Radiation injury in rat lung. I. Prostacyclin (PGI2) production, arterial perfusion, and ultrastructure

Pulmonary prostacyclin (PGI2) production, arterial perfusion, and ultrastructure were correlated in rats sacrificed from 1 day to 6 months after a single exposure of 25 Gy of gamma rays to the right hemithorax. PGI2 production by the irradiated lung decreased to approximately half the normal value 1 day after irradiation (P less than 0.05), then increased steadily throughout the study. By 6 months postirradiation, the right lung produced two to three times as much PGI2 as did either shielded left lung or sham-irradiated lungs (P less than 0.05). Perfusion scans revealed hyperemia of the right lung from 1 to 14 days after irradiation. From its peak at 14 days postirradiation, however, perfusion of the irradiated lung decreased steadily, then reached a plateau from 3 to 6 months at less than half that in the shielded left lung. Electron micrographs of the right lung revealed perivascular edema from 1 to 30 days after irradiation. The right lung then exhibited changes typical of radiation pneumonitis followed by progressive interstitial fibrosis. Platelet aggregates were not observed at any time. Thus, decreased PGI2 production is an immediate but transient response of the lung to radiation injury. Then from 2 to 6 months after irradiation, the fibrotic, hypoperfused lung produces increasing amounts of the potent vasodilator and antithrombotic agent, PGI2. Pulmonary PGI2 production and arterial perfusion are inversely correlated for at least 6 months after hemithoracic irradiation.     

Enhanced mitotic activity induced by irradiation is abolished by PGI2 pretreatment

It is well known that irradiation may induce pronounced vascular lesions. Experimental studies revealed that irradiation induces an increased mitotic activity. As PGI2 has been claimed to be an antilesional agent, we wondered whether a pretreatment with PGI2 might abolish some of the effects induced by irradiation. 2 Groups of 24 rabbits were studied. 8 Rabbits each were irradiated with either 5 or 10 Gy on an abdominal aortic segment; 8 animals were sham treated. In each of the 3 groups half of the animals (n = 4) received PGI2 and half the buffer vehicle only. It is demonstrated that PGI2 is able to depress the enhanced mitotic activity induced by irradiation. In comparison to the controls, vascular thromboxane formation is decreased, the temporary increase in PGI2-formation by the vessel wall is less pronounced, whereas the conversion of exogenous arachidonic acid is unchanged. It is hypothetized that stable PGI2-analogues given during irradiation may probably prevent at least in part radiation-induced vascular changes and finally radiation-induced vasculopathy; this claim has to be proven in human.     

Radiation induced alterations in rabbit aortic prostacyclin formation

Earlier studies have demonstrated very severe vascular lesions occuring after irradiation in human and experimental animals as well. We examined the rabbit aortic PGI2-formation using the platelet bioassay technique in one year aged rabbits after different irradiation doses and a time course. The findings demonstrate a significant increase in prostacyclin formation, which might be due to the damage of endothelial cells. This stage is followed by a long lasting severe depression. This behaviour in addition demonstrates a dose dependent manner, The findings of a long lasting decrease in vascular PGI2-formation might contribute to the understanding of the high incidence of vascular lesions being found at the site of irradiation.     

Recovery of prostacyclin capacity of irradiated endothelial cells and the protective effect of vitamin C

Ionizing irradiation has been reported to affect prostacyclin (PGI2) production by intact blood vessels and cultured endothelial cells (EC) due to damage of enzymes of the arachidonate cascade. In the present study, we investigated whether EC can recover from radiation injury and regain their capacity to produce PGI2. Bovine aortic EC were exposed to radiation doses of 3 and 6 Gy and their capacity to produce PGI2 in response to stimulation with arachidonic acid was tested, at various times after irradiation. The results of these experiments showed clearly that EC exposed to single or fractionated irradiation could recover their capacity to produce PGI2 depending on the radiation dose and the time period following radiation. Radiation damage is associated with oxidant stress and the production of free radicals. We therefore tested the ability of an oxygen radical scavenger, vitamin C, to protect the capacity of irradiated EC to produce PGI2. Pretreatment of EC with low concentrations of vitamin C inhibited the radiation induced release of PGI2 to the culture medium. Vitamin C also enhanced the capacity of irradiated EC to produce PGI2 following short stimulation with arachidonic acid. Treatment with this scavenger however, did not protect the cells against the cytopathic effects of radiation.     

