In situ distribution of the beta-subunit of platelet-derived growth factor receptor in nonneoplastic tissue and in soft tissue tumors.

The distribution of the beta-subunit of platelet-derived growth factor receptor (PDGFR-beta) was assessed by a sensitive immunoalkaline phosphatase technique using the monoclonal antibody PR7212. Frozen tissue sections of several nonneoplastic human tissues were stained along with 42 soft tissue sarcomas, 16 benign soft tissue proliferations, and 7 epithelial tumors. In all nonneoplastic tissue, there was intense labeling of cell processes of perivascular fibroblasts or pericytes in and about the walls of muscular blood vessels and of fibroblast cell processes around some glandular and ductal epithelia. No PDGFR-beta was found in the endothelial cells of muscular arteries and veins, but cells of uncertain identity within some capillaries were immunoreactive and the possibility that endothelial cells of some small capillaries express PDGFR-beta could not be excluded. In kidney there was strong labeling of glomerular mesangial cells and interstitial fibroblasts. Some histological types of soft tissue sarcomas were uniformly and strongly labeled with anti-PDGFR-beta, but other types were infrequently labeled or unreactive. The order of decreasing frequency and strength of labeling of the various types of benign and malignant soft tissue proliferations was as follows: benign fibromatosis and neurofibroma greater than malignant fibrous histiocytoma greater than liposarcoma greater than leiomyosarcoma greater than rhabdomyosarcoma. No tumor cell labeling was detected in epithelioid, synovial or clear cell sarcomas, leiomyomas, or carcinomas, but there was usually strong labeling of fibroblast and/or pericyte cell processes within tumor, especially around blood vessels. We conclude that PDGFR-beta is strongly expressed by vascular and stromal tissues of most tumors and normal organs and by tumor cells of several types of soft tissue tumors and proliferations, most notably those of fibroblastic origin.

Differences in inositol phosphate production in rat tail artery and thoracic aorta.

Pharmacomechanical coupling of vascular smooth muscle is believed to be mediated by inositol trisphosphate (IP3). Numerous studies have demonstrated an increase in inositol phosphates following tissue stimulation using either intact aortic strips or cultured cells from aorta. However, little information is available concerning inositol phosphates in vascular tissue other than in the large conduit vessel, the aorta. This present study was designed to examine the role of inositol phosphate metabolism following adrenergic stimulation of the muscular rat tail artery as compared to the aorta. Segments of thoracic aorta and tail artery from male Sprague Dawley rats were labeled with [3H]inositol and stimulated with norepinephrine. The norepinephrine concentration that resulted in a half-maximal stimulation of inositol phosphates was approximately 10(-6) M in both the aorta and tail artery. Although the sensitivity of the two vessels to norepinephrine stimulation were similar, the stimulated levels of IP, IP2, and IP3 were from 1 to 2 orders of magnitude greater in the tail artery than in aorta. IP production in aorta and tail artery was a linear function of time (from 0 to 30 min). Significant levels of IP3 (the 1,4,5-IP3 isomer as determined by HPLC) could only be detected in the tail artery and appeared to be produced optimally after 5 min of stimulation. The several order of magnitude increase in adrenergic stimulated inositol phosphate production in the tail artery was not due to either an increased magnitude of [3H]inositol incorporated into PI, PIP, and PIP2 or to a greater percentage of smooth muscle cells per unit tissue of the rat tail artery. We believe the results of this study demonstrate that the increased inositol phosphate metabolism in the vascular smooth muscle cells of the tail artery is an intrinsic property of the cell. Moreover, due to the significant levels of all inositol phosphates produced in the tail artery, this muscular artery may be a better model, as compared to the aorta, for future studies investigating pharmacomechanical coupling of vascular smooth muscle.

Functional and autoradiographic evidence for endothelin 1 receptors on human and rat cardiac myocytes. Comparison with single smooth muscle cells.

