Identification of gonadotropin inducible, high density lipoprotein receptors in the solubilized membranes from rat ovary

Specific receptors for high density lipoproteins (HDL3) were solubilized from membranes of rat corpus luteum using different detergents. Among the detergents tested, octyl-beta-D-glucoside (40 mM) was most effective with respect to recovery of binding activity. The receptor activity released into 105,000 X g supernatant, can be assayed directly or with the precipitate obtained after dilution of the soluble supernatant. The 125I-HDL3 binding activity in the precipitated extract was linear with time, proportional to the amount of protein in the incubation mixture and saturable with increasing concentrations of 125I-HDL3. The solubilized receptor has an equilibrium dissociation constant (Kd) of 21.2 micrograms/ml and the binding activity was insensitive to Ca+2, EDTA and NaCl. These properties are similar to the membrane associated receptor. Administration of gonadotropin induced the HDL3 receptor in the solubilized membranes, suggesting that this receptor represents the physiologic receptor in the ovary.     

The sites of degradation of purified rat low density lipoprotein and high density lipoprotein in the rat

Low density lipoprotein and high density lipoprotein were isolated from rat serum by sequential ultracentrifugation in the density intervals 1.025-1.050 g/ml and 1.125-1.21 g/ml, respectively. The isolated lipoproteins were radioiodinated using ICl. Low density lipoprotein was further purified by concanavalin A affinity chromatography and concentrated by ultracentrifugation. 95% of the purified low density lipoprotein radioactivity was precipitable by tetramethylurea, while only 4% was associated with lipids. The radioiodinated high density lipoprotein was incubated for 1 h at 4 degrees C with unlabelled very low density lipoprotein, followed by reisolation by sequential ultracentrifugation. Only 3% of the radioactivity was associated with lipids and 90% was present on apolipoprotein A-I. The serum decay curves of labelled and subsequently purified rat low and high density lipoprotein, measured over a period of 28 h, clearly exhibited more than one component, in contrast to the monoexponential decay curves of iodinated human low density lipoprotein. The decay curves were not affected by the methods used to purify the LDL and HDL preparations. The catabolic sites of the labelled rat lipoproteins were analyzed in vivo using leupeptin-treated rats. In vivo treatment of rats with leupeptin did not affect the rate of disappearance from serum of intravenously injected labelled rat low density lipoprotein and high density lipoprotein. Leupeptin-dependent accumulation of radioiodine occurred almost exclusively in the liver after intravenous injection of iodinated low density lipoprotein, while both the liver and the kidneys showed leupeptin-dependent accumulation of radioactivity after injection of iodinated high density lipoprotein.     

Provision of cholesterol to lymphocytes by high density and low density lipoproteins. Requirement for low density lipoprotein receptors

The capacity of lipoprotein fractions to provide cholesterol necessary for human lymphocyte proliferation was examined. When endogenous synthesis of cholesterol was blocked, proliferation of mitogen-stimulated normal human lymphocytes was markedly inhibited unless an exogenous source of sterol was supplied. All lipoprotein fractions with the exception of high density lipoprotein subclass 3 were able to provide cholesterol for lymphocyte proliferation. Each of the lipoprotein subfractions capable of providing cholesterol was also able to regulate endogenous sterol synthesis in cultured human lymphocytes. Provision of cholesterol by lipoproteins required the interaction of apolipoprotein B or apolipoprotein E with specific receptors on normal lymphocytes. Apolipoprotein modification by acetylation or methylation, which markedly reduced the ability to regulate sterol biosynthesis, also diminished the capacity of lipoproteins to provide cholesterol. In addition, depletion of apolipoprotein B- and apolipoprotein E-containing particles from high density lipoprotein decreased its ability to suppress cholesterol synthesis and prevented it from providing cholesterol to proliferating lymphocytes. Monoclonal antibodies directed against the receptor-recognition sites on apolipoprotein B and apolipoprotein E were used to define the specific apolipoproteins required for the provision of cholesterol to lymphocytes by the various lipoprotein fractions. The antibody to apolipoprotein B inhibited cholesterol provision by both low density lipoprotein (LDL) and other lipoprotein fractions. The antibody to apolipoprotein E did not decrease provision of cholesterol by LDL but did inhibit the capacity of other fractions to provide cholesterol. In addition, a monoclonal antibody against the ligand binding site on the LDL receptor inhibited provision of cholesterol to normal lymphocytes by all lipoproteins. Finally, lymphocytes lacking LDL receptors were unable to obtain cholesterol from any lipoprotein fraction. These studies demonstrate that LDL receptor-mediated interaction with apolipoprotein B or apolipoprotein E is essential for the provision of cholesterol to normal human lymphocytes from all lipoprotein sources.     