Radiation injury in rat lung. IV. Modification by D-penicillamine

To determine whether D-penicillamine, known to reduce fibrosis in irradiated rat lung (W. F. Ward, A. Shih - Hoellwarth , and R. D. Tuttle , Radiology 146, 533-537, 1983), also ameliorates radiation injury in the pulmonary endothelium, we measured angiotensin-converting enzyme (ACE) activity, plasminogen activator (PLA) activity, and prostacyclin (PGI2) production in the lungs of penicillamine-treated (10 mg/day, po, continuous after irradiation) and untreated rats from 2 weeks to 6 months after a single dose of 25 Gy of 60Co gamma rays to the right hemithorax. Both ACE and PLA activity in the irradiated right lung of untreated rats decreased dramatically between the 1st and 2nd months after exposure, then reached a plateau through 6 months at approximately 25 and 50% of the normal level, respectively. For the first 2 months after irradiation, penicillamine-treated animals exhibited significantly (P less than 0.05) higher activities of both ACE and PLA than did untreated rats. From 3 to 6 months after irradiation, however, the only significant drug effect on these enzymes was a 25% increase in PLA activity at 6 months. PGI2 production by the irradiated lung of untreated rats increased continuously, and at 6 months was approximately 10 times higher than normal. Penicillamine significantly (P less than 0.05) reduced this hypersecretion, and at 6 months after irradiation, PGI2 production by the lungs of drug-treated rats was only half that of untreated animals. In contrast, the drug had no significant effect on enzyme activities in the lungs of sham-irradiated rats. Thus the antifibrotic agent D-penicillamine delays the onset of radiation-induced enzyme dysfunction in the pulmonary endothelium. In addition at 6 months after irradiation, the lungs of penicillamine-treated rats exhibit 25% more PLA activity and only half as severe a hypersecretion of PGI2 as do the lungs of untreated animals. The drug is most effective in ameliorating endothelial damage during the first 2 months after irradiation, preceding the development of interstitial fibrosis. However, the effect of this penicillamine regimen on pulmonary endothelial function is not as large as its effect on collagen accumulation in irradiated rat lung.     

Prostacyclin synthesis in irradiated endothelial cells cultured from bovine aorta

Confluent monolayers of bovine aortic endothelial cells were examined 2-72 h after exposure to 0.5-5.0 Gy of 60Co gamma-rays. Accumulation of prostacyclin [PGI2, measured as 6-ketoprostaglandin F1 alpha (6-keto-PGF1 alpha)] in the culture media and PGI2 production stimulated by exogenous arachidonate were correlated with cell detachment and release of lactate dehydrogenase (LDH) activity. Platelet adherence to irradiated and control monolayers also was studied. There were simultaneous time- and dose-dependent increases in cell detachment and in the titers of 6-keto-PGF1 alpha and LDH activity in the culture medium. These changes were evident between 4 and 8 h after 5 Gy or at 24 h after 0.5 Gy. Four hours after 5 Gy, both adherent and detached endothelial cells showed a twofold increase in PGI2 production during a 15-min incubation with arachidonate (10 microM). However, by 72 h this increase was less significant. The accumulation of 6-keto-PGF1 alpha appeared to be related to cell destruction, but radiation also stimulated PGI2 synthesis independent of cell detachment. There was an increased platelet interaction with irradiated monolayers, as a result of platelet adherence to subendothelial matrix exposed after cell detachment. However, irradiation did not alter the nonadherent property of the endothelial cell surface toward platelets.     

Pentoxifylline does not spare acute radiation reactions in rat lung and skin.

Male rats were exposed to single doses (0-30 Gy) of 60Co gamma rays to the right hemithorax. Half of each dose group consumed only control powdered chow after irradiation, and half consumed feed containing 0.10% (w/w) pentoxifylline (50 mg/kg/day). The severity of epilation and desquamation in the field of the radiation port was scored weekly. Two months after irradiation the animals were killed, and pulmonary endothelial function was monitored by the activity of lung angiotensin converting enzyme (ACE) and plasminogen activator (PLA), and by production of prostacyclin (PGI2) and thromboxane (TXA2). The amount of hydroxyproline (HP) in the lung served as an index of pulmonary fibrosis. Radiation produced a dose-dependent decrease in ACE and PLA activity in the right lung and an increase in the production of PGI2 and TXA2. This endothelial dysfunction was accompanied by an increase in wet weight and in protein and HP content in the irradiated lung. Pentoxifylline spared only the increase in lung wet weight and protein content, and actually elevated the radiation-induced hyperproduction of PGI2 and TXA2. The severity of the epilation and desquamation reactions increased with increasing radiation dose and time but was independent of diet. These data indicate that pentoxifylline, despite some promising pharmacological actions, has no beneficial effect on acute radiation reactions in rat lung and skin.     