This study aimed to determine whether receptors for endothelin were present on the cardiac myocyte as well as on vascular smooth muscle cells. Low- and high-resolution autoradiography was performed using 125I-endothelin 1 on intact rat myocardium and samples of human ventricle obtained from explanted hearts at the time of transplant. In addition to specific binding to the smooth muscle of the blood vessel lumen, there was considerable binding associated with cardiac myocytes. To discover whether there was any functional correlate for this binding, muscle cells were isolated enzymatically from human and rat ventricle and from rat femoral artery, and their contractile characteristics were studied. Single cardiac cells were superfused with physiological saline at 32 degrees C, and their length change was displayed continuously on a chart recorder. Endothelin 1 had a pronounced effect on shortening in both rat and human myocytes. The contraction amplitude was approximately doubled in both cases, from 4.1 +/- 0.8% cell length to 8.1 +/- 1.3% for rat (mean +/- SEM, n = 9, p less than 0.001), and from 2.1 +/- 0.5% to 4.0 +/- 0.5% in human (n = 10, p less than 0.001). In rat, the magnitude of the effect was comparable to that of the alpha-adrenoceptor agonist phenylephrine. The maximum contraction amplitude of the human cells, produced by raising extracellular calcium to greater than 10 mM, was 11.4 +/- 1.1% cell length (n = 9), significantly greater than that produced by endothelin (p less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)

Tumor necrosis factor gene expression in human vascular intimal smooth muscle cells detected by in situ hybridization.

We used immunohistochemistry to detect tumor necrosis factor (TNF) and in situ hybridization to detect TNF messenger RNA (mRNA) in the intimal mesenchymal-appearing cells and in the medial smooth muscle cells of human atherosclerotic arteries. Medial smooth muscle cells showed localization of immunoreactive TNF on the cell surface and did not express TNF mRNA. Conversely, in intimal mesenchymal-appearing cells, TNF was localized in the cytoplasm and TNF mRNA was expressed by in situ hybridization. Thus 89% of intimal cells were immunohistochemically positive for TNF, 96% of them were positive by in situ hybridization, and 76% were positive for the smooth muscle cell marker, HHF35. Our results suggest that intimal mesenchymal-appearing cells are mostly, but not exclusively, derived from smooth muscle cells. These cells express TNF, whereas the medial smooth muscle cells in the atherosclerotic human arteries do not. The expression of TNF by these mesenchymal-appearing cells may have implications regarding the evolution of the atherosclerotic plaque.

Focal toxicity of oxysterols in vascular smooth muscle cell culture. A model of the atherosclerotic core region.

Cell necrosis and reactive cellular processes in and near the atherosclerotic core region might result from short-range interactions with toxic lipids. To model these interactions in cell culture, focal crystalline deposits of cholestane-3 beta,5 alpha,6 beta-triol, 25-OH cholesterol, and cholesterol were overlaid by a collagen gel, on which canine aortic smooth muscle cells were seeded. Oxysterols, but not cholesterol, caused focally decreased plating efficiency and cell death, leading to the formation of a persistent circular gap in the cell culture. Cholestanetriol was largely removed from the culture dishes over 3 to 4 weeks, whereas cholesterol and 25-OH cholesterol were largely retained. Smooth muscle cells were motile even in proximity to oxysterol crystals, with occasional suicidal migration toward the crystals. Chemoattraction, however, could not be demonstrated. Despite toxicity, cholestanetriol did not appear to alter the fraction of cells exhibiting 3H-thymidine uptake, even in areas close to the crystals. Thus, oxysterols may be toxic to some cells, without causing major impairment of the migration and proliferation of nearby cells. This would allow the simultaneous occurrence of cell death and proliferation evident in atherosclerosis.

Identification of a major GTP-binding protein in bovine aortic smooth muscle cytosol as the rhoA gene product.

In bovine aortic smooth muscle, about 50% of total GTP-binding activity was present in the cytosol fraction. A major GTP-binding protein (G protein) with a Mr value of about 21,000 (21K G) in this fraction was purified to near homogeneity and characterized. 21K G bound maximally about 0.8 mol of [35S]guanosine 5'-(3-O-thio)triphosphate/mol of protein with a Kd value of about 20 nM. 21K G showed GTPase activity with a turnover number of about 0.007 min-1. 21K G was ADP-ribosylated by botulinum ADP-ribosyltransferase and about 0.4 mol of ADP-ribose was maximally incorporated into 1 mol of 21K G. 21K G and the bovine brain rhoA gene product (rhoA p21) were eluted at the same retention time on C4 reversed-phase high performance liquid chromatography and migrated at the same positions on two-dimensional gel electrophoresis. These results indicate that the major G protein in bovine aortic smooth muscle cytosol is rhoA p21.