FSH receptors in the bovine corpus luteum

Binding of follicle stimulating hormone (FSH) to a crude membrane fraction of bovine corpus luteum (CL) has been detected. This binding meets the usual criteria for a receptor based on specificity, time course of reaction and association constant (Ka = 8.5 x 10(10)M(-1)). Physiological studies with CL removed from heifers at specific times after estrus indicate that day-6 CL had the highest FSH binding. However, a correlation with physiological function was not obvious since some functional mid-cycle CL were high in progesterone and luteinizing hormone (LH) receptor but had nondetectable FSH receptor. Conversely, some late-cycle CL had low progesterone and LH receptor but significant quantities of FSH receptor.     

Expression of mRNA of lipoprotein receptor related protein 8, low density lipoprotein receptor, and very low density lipoprotein receptor in bovine ovarian cells during follicular development and corpus luteum formation and regression

Lipoproteins in the plasma are the major source of cholesterol obtained by the ovarian theca and granulosa cells for steroidogenesis. In this study, we have identified mRNA expression in bovine theca and granulosa cells of two lipoprotein receptors, low density lipoprotein receptor (LDLr) and very low density lipoprotein receptor (VLDLr) in granulosa cells from small antral follicles through preovulatory follicles and in theca cells from large and medium sized antral follicles. In the corpus luteum (CL) both these receptors were found in the developing and differentiating stages whereas only mRNA for VLDLr was detected in the regression stage. This study also described for the first time, the presence of lipoprotein receptor related protein (LRP8) in granulosa cells from small antral follicles through preovulatory follicles and in theca cells from large and medium sized antral follicles. This may indicate a role of LRP8 in cholesterol delivery to steriodogenic cells. LRP8 was not detected in any of the CL stages. The roles of the LDLr superfamily in lipid transport to ovarian cells and its participation in follicular and CL development and regression is discussed.     

Characterization of high density lipoprotein binding activity in rat adrenocortical cells

Rat adrenocortical cells take up high density lipoprotein cholesterol for use as steroidogenic substrate. To better understand this unique uptake process, we have first characterized HDL binding. Infusion of human 125I-labeled HDL into rats pretreated with 4-APP demonstrated that the adrenal and ovary accumulate HDL in a saturable fashion in vivo. Subsequent studies using isolated rat adrenocortical cells demonstrated that cellular uptake of HDL is comprised of two events. One event is characterized by reversible membrane binding and is complete by 60 min (t1/2 = 20 min). The second event is marked by irreversible apoprotein accumulation which continues for at least 3 hr. Reversibly bound material exhibits the same apoprotein distribution as unincubated HDL. Irreversible accumulation could not be attributed to internalization or lysosomal accumulation inasmuch as it also occurred with partially purified plasma membranes and was not enhanced by addition of chloroquine. Reversible binding of human HDL3 exhibited a saturable dependence on concentration (Kd = 27 micrograms protein/ml; N = 3.0 X 10(6) sites/cell) similar to that previously reported for rat liver, ovary, and testis. Cell accumulation of HDL decreased by over 80% at 4 degrees C compared to 37 degrees C, did not require calcium, and was not diminished by prior cell treatment with trypsin or pronase. These results indicate that rat adrenocortical cells possess plasma membrane recognition sites for HDL with different properties than those of the LDL receptor. Moreover, adrenal accumulation of HDL apoproteins does not lead to secondary lysosome formation.     

Prevention of low density lipoprotein aggregation by high density lipoprotein or apolipoprotein A-I

We have shown previously that low density lipoprotein (LDL) subjected to vortexing forms self-aggregates that are avidly phagocytosed by macrophages. That phagocytic uptake is mediated by the LDL receptor. We now show that LDL self-aggregation is strongly inhibited (80-95%) by the presence of high density lipoprotein (HDL) or apolipoprotein (apo) A-I. Another type of LDL aggregation, namely that induced by incubation of LDL with phospholipase C, was also markedly inhibited by HDL or apoA-I. The aggregation of LDL induced by vortexing was not inhibited by 2.5 M NaCl, and apoA-I was still able to block LDL aggregation at this high salt concentration, strongly suggesting hydrophobic interactions as the basis for the effect of apoA-I. The fact that apoA-I protected against LDL aggregation induced by two apparently quite different procedures suggests that the aggregation in these two cases has common features. We propose that these forms of LDL aggregation result from the exposure of hydrophobic domains normally masked in LDL and that the LDL-LDL association occurs when these domains interact. ApoA-I, because of its amphipathic character, is able to interact with the exposed hydrophobic domains of LDL and thus block the intermolecular interactions that cause aggregation.     