Serum copper concentration as an index of lung injury in rats exposed to hemithorax irradiation

Serum copper concentration was evaluated as an index of lung injury (monitored by lung prostacyclin production) with respect to the effects of time, dose, dose fractionation, and penicillamine dose modification in rats irradiated to the right hemithorax. Both lung PGI2 production and serum Cu concentration increased with increasing 60Co gamma-ray dose in animals sacrificed 2 or 6 months postirradiation, and the highest values for both responses were observed at the latter autopsy time. At 2 months postirradiation, the elevations in lung PGI2 production and serum Cu concentration also were spared similarly when total radiation doses were delivered in five equal daily fractions as compared to single doses. Finally, the ability of D-penicillamine to ameliorate the radiation-induced hyperproduction of PGI2 by rat lung was accompanied by an attenuation of the dose-dependent increase in serum Cu concentration at 2 months postirradiation in the drug-treated rats. In contrast, serum iron concentration was independent of time, dose, and penicillamine. At 2 months after irradiation, there also was a dose-dependent increase in lung hydroxyproline (collagen) content, the magnitude of which correlated closely with serum copper concentration in individual animals. Thus serum copper concentration is an accurate and minimally invasive index of lung injury in rats irradiated to the hemithorax and can predict lung hydroxyproline (collagen) content in individual irradiated rats.     

Triphasic response of prostacyclin production in rabbit thoracic aorta in early atherosclerosis

Atherosclerosis was induced in male rabbits by administration of a 2% cholesterol diet for up to 18 weeks. The animals were assessed for aortic microsomal prostanoid synthesis, morphologic assessment and serum cholesterol levels. Serum levels of cholesterol increased from control values of 84 +/- 9 ng/dl to 1632 +/- 227 ng/dl at 2 weeks (20-fold increase), and 4859 +/- 829 ng/dl at 9 weeks (57-fold increase). Aortic microsomal prostacyclin synthesis fell significantly at 2 weeks of cholesterol feeding which predated the morphologic appearance of atherosclerotic plaque in the 7 week group. Aortic microsomal PGI2 synthesis significantly increased by 7 weeks and did not fall until the 18 week group when a highly significant increase in aortic plaque developed. These findings suggest a triphasic response of aortic PGI2 synthesis with the development of early atherosclerosis. Phase one is a fall in aortic PGI2 synthesis which predates the appearance of plaque. In phase 2, a significant rise in aortic PGI2 with the appearance of plaque could represent compensation of aortic endothelium to prevent further plaque development. In phase 3, decreased aortic PGI2 could indicate replacement of normal endothelium by atherosclerotic plaque.     

The effects of ionizing radiation on the pulmonary endothelial cell uptake of alpha-aminoisobutyric acid and synthesis of prostacyclin

The effects of gamma irradiation (150-3000 rad) on prostacyclin synthesis (PGI2) and Na+-dependent amino acid uptake (alpha-aminoisobutyric acid, AIB) were assessed in vitro in bovine pulmonary artery endothelial cells grown in plastic culture dishes. A dose-dependent increase in both PGI2 synthesis and AIB was found 24 h after irradiation at exposure levels greater than 600 rad. The increase in PGI2 synthesis [297% of sham-irradiated values at 3000 rad, P less than 0.01] was due to an increase in release of arachidonic acid from plasma membrane stores as well as stimulation of cyclooxygenase and/or prostacyclin synthetase enzymes. The increase in AIB uptake (75% increase at 3000 rad compared to sham-exposure values) correlated with the increased synthesis of PGI2 (r = 0.94). There was also a dose-dependent increase in the number of cells that became detached from the culture dishes during the 24-h period after irradiation. The changes in PGI2 synthesis and AIB uptake induced by gamma irradiation differed if the endothelial cells were grown on cover slips, indicating that the endothelial response to irradiation may be dependent on the interaction between the endothelial cell and its extracellular basement membrane matrix.     