Distinct vascular and intestinal smooth muscle myosin heavy chain mRNAs are encoded by a single-copy gene in the chicken.

We examined whether the gizzard MHC gene is expressed in other smooth muscle tissues and, if so, whether there exist any smooth muscle MHC isoforms at the mRNA level. Northern blot analysis showed that the gizzard MHC gene was also expressed in the aorta and jejunum, but not in the pectoralis muscle or in fibroblasts. This indicates that striated muscle and non-muscle MHC isoforms are encoded in genes distinct from the smooth muscle MHC gene. Further, nuclease S1 mapping showed that the aortic smooth muscle MHC mRNA was distinct from the gizzard mRNA in the 5'-terminal coding region. Both of these mRNA species are expressed in the jejunum. These observations suggest that there exist at least two chicken smooth muscle MHC isoforms, vascular-type and intestinal-type, and that these isoforms are generated from a single-copy gene, probably by an alternative mRNA processing mechanism.

Effect of pinacidil on ion permeability in resting and contracted resistance vessels.

Pinacidil is thought to cause vasodilatation by opening K+ channels and consequent hyperpolarization. This proposed mechanism of action is based mainly on membrane potential measurements and 42K or 86Rb efflux experiments under resting conditions. We have measured the simultaneous effect of pinacidil on force and membrane potential in resting and norepinephrine-contracted rat mesenteric resistance vessels. Also the effect of pinacidil on 42K and 36Cl efflux and 22Na uptake in the absence and presence of norepinephrine was examined. From the membrane potential and ion flux measurements the ion permeabilities were calculated. In both resting and norepinephrine-contracted vessels, pinacidil caused a large hyperpolarization, the latter situation being associated with an almost complete relaxation. In both resting and norepinephrine-stimulated vessels, pinacidil caused a large increase in K+ permeability and a decrease in Cl-permeability, whereas no significant change of Na+ permeability was found. Our results suggest that pinacidil causes vasodilation due to hyperpolarization. The major cause for the hyperpolarization is an increase in K+ permeability.

Analysis of the physical state of cholesteryl esters in arterial-smooth-muscle-derived foam cells by differential scanning calorimetry.

The physical state of cholesteryl esters (CE) in the arterial-smooth-muscle-derived foam cells may contribute to the documented reduction in CE hydrolysis. The physical state of CE may also provide a potential enhancing mechanism for increased CE accumulation. To explore these concepts, we therefore examined the influence of alterations in CE and triacylglycerol (TG) content and their fatty acid composition on the thermotropic behaviour of these lipids by differential scanning calorimetry (d.s.c.). After exposure to cationized LDL (cLDL) or after infection with herpes simplex virus type I (HSV), smooth-muscle cells accumulated significant amounts of CE. The CE/TG ratio was significantly higher in cells treated with cLDL compared with HSV infection. TG content was unaffected by either treatment. However, the fatty acid profile of both CE and TG was significantly different between treatment groups, with the polyunsaturated fatty acid/saturated fatty acid (PUFA/SFA) ratio being significantly higher in cLDL-treated cells than in HSV-infected cells. The d.s.c.-generated thermograms of intact cells revealed that neutral lipids of both treatment groups were in the isotropic-liquid state, similar to the state of lipids derived from 'fatty streak' types of atherosclerotic lesions. Differences in the thermograms between HSV-infected and cLDL-treated cells can be ascribed to differences in the CE content and the fatty acid composition of CE and TG (PUFA/SFA ratio). Polarizing optical microscopy revealed the presence of isotropic lipids in both groups. Biochemical and physicochemical data confirm the lysosomal localization of engorged CE, and indicate that the cellular isotropic CE in these foam cells are in a physical state which favours enzymic hydrolysis.

Desmopressin is a potent vasorelaxant of aorta and pulmonary artery isolated from rabbit and rat.

