Effects of porcine aortic smooth muscle cell conditioned medium on endothelial cell replication.

Previous studies suggested that arterial smooth muscle cells (SMC) may be involved in regulating the growth of capillaries into atherosclerotic plaques. In the present study, we determined the effect of SMC products on porcine aortic endothelial cell (EC) replication in vitro. Quiescent or slowly growing EC in medium without endothelial cell growth factor (ECGF) were stimulated to proliferate in the presence of porcine aortic SMC conditioned medium, while the same conditioned medium inhibited the growth of rapidly dividing EC in high serum concentrations or with ECGF. The magnitude of both activities depended on SMC conditioned medium concentration. The dose-dependent increase in EC number stimulated by ECGF was completely inhibited by SMC conditioned medium. This effect was not due to a direct interaction of conditioned medium with ECGF because SMC conditioned medium inhibited the growth of EC that were rapidly proliferating in 10% serum without ECGF. The inhibitory activity was retained by an ultrafiltration membrane with an exclusion limit of 1000 daltons; the stimulatory activity was recovered in the ultrafiltrate and remained stable after boiling, treatment with acid or base and trypsin, and repeated freezing and thawing, but was removed by activated charcoal. The growth-promoting activity could not be accounted for by release of cell contents from lysed cells or of thymidine into the medium. Conditioned medium from SMC incubated in the presence of serum contained less EC growth-stimulatory activity but more growth-inhibitory activity than that from SMC in serum-free medium.

Interaction of native and cell-modified low density lipoprotein with collagen gel.

We have examined the binding of native and cell-modified low density lipoprotein (LDL) to gels of Type I collagen. Diffusion of native 125I-LDL into the collagen gel was slow, reaching equilibrium after 24 to 48 hours, while L-3H-glucose, a low molecular weight marker, equilibrated in 6 hours. Binding of 125I-LDL was measured at 48 hours as the amount associated with the collagen after extensive washing. Binding was saturable with an increasing concentration of LDL. Prior incubation with cell-free culture medium resulted in modest, but progressive, increases in electrophoretic mobility and binding to collagen. Incubation with cells produced a marked increase in electrophoretic mobility and a 5- to 10-fold increase in collagen binding; the presence of butylated hydroxytoluene during incubation prevented both effects. These changes in LDL were induced by porcine aortic endothelial cells, smooth muscle cells, human skin fibroblasts, and a variety of cell lines, as well as by acetylation. There was a curvilinear relationship between the amount of LDL protein bound and the net negative charge of the LDL; increasing net charge was associated with progressively greater increases in binding. These results suggest a potential role for collagen in trapping lipid in the extracellular matrix of arterial intima by slowing the diffusion of and by binding LDL. The data also demonstrate that binding of LDL to collagen is enhanced by modifications that increase its net negative charge.

Influence of collagen gel substratum on response to low-density lipoprotein by cultured human skin fibroblasts.

The effect of low-density lipoprotein (LDL) on accumulation of glycosaminoglycans (GAG) was compared in cultures of human skin fibroblasts on a conventional plastic substratum and in a native type I collagen gel. The 24-h incorporation of [3H]glucosamine and Na2(35)SO4 into GAG secreted into the medium or associated with the substratum and cell surface (SCA) was measured in cells at subconfluent densities. When cells were grown on plastic, 13-25% of the labeled GAG was in the SCA pool. Cells cultured within a collagen gel matrix incorporated three times more [3H]glucosamine and up to five times more [35S]sulfate into this pool. The addition of LDL (300 micrograms protein/mL) to the medium increased the level of total GAG incorporation of [3H]glucosamine by 40-50% and of [35S]sulfate by 15-20% on both substrata. For cells on plastic the relative increase in the medium and SCA pool was similar, whereas for cells in collagen gel the response to LDL was twice as great in the SCA pool as in the medium. The distribution of GAG types was unaffected by LDL; hyaluronic acid remained the principal GAG in the media pools of both substrata, heparan sulfate remained the main SCA GAG in cultures on plastic, and dermatan sulfate remained the dominant GAG in the SCA pool of collagen gel cultures. LDL degradation was measured at intervals up to 48 h after the addition of 125I-labeled LDL. The rate of accumulation of degraded LDL products was lower in collagen gel cultures, but the final levels achieved were the same in the two substrata. Concentrations of total cell cholesterol were similar, although the increases in free cholesterol induced by LDL were 26% greater in cells within collagen gel than in those on plastic. We conclude that fibroblasts grown within a collagen gel, as compared with those on a plastic substratum, (i) accumulate more GAG that remain attached to the substratum and cell surface; (ii) respond to LDL with a similar degree of increase in GAG accumulation, but more of the increase is found in the substratum and cell surface compartment; and (iii) accumulate more intracellular free cholesterol in response to LDL.