Pulmonary endothelial dysfunction induced by unilateral as compared to bilateral thoracic irradiation in rats

Rats were sacrificed 2 months after a single dose of 10-30 Gy of 60Co gamma rays delivered to either a right unilateral or a bilateral thoracic port. Four indices of lung endothelial function were measured: the activities of angiotensin-converting enzyme (ACE) and plasminogen activator (PLA) and the production of prostacyclin (PGI2) and thromboxane (TXA2). The number of macrophages recovered by bronchoalveolar lavage (BAL) and the degree of right ventricular hypertrophy (an index of pulmonary hypertension) also were determined. Right lung ACE and PLA activity decreased linearly, and PGI2 and TXA2 production increased linearly with increasing radiation dose. The response curves for right unilateral and bilateral thoracic irradiation were not significantly different. In contrast, bilateral irradiation was more toxic than unilateral, since rats exposed to the former exhibited decreased body weight, an increased incidence of pleural effusions, an increase in the number of macrophages recovered by BAL, and right ventricular hypertrophy. These data demonstrate that pulmonary endothelial dysfunction induced by hemithorax irradiation represents a direct response of the endothelium to radiation injury and is not secondary to other phenomena such as shunting of function to the shielded lung.     

Arachidonic acid metabolism in thrombocytes and vascular tissues of turkeys

Turkeys are hypertensive compared to mammals of similar size. In vitro synthesis of thrombocyte thromboxane B2 (TxB2), 12L-hydroxy-5,8,10 heptadecatrienoic acid (HHT), 12L-hydroxy-5,8,10,14-eicosatetraenoic acid (HETE) and aortic prostaglandin (PG) production was studied in one to ten month old domestic white turkeys. Compared to normal human platelets, TxB2 production was increased (55.4 vs. 31.4%) and HETE production was markedly reduced (6.5 vs. 34.6%) in control thrombocytes. Similar to human platelets in which cyclooxygenase inhibition with aspirin results in an increase in HETE production, block of the thrombocyte enzyme with aspirin doubled the production of HETE. In vitro conversion of radiolabeled arachidonic acid (AA) showed that the primary PG produced by turkey aorta was PGE2. A 6-keto immunoreactive PG was present which comigrated with authentic 6-keto PGF1 alpha, but failure of the aortic supernatant to inhibit adenosine diphosphate or AA induced platelet aggregation suggested that PGI2 was not produced. The vasodepressor potency of PGE1, PGE2 and PGI2 was altered in awake turkeys with PGE1 and PGE2 having five times the hypotensive effect as PGI2. In addition, conversion of AA to PGE2 by aorta in one month turkeys was greater (17.3 vs. 9.2%) than in ten month old turkeys. Systemic arterial pressure was increased in the ten month old turkeys (188 mmHg) compared to one month old turkeys (143 mmHg). Thus, both vascular AA metabolism and the vasodepressor potencies of PGE2 and PGI2 are altered and the activity of the lipoxygenase pathway in thrombocytes is limited in the turkey.     

12-Hydroxyeicosatetraenoic acid reduces prostacyclin production by endothelial cells

12-Hydroxyeicosatetraenoic acid (12-HETE), a lipoxygenase product released by activated platelets and macrophages, reduced prostacyclin (PGI2) formation in bovine aortic endothelial cultures by as much as 70%. Maximal inhibition required 1 to 2 h to occur and after 2 hr, a concentration of 1 microM 12-HETE produced 80% of the maximum inhibitory effect. 5-HETE and 15-HETE also inhibited PGI2 formation. The inhibition was not specific for PGI2; 12-HETE reduced the formation of all of the radioactive eicosanoids synthesized from [1-14C]arachidonic acid by human umbilical vein endothelial cultures. Inhibition occurred in the human cultures when PGI2 formation was elicited with arachidonic acid, ionophore A23187 or thrombin. These findings suggest that prolonged exposure to HETEs may compromise the antithrombotic and vasodilator properties of the endothelium by reducing its capacity to produce eicosanoids, including PGI2.     