Hypotension related to the intraoperative use of desmopressin acetate to improve platelet function following cardiopulmonary bypass has recently been reported. To investigate the direct vascular actions of this drug as a potential mechanism of its induced hypotension, cumulative, dose-dependent (3.7 X 10(-10) to 1.2 X 10(-7) M) effects of desmopressin were studied in isolated phenylephrine precontracted rings of rat and rabbit thoracic aorta and rabbit pulmonary artery. Desmopressin was a potent vasodilator of all vessel types studied with significant (P less than 0.05) vasodilation beginning at 7.5 X 10(-9) M. Vascular relaxation of all vessels was greater when the vascular endothelium was intact (P less than 0.05). Indomethacin potentiated (P less than 0.05) vascular relaxation in rat and rabbit aortic rings and partially inhibited (P less than 0.05) relaxation in rabbit pulmonary artery rings. Selective antagonists of vasopressin V1 (d(CH2)5-Tyr(Me)AVP, 1 X 10(-6) M) and V2 (d(CH2)5[D-Ile2,Ala-NH2(9)] AVP, 1 X 10(-6) M) receptors and of histamine H1 (diphenhydramine, 1 X 10(-5) M) and H2 (cimetidine 1 X 10(-5) M) receptors had no effect on desmopressin-induced relaxation of rat aortic rings. Chlorobutanol, the diluent in which desmopressin is supplied, was devoid of vascular effects. To study the effects of desmopressin on vascular cyclic GMP and cyclic AMP concentrations, a cultured bovine aortic smooth muscle--rat vascular smooth muscle coculture model was employed. Desmopressin (1 X 10(-7) and 1 X 10(-8) M) did not significantly alter control values of either cyclic nucleotide.(ABSTRACT TRUNCATED AT 250 WORDS)

Ultrastructural distribution of collagen types I-VI in aging human retinal vessels.

Retinal vessels from freshly enucleated human eyes were classified into three stages of the hyalinisation process. The distribution of collagen types I-VI within the vessel walls was studied ultrastructurally by immunogold labelling combined with the tissue preparation techniques of cryoultramicrotomy and London resin white embedding. Collagen types I, III, IV, V, and VI were found in large vessels, types I, IV, and V plus small amounts of III and VI in small vessels, and types I, IV, and V in capillaries. Hyalinised vessel walls consisted mainly of types I, IV, and VI collagen.

Simplified co-purification of vascular smooth muscle calponin and caldesmon.

A method for the co-purification of calponin and caldesmon from bovine aorta smooth muscle was established involving heat treatment, ammonium sulfate fractionation (0-30 and 30-50%), CM52 column chromatography, and Ultrogel AcA44 gel filtration. The yields of calponin and caldesmon from 200 g of smooth muscle were 17 and 32 mg, respectively. This simplified, fast, and efficient method for the purification of calponin and caldesmon constitutes a useful tool for studying thin filament-linked regulation of smooth muscle contraction.

Effect of buffer systems and pHi on the measurement of [Ca2+]i with fura 2.

The fluorescent probe, fura 2, is widely used to measure agonist-induced changes in intracellular calcium concentration ([Ca2+]i) in cultured cells. However, in many instances, the results obtained in the same cell type have differed from one study to the next. The possibility that such differences might be due to experimental conditions was examined by using fura 2 in four different cell types responding to appropriate agonists when the cells were incubated in either CO2/HCO3-- or HEPES-buffered media. Examined were: 1) the response of rat glomerular mesangial cells to arginine vasopressin, 2) the response of vascular smooth muscle cells to angiotensin II, 3) the response of adrenal glomerulosa cells to angiotensin II, and 4) the response of hypothalamic cells to insulin-like growth factor-1. In each cell type there was a significant difference in the pattern of agonist-induced change in [Ca2+]i when HEPES vs. CO2/HCO3- was used as the buffer system: in HEPES buffer, agonist addition led to a transient rise in [Ca2+]i followed by a fall to a sustained plateau 27 to 34 nM higher than the original basal value, whereas in CO2/HCO3- buffer, agonist addition led to an identical transient increase in [Ca2+]i followed by a fall to a value within 10 nM or less of the preagonist level. The plateau value of [Ca2+]i in the different buffers was examined in relationship to known differences in intracellular pH (pHi). It was found that measurements of [Ca2+]i with fura 2 were influenced by shifts in pHi that occur when cells are incubated in either HEPES-buffered or CO2/HCO3- media of differing pHo values. However, at any given value of pHi, the apparent [Ca2+]i measured in cells incubated in HEPES-buffered media was slightly higher than in cells incubated in CO2/HCO3- buffered media.

Nerve and drug-induced release of adenine nucleosides and nucleotides from rabbit aorta.

