surface a binding site that resembles or is identical to the lipoprotein binding site (LBS) that we found on rat liver membranes (Brissette and No?l (1986) J. Biol. Chem. 261, 6847-6852). Internalization, degradation and cholesterol ester selective uptake were determined in the presence or in the absence of a sufficient amount of human HDL3 to abolish the interaction of IDL to the LBS in order to obtain information on the function of this site. Our results suggest that the LBS participates in the internalization of IDL but not in their degradation and that it is responsible for the selective uptake of cholesterol esters of IDL. 相似文献
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Effects of low-chloride solutions on action potentials of sheep cadiac purkinje fibers 总被引:2,自引:0,他引:2 下载免费PDF全文
The rapid repolarization during phase 1 of the action potential of sheep cardiac purkinje fibers has been attributed to a time- and voltage-dependent chloride current. In part, this conclusion was based on experiments that showed a substantial slowing of phase 1 when larger, presumably impermeant, anions were substituted for chloride in tyrode’s solution. We have re- examined the electrical effects of low-chloride solutions. We recorded action potentials of sheep cardiac purkinje fibers in normal tyrode’s solution and in low-chloride solutions made by substituting sodium propionate, acetylglycinate, methylsulfate, or methanesulfonate for the NaCl of Tyrode’s solution. Total calcium was adjusted to keep calcium ion activity of test solutions equal to that of control solutions. Propionate gave qualitatively variable results in preliminary experiments; it was not tested further. Low-chloride solutions made with the other anions gave much more consistent results: phase 1 and the notch that often occurs between phases 1 and 2 were usually unaffected, and the action potential duration usually increased. The only apparent change in the resting potential was a transient 3-6 mV depolarization when low-chloride solution was first admitted to the chamber, and a symmetrical transient hyperpolarization when chloride was returned to normal. If a time- and voltage-dependent chloride current exists in sheep cardiac purkinje fibers, our results suggest that it plays little role in generating phase 1 of the action potential. 相似文献
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