The effects of sex hormones on the synthesis of prostacyclin (PGI2) by vascular tissues

The effects of estradiol and testosterone on prostacyclin (PGI2) release (measured as 6-keto-PGF1 alpha) by vascular tissues using rat aortic rings and cultured rabbit aortic smooth muscle cells (SMC) were investigated. Aortic SMC were prepared from either explants of atherosclerotic intima or those of normal media. Aortic rings obtained from male and female rats which had been treated with estradiol resulted in increased PGI2 synthesis. Furthermore, PGI2 synthesis by cultured medial SMC was significantly increased in the presence of estradiol (10(-7), 10(-9) M). An increased tendency in PGI2 synthesis was also observed in intimal SMC. On the other hand, aortic rings obtained from female rats treated with testosterone resulted in a significant decrease in PGI2 synthesis. However, aortic rings from testosterone-treated male rats and cultured medial and intimal SMC treated with testosterone (10(-6), 10(-8) M) for 48 hr did not show any significant changes in PGI2 synthesis. We also found greater PGI2 synthesis by intimal SMC compared with that by medial SMC. These results suggest that estradiol and testosterone may have opposite functions in the development of atherosclerosis, that is, estradiol for anti-atherosclerotic and testosterone for atherogenic, by modulating PGI2 synthesis by vascular tissues.     

Enhanced formation of PGI2, a potent hypotensive substance, by aortic rings and homogenates of the spontaneously hypertensive rat.

Intact rings and homogenates of aorta from spontaneously hypertensive rats (SHR) contain enhanced capacity over normal rats (NR) to convert arachidonic acid into PGI2. The PGI2 synthetic system in SHR is stimulated to a greater extent than NR by norepinephrine. Indomethacin blocks this stimulation. PGE2 and PGF2alpha were detected in much smaller amounts in homogenates (undetected in rings) but their formation was not enhanced by the hypertensive tissue. The identity of PGI2 was based on 1) direct pharmacological assay on the rat blood pressure. In this system identical vasodepressor responses to PGI2 are observed after intracarotid and intrajugular administration 2) indirectly as 6-keto PGF1alpha isolated after incubation of aortic homogenates with tritiated arachidonic acid and 3) indirectly by GC-MS assay of PGE2, PGF2alpha and 6-keto PGF1alpha formed during incubation of aortic homogenates with excess unlabeled arachidonic acid. These results provide additional support to our recent hypothesis that PGI2, of aortic origin, might actively participate in the regulation of systemic blood pressure. Its enhanced formation by intact hypertensive vascular tissue reflects an increase in the number of enzyme molecules immediately available to the substrate. This could probably be an adaptive response to the elevated levels of catecholamines in the circulation.     

Endothelial cell prostacyclin production induced by activated neutrophils

A bovine aortic endothelial cell (EC) line released prostacyclin (greater than 1 pmol/10(+5) EC cells) when incubated with fMet-Leu-Phe (FMLP)-stimulated rat and human neutrophils (PMNs). This prostaglandin (PG) I2 was shown to come from the ECs and not from the PMNs by radioactive, high-performance liquid chromatography, and immunochemical criteria. Both FMLP-stimulated rat peritoneal and human peripheral PMNs as well as their stimulated cell-free supernatants and unstimulated sonicates could elicit the release of PGI2 from ECs. Since phorbol myristate acetate stimulated PMN adherence but elicited little PGI2 release from ECs, the PGI2 stimulation in ECs is unrelated to PMN adhesion. The addition of catalase and superoxide dismutase to FMLP-stimulated PMNs enhanced rather than reduced PGI2 formation, indicating that activated oxygen products of the PMN are not responsible for the induction of PGI2. Incubation of ECs with leukotriene (LT) B4, LTC4, or LTD4 did not trigger PGI2 release nor did aspirin pretreatment of the PMNs reduce the PGI2 induction. These data suggest that arachidonic acid metabolites of the PMNs were not responsible for the PGI2 induction. Available data indicates that the PMN factor that stimulates PGI2 from ECs is either released concomitantly with the azurophilic granules or is closely related to this event.     

Increased production of prostacyclin (PGI2) by vascular intimal smooth muscle cells from atherosclerotic rabbit aorta

In vitro PGI2 synthesis by aortic strips obtained from thoracic aorta of rabbits fed a high cholesterol diet was examined and compared with that of control rabbits fed a normal diet. In this report, the amounts of PGI2 produced were shown as 6-keto-PGF1 alpha per microgram of aortic tissue DNA instead of per mg wet weight. We also investigated PGI2 synthesis by cultured smooth muscle cells (SMC) obtained from atherosclerotic intima. Basal PGI2 production by aortic strips from atherosclerotic rabbit aorta was significantly augmented compared with that of controls. Arachidonic acid (AA)-induced PGI2 production by atherosclerotic aorta was also significantly higher than that of controls. PGI2 producing capacities of intimal and medial layers, separated from atherosclerotic aorta, were examined and the intimal layer was found to elicit a significantly greater PGI2 production than the medial layer. Furthermore, cultured intimal SMC obtained from atherosclerotic rabbit aorta produced a greater amount of PGI2 than medial SMC from normal rabbit aorta at various cultured conditions. These results suggest that the possibility of enhanced PGI2 production by atherosclerotic aorta may well be considered as a defence mechanism of the vessel wall against damaging stimuli.     