Effect of hydrolytic enzymes and protein-modifying reagents on gonadotropin receptors in bovine corpus luteum cell membranes

Preincubation of membranes with various concentrations of pronase, trypsin, lipase, phospholipase A from Vipera russelli and from Crotalus durissus terrificus, phospholipase C from Bacillus cereus and from Clostridium welchii, acetic anhydride, 2,4-dinitrofluorobenzene and tetranitromethane resulted in a dose-dependent inhibition of ¹²⁵I-labeled human choriogonadotropin binding. At the submaximal concentrations of enzymes and at both submaximal and maximal concentrations of protein-modifying reagents, the losses were always greater with ¹²⁵I-labeled human choriogonadotropin than with ¹²⁵I-labeled human lutropin. The inhibition of binding was a consequence of changes in the membranes rather than changes in the hormone caused by the agents being carried over to the final incubation. Inhibition of binding was non-competitive and irreversible.In untreated membranes, the ¹²⁵I-labeled human choriogonadotropin binding was homogenous (K_d = 1.7 · 10^?10 M; N = 60 fmol/mg protein). Treatment of membranes with various enzymes and protein-modifying reagents except tetranitromethane resulted in heterogeneous binding. The number of available high affinity receptors was greatly reduced in every case. However, the affinity of these sites were either unchangedd (trypsin, lipase, phospholipase A from V. russelli, dinitrofluorobenzene and the tetranitromethane) or decreased (pronase and acetic anhydride). the newly appeared second receptor site had a K_d which varied from 3.2 · 10^?10 to 7.1 · 10^?9d M depending on the agent used, and the receptor numbers were low in all cases except acetic anhydride.Receptor occupancy conferred the receptors with marked protection against various hydrolytic enzymes, dinitrofluorobenzene and tetranitromethane. These data suggest the inhibition of binding by the above agents was primarily a consequence of changes in the receptor molecules themselves.     

Monoacylglycerol accumulation in low and high density lipoproteins during the hydrolysis of very low density lipoprotein triacylglycerol by lipoprotein lipase.

We have demonstrated that low and high density lipoproteins from monkey plasma are capable of accepting and accumulating monoacylglycerol that is formed by the action of lipoprotein lipase on monkey lymph very low density lipoproteins. Furthermore, the monoacylglycerol that accumulates in both low and high density lipoproteins is not susceptible to further hydrolysis by lipoprotein lipase but is readily degraded by the monoacylglycerol acyltransferase of monkey liver plasma membranes. These observations suggest a new mechanism for monoacylglycerol transfer from triacylglycerol rich lipoproteins to other lipoproteins. In addition, the finding that monoacylglycerol bound to low and high density lipoprotein is degraded by the liver enzyme but not lipoprotein lipase lends support to the hypothesis that there are distinct and consecutive extrahepatic and hepatic stages in the metabolism of triacylglycerol in plasma lipoproteins.     

Oxidized low density lipoprotein and innate immune receptors

PURPOSE OF REVIEW: Atherosclerosis is now recognized as a chronic inflammatory disease. This review discusses recent literature reporting that innate immune receptors bind oxidatively modified LDL and its many oxidized moieties and consequently modulate the atherogenic process. These innate pattern recognition receptors are known to play a central role in pro-inflammatory responses to bacteria by binding pathogen-associated molecular patterns. It is hypothesized that oxidized LDL exposes similar molecular patterns recognized by receptors of innate immunity. RECENT FINDINGS: Minimally modified LDL and its oxidized phospholipids have been found to bind to CD14 or activate Toll-like receptors on macrophages. In turn, various biological activities have been induced, including the stimulation of cytoskeletal rearrangements that alter phagocytic activity and the stimulation of cytokine secretion, such as IL-8. These findings link modified LDL with innate pattern recognition receptors, such as those involved in the lipopolysaccharide signaling pathway. Human epidemiological studies support the involvement of CD14 and TLR4 in cardiovascular diseases. Oxidized LDL has also been demonstrated to bind to C-reactive protein, an opsonic molecule activating classic complement pathway and Fcgamma receptor endocytosis. These data suggest that C-reactive protein may not only be a strong predictor of clinical disease, but may also play a role in atherogenesis. Recent data on other innate immune receptors are discussed in the context of their potential interactions with oxidized LDL and atherogenesis. SUMMARY: Recent findings suggest that oxidized forms of LDL interact with innate immune receptors. Further studies are needed to identify the role of these interactions in inflammation and atherosclerosis.     