The purpose of the present study was to assess the possible sites which contribute to the nerve stimulation- and alpha-agonist-induced overflow of endogenous adenine nucleosides and nucleotides in vascular tissue. Particular attention was focused on the endothelium because it is known that endothelial cells have a high concentration of ATP and its metabolites. Segments of rabbit thoracic aorta, some denuded of endothelial cells by rubbing the lumen of the vessel, were incubated in organ baths and subjected to transmural nerve stimulation or stimulated with the alpha-1 adrenoceptor agonist methoxamine. A portion of the bathing solution was processed for the determination of norepinephrine by high-performance liquid chromatography with electrochemical detection and a portion for determination of ATP, ADP, AMP and adenosine by high-performance liquid chromatography with fluorescence detection. Transmural stimulation led to a significant release of both norepinephrine and the adenine nucleosides and nucleotides in a ratio of 1 to 350. Removal of the endothelium did not change the release of norepinephrine but reduced the release of adenosine and its derivatives by 90%. Methoxamine also caused the release of adenosine and the adenine nucleotides which was reduced by 93% by removal of the endothelium. Thus, the endothelium seems to be a major source of transmural nerve stimulation and alpha-agonist induced overflow of adenosine and adenine nucleotides. The endothelium is not the exclusive source of these purine congeners, however. In the case of transmural stimulation there is approximately 10% of the total which is independent of the endothelium.(ABSTRACT TRUNCATED AT 250 WORDS)

Comparison of spectrophotometric and biological assays for nitric oxide (NO) and endothelium-derived relaxing factor (EDRF): nonspecificity of the diazotization reaction for NO and failure to detect EDRF.

Endothelium-derived relaxing factor has been tentatively identified as nitric oxide (NO) partially on the basis of chemical assays. In the present study, saline solutions that were either bubbled continuously for 30 min with NO (NO/X) or prepared using 25 ml of NO/ml (NO/25) produced equivalent relaxations of segments of rabbit aorta which had the endothelium removed. NO solutions prepared using 0.1 ml of NO/ml (NO/0.1), and 3 mM sodium nitrite (NO2-) were significantly (P less than .05) less potent vasodilators than NO/X and NO/25 (order of potency: NO/X = NO/25 greater than NO/0.1 greater than NO2-). A novel automated method was developed to monitor nitrogen oxides using continuous-flow spectrophotometric detection (diazotization reaction). The absorbance readings for the solutions were NO/X greater than NO/25 = NO/0.1 = NO2-. Argon purging of NO/X, NO/25 and NO/0.1 solutions significantly (P less than .05) reduced (44-100%) the bioactivity of these solutions in inverse proportion to the initial volume of NO used in their preparation. In contrast, the absorbance values were unchanged, indicating that the chemical assay was not correlated with the bioassay. Varying the duration of NO gassing (1-30 min) significantly (P less than .05) increased the absorbance values, while having no effect on the vascular relaxations, elicited by the solutions. The diazotization assay did not detect nitrogen oxides released from cultured endothelial cells by bradykinin, ATP, or A23187, whereas the bioassay readily detected endothelium-derived relaxing factor release.(ABSTRACT TRUNCATED AT 250 WORDS)

Tissue inhibitor of metalloproteases (TIMP) is matrix associated in aortic tissue: report of a radioimmunoassay.

Tissue inhibitor of metalloproteinases (TIMP) is the major inhibitor of collagenase, gelatinase, proteoglycanase, stromelysin, and metalloelastases. An imbalance between proteases and inhibitors has been implicated in numerous disease processes including tumor invasion, rheumatoid arthritis, emphysema, and aortic aneurysm disease. The purpose of this investigation was to develop a polyclonal antibody to recombinant TIMP and establish an immunoassay to measure immunoreactive protein in normal and diseased tissues. A polyclonal antibody was produced in rabbit against recombinant human TIMP which was characterized and used to establish a radioimmunoassay. The assay was used to measure immunoreactive protein in fibroblast conditioned medium, human serum, and aortic extracts. There was more immunoreactive TIMP in matrix associated urea extracts than soluble salt extracts from human aorta, suggesting that TIMP is matrix associated. The sensitivity of the assay enables the specific measurement of this inhibitor in serum, fibroblast culture medium, and tissue extracts.

Rat aortic smooth muscle cells in culture express kallikrein, kininogen, and bradykininase activity.