The effects of thyroxine and methimazole treatment on the synthesis of prostacyclin (PGI2) in the rat

The effects of thyroxine (T4) and methimazole administration on plasma prostacyclin (PGI2) levels in vivo and on PGI2 release by aortic rings incubated in vitro were investigated in rats. Male rats were given single injection of T4 (200 micrograms/100 g body wt) ip every 24 h for either 3, 7 or 14 days for hyperthyroid rats. For hypothyroid rats, a group of rats were given methimazole (0.01 % in drinking water) for 14 days. PGI2 concentrations were determined in plasma and also in the medium in which aortic rings were incubated. PGI2 was measured as 6-keto-PGF1 alpha by RIA. Plasma PGI2 levels in T4-treated groups were found to be significantly higher than those of control animals. Aortic rings obtained from rats given single injection of T4 for 7 and 14 days showed significant increases in release of PGI2 into the incubation medium. In contrast, rats given methimazole for 14 days showed a significant decrease in the production of PGI2 by aortic rings without any significant changes in plasma levels. Direct addition of T4 into the incubation medium did not cause any significant changes in PGI2 release by aortic rings obtained from control rats. These results suggest the regulatory role of thyroid hormone in PGI2 synthesis in vivo.     

Effects of aldose reductase inhibitors on prostacyclin (PGI2) synthesis by aortic rings from rats with streptozotocin-induced diabetes

The effects of aldose reductase inhibitors (ARIs) on the synthesis of prostacyclin (PGI2) by aortic rings from diabetic rats were examined. The ARIs studied were ONO-2235 and isoliquiritigenin, a new compound extracted from glycyrrhizae radix. The content of sorbitol in the sciatic nerve of diabetic rats induced by streptozotocin was significantly increased as compared with that of controls. This increase was significantly inhibited by the administration of an ARI. On the other hand, there was a marked decrease in the synthesis of PGI2 by the diabetic rats compared with the control rats. The decrease in PGI2 synthesis was significantly reversed by the administration of an ARI. Furthermore, the synthesis of PGI2 by the aortic rings was inversely correlated with the content of sorbitol in sciatic nerves. Those observations suggest that an ARI may have a beneficial effect on the vascular synthesis of PGI2 in diabetes mellitus.     

Effect of human plasma lipoproteins on prostacyclin production by cultured endothelial cells

Prostacyclin (PGI2) production by bovine aortic or human umbilical vein endothelial cells increased when either human high density lipoproteins3 (HDL3) or low density lipoproteins (LDL) were added to a serum-free culture medium. At low concentrations and short incubation times, HDL3 produced more PGI2 than LDL, but LDL was just as effective as HDL3 in 18-hr incubations with high concentrations of lipoproteins. Neither lipoprotein was toxic to the cultures as assessed by [3H]leucine incorporation into cell protein. The stimulatory effect of HDL3 and LDL on PGI2 production decreased as growing cultures became confluent. Incubation with lipoproteins neither enhanced arachidonic acid release nor increased PGI2 formation when the cells were stimulated subsequently with ionophore A23187, indicating that the lipoproteins do not affect the intracellular processes involved in PGI2 production. The addition of albumin reduced the amount of PGI2 formation elicited by HDL3 or LDL. As compared with albumin-bound arachidonic acid, from 6- to 13-fold less PGI2 was produced during incubation with the lipoproteins. Furthermore, the amount of PGI2 formation elicited by the lipoproteins in 18 hr was 4-fold less than that produced during incubation with a fatty acid mixture containing only 5% arachidonic acid, and 3-fold less than when the cells were stimulated with the ionophore A23187 for 20 min. Taken together, our results indicate that human HDL and LDL contribute to endothelial PGI2 production only in a modest way and suggest that this process is not specific for either of these two plasma lipoproteins. In view of the greater participation of albumin-bound arachidonic acid in PGI2 production, plasma lipoproteins may not play as important a role in endothelial prostaglandin formation as has been suggested.