Progesterone promotes survival of the rat corpus luteum in the absence of cognate receptors

Progesterone production by the corpus luteum (CL) is essential for preparation of the endometrium for implantation and for the maintenance of gestation. Progesterone modulates its own production and opposes functional luteal regression induced by exogenous agents, such as prostaglandin F(2alpha). In the present study, we evaluated whether progesterone is also capable of interfering with the process of structural luteal regression, which is characterized by a decrease in weight and size of the gland because of programmed cell death (i.e., apoptosis). We have found that a low number of luteal cells undergo apoptosis throughout gestation. On the day of parturition, but following the initial decline in endogenous progesterone production, a small increase in the number of luteal cells undergoing cell death was observed. This increase in apoptotic cells continued postpartum, reaching dramatic levels by Day 4 postpartum, and was accompanied by a marked decrease in average luteal weight. We have established that the exogenous administration of progesterone significantly reduces the decline in luteal weight observed during structural luteal regression postpartum. This effect was associated with a decrease in the number of cells undergoing apoptosis and with enhanced circulating levels of androstenedione. Furthermore, in vivo administration of progesterone delayed the occurrence of DNA fragmentation in postpartum CL incubated in serum-free conditions. Finally, we have shown that neither the CL of gestation nor the newly formed CL after postpartum ovulation express the classic progesterone-receptor mRNA. In summary, the present results support a protective action of progesterone on the function and survival of the CL through inhibition of apoptosis and stimulation of androstenedione production. Furthermore, this effect is carried out in the absence of classic progesterone receptors.     

Effect of hydrolytic enzymes and protein-modifying reagents on gonadotropin receptors in bovine corpus luteum cell membranes.

Preincubation of membranes with various concentrations of pronase, trypsin, lipase, phospholipase A from Vipera russelli and from Crotalus durissus terrificus, phospholipase C from Bacillus cereus and from Clostridium welchii, acetic anhydride, 2,4-dinitrofluorobenzene and tetranitromethane resulted in a dose-dependent inhibition of 125I-labeled human choriogonadotropin binding. At the submaximal concentrations of enzymes and at both submaximal and maximal concentrations of protein-modifying reagents, the losses were always greater with 125I-labeled human choriogonadotropin than with 125I-labeled human lutropin. The inhibition of binding was a consequence of changes in the membranes rather than changes in the hormone caused by the agents being carried over to the final incubation. Inhibition of binding was non-competitive and irreversible. In untreated membranes, the 125I-labeled human choriogonadotropin binding was homogeneous (Kd = 1.7.10(-10) M; N = 60 fmol/mg protein). Treatment of membranes with various enzymes and protein-modifying reagents except tetranitromethane resulted in heterogeneous binding. The number of available high affinity receptors was greatly reduced in every case. However, the affinity of these sites were either unchanged (trypsin, lipase, phospholipase A from V. russelli, dinitrofluorobenzene and the tetranitromethane) or decreased (pronase and acetic anhydride). The newly appeared second receptor site had a Kd which varied from 3.2.10(-10) to 7.1.10(-9) M depending on the agent used, and the receptor numbers were low in all cases except acetic anhydride. Receptor occupancy conferred the receptors with marked protection against various hydrolytic enzymes, dinitrofluorobenzene and tetranitromethane. These data suggest that inhibition of binding by the above agents was primarily a consequence of changes in the receptor molecules themselves.     

Intracellular trafficking of pigeon beta-very low density lipoprotein and low density lipoprotein at low and high concentrations in pigeon macrophages

Foam cell formation occurs in vitro at lipoprotein concentrations above 50 microgram/ml in pigeon macrophages. Hypothetically, intracellular trafficking of lipoproteins at higher concentrations may differ from uptake of lipoproteins associated with low concentrations, revealing a separate atherogenic endocytic pathway. Macrophage intracellular trafficking of pigeon beta-very low density lipoprotein (beta-VLDL) and low density lipoprotein (LDL) at low concentrations (12 microgram/ml) near the saturation of high affinity binding sites and high lipoprotein concentrations (50-150 microgram/ml) used to induce foam cell formation were examined. Pigeon beta-VLDL and LDL, differentially labeled with colloidal gold, were added simultaneously to contrast trafficking of beta-VLDL, which causes in vitro foam cell formation, with LDL, which does not. The binding of lipoproteins to cell surface structures, distribution of lipoproteins in endocytic organelles, and the extent of colabeling in the endocytic organelles were determined by thin-section transmission electron microscopy.At low concentrations, the intracellular trafficking of pigeon LDL and beta-VLDL was identical. At high concentrations, LDL was removed more rapidly from the plasma membrane and reached lysosomes more quickly than beta-VLDL. No separate endocytic route was present at high concentrations of beta-VLDL; rather, an increased residence on the plasma membrane, association with nonmicrovillar portions of the plasma membrane, and slower trafficking in organelles of coated-pit endocytosis reflected a more atherogenic trafficking pattern.     