Aortic intimal response to endothelial removal in cebus and squirrel monkeys.

Whereas squirrel monkeys have an inherent susceptibility to atherosclerosis, cebus monkeys are relatively resistant. To assess whether this difference might lie in their response to endothelial injury, the acute morphologic changes in the aortic intima after endothelial removal were examined in the two species. The endothelium of the lower thoracic aorta was removed with an embolectomy catheter, and the intimal response was compared with the uninjured upper thoracic aorta in each monkey. By 21 days after aortic denudation, regrowth of the endothelium (assessed by in vivo Evans' blue dye staining) was significantly greater in squirrel monkeys (90% +/- 5% of aortic surface) than in cebus (56% +/- 11%). Squirrel monkeys had comparable sudanophilic surface in the nonballooned, control aorta (25% +/- 7%) and the ballooned, lower thoracic segment (17% +/- 6%). Cebus monkey aortas had no sudanophilia in either segment. The intima/media ratios (IMR) in all regions of the aorta were significantly greater in squirrel monkeys than in cebus, but in both species the IMR of the ventral ballooned segment was two to three times the IMR of the nonballooned control segment. In the dorsal aorta, where endothelial regrowth was more rapid, the IMR was similar to the control aortic segment. By electron microscopy the thickened aortic intima in both species contained a marked increase in modified smooth muscle cells, but lipid accumulation did not result from endothelial removal or regrowth in either species. Thus, although the squirrel monkey aorta had atherosclerotic lesions before endothelial removal, the acute intimal response to endothelial injury was similar in degree and kind in both cebus and squirrel monkeys. This suggests that factors other than those controlling the initial intimal thickening following endothelial injury are responsible for the observed difference in arterial lipid accumulation between cebus and squirrel monkeys.

Bovine fibroblast growth factor: comparison of brain and pituitary preparations.

Bovine brain and pituitary fibroblast growth factors (FGF) have been compared with regard to their chemical and biological properties. Pituitary and one preparation of brain FGF (Prep A) contain a basic mitogenic activity, which migrates to the same position on electrophoresis in acid pH gels as detected by incorporation of [methyl-3H]-thymidine into BALB/c 3T3 cells. In contrast, another preparation of brain FGF (Prep B) contains two mitogens, one (20-30%) indistinguishable from the basic components in pituitary and brain (Prep A) FGF preparations and an acidic activity (70-80%), pl 5-6, that migrates more slowly on acid gels, corresponding to the acidic component of brain FGF described previously (Thomas, K. A., M. C. Riley, S. K. Lemmon, N. C. Baglan, and R. A. Bradshaw. 1980. J. Biol. Chem. 255:5517-5520.) In agreement with that report, none of the mitogens comigrates with fragments of myelin basic protein. Pituitary FGF was virtually inactive, brain (Prep A) FGF had a small amount of activity, and brain (Prep B) FGF was highly potent (50% maximal stimulation at 15-30 ng/ml) in stimulating the growth of human umbilical vein endothelial (HUVE) cells. The acidic component of brain FGF, which is much more unstable at pH 8.5 than the basic one, can be protected by reducing agents, whereas the basic constituent of brain FGF as well as pituitary FGF is unaffected by reducing conditions. Thus, brain FGF preparations may contain two distinct mitogenic activities, one that is acidic and contains HUVE cell activity, and a basic mitogen that is similar to and may be identical with pituitary FGF.

Characteristics of the aortic intima in young and old cebus and squirrel monkeys.