We have studied rat vascular smooth muscle (VSM) cells in culture for the presence of key elements of the glandular kallikrein-kinin system. Direct radioimmunoassay (RIA) using antiserum against rat urinary kallikrein detected a glandular kallikrein-like enzyme (GKLE) in VSM cells and in media. VSM homogenates and culture media had kininogenase activity, generating kinins from dog kininogen. About half of the GKLE was enzymatically inactive which could be activated with trypsin. Kininogenase activity was inhibited completely by aprotinin but only 20% by soybean trypsin inhibitor (SBTI). Trypsin liberated kinins from homogenates and media, demonstrating that VSM cells contain kininogen. Homogenates and media rapidly degrade bradykinin. GKLE, kininogen, and bradykininase activity were all present in VSM cells grown in defined media that contain no serum, thus eliminating any contamination or artefacts from fetal calf serum in standard culture media. Blood vessels of the rat have been reported to contain GKLE. Our observations indicate that GKLE is synthesized by VSM cells, not deposited from plasma. Furthermore, VSM cells synthesize kininogen and bradykininase(s), the other key elements of the glandular kallikrein-kinin system. Thus it is possible that the system functions as an autocoid mechanism that regulates local vascular tone.

The effects of thrombin on bovine aortic endothelial and smooth muscle cells.

Recent evidence suggests that thrombin interacts with various cell types, stimulating cellular proliferation and protein and prostanoid production. To further delineate its role in vascular healing, we have studied the effects of thrombin on proliferation and matrix production by the cells of the vessel wall. The addition of thrombin (1 unit/ml) to cultures of bovine aortic smooth muscle cells resulted in an increase in cell proliferation (p less than 0.01) and number (p less than 0.03), whereas in cultures of bovine aortic endothelial cells thrombin produced a decrease in cell proliferation (p less than 0.01) and number (p less than 0.02). Thrombin also altered matrix composition in cultures of these cells. In both bovine aortic endothelial cells and bovine aortic smooth muscle cell cultures grown in the presence of thrombin, total protein content was significantly increased when compared to controls (p less than 0.03). In bovine aortic endothelial cell cultures the addition of thrombin resulted in a decrease in collagen content (p less than 0.01) and an increase in sulfated glycosaminoglycan content (p less than 0.02). In contrast, in bovine aortic smooth muscle cell cultures thrombin resulted in an increase in collagen content (p less than 0.03), whereas glycosaminoglycan content was unaffected. These findings suggest that thrombin may significantly influence vascular healing and function by altering cell number and matrix composition.

Characterization of thromboxane A2/prostaglandin H2 receptors in human vascular smooth muscle cells.

The present study utilizes a newly synthesized TXA2/PGH2 mimetic, I-BOP, to characterize the TXA2/PGH2 receptor in suspensions of cultured human vascular smooth muscle cells. [125I]-BOP bound in a saturable and specific manner (Kd = 2.6 +/- 0.6 nM; Bmax = 33,540 +/- 6,200 sites/cell; 69 fmoles/mg protein, n = 12). Competition binding assays were performed with [125I]-BOP and the TXA2/PGH2 receptor antagonists SQ29548, L657925 and L657926 and the receptor agonist U46619. I-BOP induced concentration-dependent increases in intracellular free calcium which were inhibited by SQ29548. The results provide radioligand binding evidence for the presence of a TXA2/PGH2 receptor in human vascular smooth muscle cells.

Immunocytochemical identification of beta-protein precursor in cultured vascular cells.

The immunocytochemical and immunochemical identification of beta-protein precursor in cultured vascular cells was undertaken using three types of antibodies to the synthetic predictive peptides (extracellular portion; 275-286, beta-protein portion; 597-620, C-terminal portion; 681-695) of beta-protein precursor. Monoclonal antibody directed toward the beta-protein portion stained the surface membrane of the cultured endothelial cells as well as cytoplasmic organelles. Immunoblotting of the subcellular fractions of the cell homogenate with three antibodies revealed that the plasma membrane associated beta-protein precursor consists of 105-130 kDa protein complexes and that the mitochondria-microsome-associated beta-protein consists of related 30-67 kDa protein complexes. The immunoreactivity of the protein bands was blocked by pretreating the monoclonal antibody with bovine serum albumin-conjugated beta-protein. These results indicate that the form of the beta-protein precursor or beta-protein-related components in cultured vascular cells is heterogeneous in terms of molecular size and subcellular localization.