Differential regulation of apoptosis in the corpus luteum of pregnancy and newly formed corpus luteum after parturition in rats

Apoptosis contributes to luteal regression in many species. In the postpartum rat, there are two different types of corpora lutea (CL) in the ovary: CL of pregnancy (CLP) and newly formed CL (NCL). To investigate the regulation of apoptosis in the two different types of CL during luteal regression, apoptosis and caspase-3 activity were examined in the CL obtained on Days 7, 15, and 21 of pregnancy and Days 0, 1, 3, 5, 7, and 9 postpartum. Furthermore, the effect of lactation on apoptosis in the CL was examined in two groups of postpartum rats: lactating rats that nurse more than 10 pups, and nonlactating rats that nurse no pups. Apoptotic cells were detected after Day 21 of pregnancy. In the CLP, remarkable increases in the number of apoptotic cells on Days 5 and 9 postpartum were observed in nonlactating rats (P < 0.01), but not in lactating rats. Changes in caspase-3 activity in the CLP were not consistent with those in number of apoptotic cells. In the NCL, an increase in apoptosis was found only on Day 5 postpartum in nonlactating rats (P < 0.01), but not in lactating rats. Changes in caspase-3 activity in the NCL were consistent with those in number of apoptotic cells. In conclusion, apoptosis is, at least in part, involved in luteal regression after parturition, and lactation appears to inhibit apoptosis. This study also suggests the presence of a caspase-3-independent mechanism for apoptosis in CLP regression in the rat.     

Comparison of the phospholipase activity of bovine milk lipoprotein lipase against rat plasma very low density and high density lipoprotein.

The hydrolytic activity of a lipoprotein lipase from bovine milk against triacylglycerol and phosphatidylcholine of rat plasma very low density lipoprotein was determined and compared to that against phosphatidylcholine of high density lipoprotein. 85--90% of the triacylglycerol in very low density lipoprotein were hydrolyzed to fatty acids and 25--35% of the phosphatidylcholine to lysophosphatidylcholine. High density lipoprotein phosphatidylcholine was only minimally susceptible to the enzyme. Even with high amounts of enzyme and prolonged incubation periods, lysophosphatidylcholine generation did not exceed 2--4% of the original amounts of labeled phosphatidylcholine in the high density lipoprotein. We conclude that phospholipids in high density lipoprotein are not substrates for the phospholipase activity of this lipoprotein lipase. These observations suggest that factors other than the presence of apolipoprotein C-II and of glycerophosphatides are of importance for the activity of lipoprotein lipases.     

Characterization of nascent high density lipoprotein subfractions from perfusates of rat liver

Nascent high density lipoprotein (HDL) (1.063 less than d less than 1.21 g/ml) was isolated from recirculating rat liver perfusates and separated by heparin-Sepharose chromatography into a nonretained fraction (NR) and a fraction (R) that eluted with 0.5 M NaCl. Fractions NR and R contained 70% and 30% of the nascent HDL protein, respectively. ApoB-containing particles were removed from fraction R by chromatography on concanavalin A. The protein composition of fractions NR and R was 40% and 29%, respectively. Fraction NR contained 25% apoA-I, 11% apoA-IV, 24% apoE, and 38% apoC. Fraction R contained primarily apoE (81% of total protein). The lipid composition of NR and R, respectively, was: triglyceride 44% and 26%, phospholipid 41% and 57%, cholesterol 8% and 13%, and cholesteryl ester 7% and 4%. Fractions NR and R had molecular weights of 400,000 and 860,000, respectively, as calculated from the Stokes radius. Negative staining electron microscopy indicated that both fractions consisted mainly of spherical particles (260-280 A) but some stacked disks were seen in fraction R. Livers perfused by the single-pass technique produced fractions NR and R in the same ratio as livers perfused by recirculation. The apolipoprotein compositions were similar to those in the recirculating perfusion; however, both fractions NR and R had more triglyceride (greater than 50% of total lipid). An HDL fraction was also isolated from liver perfusates by a combination of molecular sieve and heparin-Sepharose affinity chromatography. This HDL contained triglyceride but no apoB, indicating that triglyceride-rich HDL particles are not an artifact of ultracentrifugation.(ABSTRACT TRUNCATED AT 250 WORDS)