To document naturally occurring aortic intimal changes with age in squirrel and Cebus monkeys, the aortic lipid class composition, histology, and fine structure were quantitatively compared in the two species at birth and in old age. The aortic intima plus inner media in the young squirrel monkey contained more lipid, particularly in the phospholipid and cholesterol ester fractions than in young Cebus. The lipid class composition of the old Cebus monkey aorta resembled that of the young Cebus. In the old squirrel monkey aorta, cholesteryl ester, and to a lesser extent, free cholesterol were increased over young levels, while the phospholipid concentration tended to be lower. The aortic cholesteryl ester:phospholipid ratio increased with age in both species, but the old Cebus monkey aorta maintained the ratio below unity at 0.3, whereas the old squirrel monkey aorta ratio was 2.5. The abdominal aorta of the old squirrel monkey tended to have more lipid in each class than the thoracic segment. Morphologically, the old Cebus monkey aortic intima was similar to the young Cebus in terms of the intima:media ratio, intimal cellularity, and the distribution of intimal components determined by points in electron micrographs. In both age groups the Cebus monkey aorta was characterized by diffuse intimal thickening without lipid deposits. In contrast, that old squirrel monkey aorta had a much greater intima:media ratio, especially in the abdominal aorta, and a greater intimal cellularity than the young squirrel monkey. The distribution of intimal components in electron micrographs of the old squirrel monkey aorta shifted to a predominance of extracellular lipid, smooth muscle cells, and collagen. Deposits of small dense granules, presumably the products of cellular breakdown, were observed in aortic intimas and medias of both species in old age. Thus, differences between Cebus and squirrel monkey aortic intimas were evident at birth. By old age, the Cebus monkey aortic intima remodeled without accumulating lipid, whereas the squirrel monkey developed aortic intimal lesions resembling human atherosclerosis.

High and low molecular weight forms of endothelial cell growth factor.

Endothelial cell growth factor (ECGF) is a neural-derived mitogen capable of stimulating the proliferation of quiescent populations of human umbilical vein endothelial cells (HUV-EC). ECGF has been isolated from bovine hypothalamus in two forms: a high molecular weight from (high Mr ECGF, greater than 70,000) and a low molecular weight form form (low Mr ECGF, 17,000 to 25,000). Isoelectric focusing of high Mr ECGF and low Mr ECGF revealed that both Mr forms possess similar anionic isoelectric points (pI 4 to 6). High Mr ECGF can be converted into low Mr ECGF by mild acidification of the high Mr ECGF complex. Low Mr ECGF prepared by the high Mr to low Mr transition procedure is biologically active at 100 ng/ml in the low density HUV-EC growth assay and is capable of stimulating DNA synthesis in Balb/c 3T3 cells at 10 ng/ml. The two Mr forms of ECGF are related since they (i) share similar biological activity, (ii) possess similar isoelectric points, and (iii) high Mr ECGF can be converted into low Mr ECGF by mild treatment with acetic acid. Furthermore, the high Mr and low Mr forms of ECGF are not related to the cationic bovine brain fibroblast growth factor.

Growth of human foreskin fibroblasts in a serum-free, defined medium without platelet-derived growth factor.

The hormones which support growth, in vitro, of normal, neonatal human foreskin fibroblasts were determined. Whereas thrombin and hydrocortisone were major growth stimulants, platelet-derived growth factor was not. Human foreskin fibroblasts grew in a serum-free, biochemically defined medium consisting of epidermal growth factor (100 ng/ml), insulin (100 ng/ml), transferrin 10 micrograms/ml), thrombin (1 microgram/ml), ascorbic acid (10 micrograms/ml), and hydrocortisone (5 x 10(-5) M) in a 1:1 mixture of Dulbecco's modified Eagle's medium and Ham's F-12, supplemented with ovalbumin (1 mg/ml) and trace elements. The growth achieved was comparable to that achieved with 5% fetal bovine serum. Neither platelet-derived growth factor, fibroblast growth factor, nor somatomedin activity increased proliferation. This serum-free medium, designated Defined Medium F, provides a biochemically defined system for growth and limited subcultivation of human foreskin fibroblasts in vitro.

Serial propagation of human endothelial cells in vitro.

Human umbilical vein (HUV) endothelial cells were grown for 15 to 21 passages at a split ratio of 1:5 (at least 27 population doublings) on a human fibronectin (HFN) matrix in Medium 199 supplemented with fetal bovine serum (FBS) and endothelial-cell growth factor (ECGF). This system also permitted the growth of HUV endothelial cells at cell densities as low as 1.25 cells/cm2. In addition to delaying the premature senescence of HUV endothelial cells, ECGF also reduced the serum requirement for low-density HUV endothelial-cell growth; 2.5% serum and ECGF yields half-maximum growth as compared to high serum controls. Significant HUV endothelial-cell growth was also observed in medium supplemented with either ovine hypophysectomized (HYPOX) serum, plasma-derived serum (PDS), or HYPOX-PDS in the presence of ECGF, suggesting that neither the pituitary nor the platelet contributes to HUV endothelial-cell growth.