Semiquantitative histochemical investigation of lysosomal enzyme activities in the aortic endothelial cells of rats with renal hypertension

To obtain information about changes in lysosomal enzyme activities in the aortic endothelial cells in arterial hypertension, semi-quantitative histochemical investigations of acid phosphatase (Ac-Pase) and N-acetyl-beta-glucosaminidase (NAGase) activities in the aorta of rats with renal hypertension were performed on "H?utchen" monolayer preparations. The aortic endothelial cells in renal hypertensive animals showed increased Ac-Pase and NAGase activities compared with those in control normotensive rats and tended to increase with advancing age. These results, like our previous data from spontaneously hypertensive rats (SHR), indicated that degeneration of endothelial cells, expressed by increased lysosomal enzyme activity, was accelerated by hypertension, and the possible participation of genetic factors in the activation of these enzymes in SHR was ruled out. Increased lysosomal enzyme activity may be involved in the development of other hypertensive vascular changes.     

High-density-lipoprotein-induced cholesterol efflux from arterial smooth muscle cell derived foam cells: functional relationship of the cholesteryl ester cycle and eicosanoid biosynthesis

Eicosanoids have been implicated in the regulation of arterial smooth muscle cell (SMC) cholesteryl ester (CE) metabolism. These eicosanoids, which include prostacyclin (PGI2), stimulate CE hydrolytic activities. High-density lipoproteins (HDL), which promote cholesterol efflux, also stimulate PGI2 production, suggesting that HDL-induced cholesterol efflux is modulated by eicosanoid biosynthesis. To ascertain the role of endogenously synthesized eicosanoids produced by arterial smooth muscle cells in the regulation of CE metabolism, we examined the effects of cyclooxygenase inhibition on CE hydrolytic enzyme activities, cholesterol efflux, and cholesterol content in normal SMC and SMC-derived foam cells following exposure to HDL and another cholesterol acceptor protein, serum albumin. Alterations of these activities were correlated with cholesterol efflux in response to HDL or bovine serum albumin (BSA) in the presence or absence of aspirin. HDL stimulated PGI2 synthesis and CE hydrolases in a dose-dependent manner. Eicosanoid dependency was established by demonstrating that HDL-induced acid cholesteryl ester hydrolase (ACEH) activity was blocked by aspirin. CE enrichment essentially abrogated HDL-induced PGI2 production in cells which also exhibited decreased lysosomal and cytoplasmic CE hydrolase activities. In CE-enriched cells whose cytoplasmic CE pool was metabolically labeled with [3H]oleate or cLDL containing [3H]cholesteryl linoleate, aspirin did not alter HDL- or BSA-induced net CE hydrolysis or efflux, respectively. Finally, aspirin treatment did not alter the mass of either free or esterified cholesterol content of untreated or CE-enriched SMC following exposure to acceptor proteins. These data demonstrated that CE enrichment significantly reduced HDL-induced activation of CE hydrolytic activity via inhibition of endogenous PGI2 production.(ABSTRACT TRUNCATED AT 250 WORDS)     

Influence of exercise training on reactivity and contractility of arterial strips from hypertensive rats

To determine whether the lowered resting blood pressure values in hypertensive rats were associated with changes in vascular reactivity and/or contractility, helical strips were obtained from different arteries from exercise-trained (running and swimming) hypertensive rats and from running normotensive rats. Each subgroup contained nontrained controls for comparison. Changes in muscle aerobic enzymes, maximum O2 consumption, and body weight indicated that a training effect had occurred. When norepinephrine was added in a dose-response manner to the testing chamber containing helical strips from either the descending aorta, femoral artery, or renal artery, there were no significant differences in reactivity (the negative log dose-response curve) attributable to the training of hypertensive or normotensive groups. However, the trained hypertensive rats exhibited a trend for lower contractility values (dyn/mm2) in some but not all of the strips tested. From these results, we concluded that the lowered resting blood pressures associated with exercise training of hypertensive rats could not be explained by changes in vascular reactivity of their arterial strips.     

Effects of streptozotocin-induced hyperglycemia on agonist-stimulated phosphatidylinositol turnover in rat aorta

Altered vascular sensitivity and responsiveness has been previously described in various stages of experimental diabetes mellitus. Increases in membrane bound Ca2+ and intracellular calcium in diabetic aorta have been postulated to explain excitation-coupling dysfunction in diabetic vascular smooth muscle (VSM). Receptor-mediated phosphatidylinositol (PI) hydrolysis is known to activate VSM contraction; thus contractile changes in diabetic aorta could be functionally linked to abnormal PI turnover. To evaluate this possibility, parallel experiments were undertaken to study contractility and receptor-stimulated PI turnover with norepinephrine (NE), phenylephrine (PE), and serotonin (5-HT). At 7 and 28 days following injection of streptozotocin with production of the hyperglycemic state, aortas were harvested for contractile and PI turnover experiments. No differences in the contractile cumulative dose responses or receptor-mediated PI turnover were measured in the 7 day group. At 28 days, vascular supersensitivity and increased responsiveness were observed. PI hydrolysis in basal and agonist-stimulated aorta was, however, markedly decreased at 28 days. These findings suggest that mobilization and utilization of Ca2+ during contraction occur independently of receptor-stimulated PI hydrolysis in aorta from hyperglycemic rats. The duration of hyperglycemia also significantly effects contractility and PI turnover in rat aorta.     

Proliferation kinetics of aortic smooth muscle cell populations: comparison of normotensive and spontaneously hypertensive rats

An in vitro autoradiographic study of the proliferation of smooth muscle cells (SMC) from the aorta of normotensive and spontaneously hypertensive rats has been made. It was found, in primary culture, that SMC of spontaneously hypertensive rats entered proliferation at 2-2.5 days later than those from normotensive animals. As revealed by their very intensive labelling, a subpopulation of SMC with a high turnover rate was found in primary culture. In freshly isolated SMC from normotensive rat aorta, a subpopulation in S phase was detected, but we failed to detect it in aortae from spontaneously hypertensive rats. A difference in proliferative behaviour was also observed in subcultures of SMC from rats of both strains.     

Proliferation kinetics of aortic smooth muscle cell populations: comparison of normotensive and spontaneously hypertensive rats

Abstract. An in vitro autoradiographic study of the proliferation of smooth muscle cells (SMC) from the aorta of normotensive and spontaneously hypertensive rats has been made. It was found, in primary culture, that SMC of spontaneously hypertensive rats entered proliferation at 2-2.5 days later than those from normotensive animals. As revealed by their very intensive labelling, a subpopulation of SMC with a high turnover rate was found in primary culture. In freshly isolated SMC from normotensive rat aorta, a subpopulation in S phase was detected, but we failed to detect it in aortae from spontaneously hypertensive rats. A difference in proliferative behaviour was also observed in subcultures of SMC from rats of both strains.     

Noradrenaline induces the polyploidization of smooth muscle cells: the synergism of second messengers

The effect of noradrenaline (NA) on DNA replication of cultured smooth muscle cells (SMC) isolated from rat aorta was examined. It was found that 10 microM NA significantly increased (approximately by twofold) the frequency of tetraploid cells. Cultivation of 4C cells isolated by flow cytometric cell sorting revealed that they were true polyploid cells. This receptor-mediated effect of NA was blocked only by simultaneous action of alpha- and beta-adrenoreceptor antagonists. SMC polyploidization was also stimulated by simultaneous application of direct activators of "second messenger" systems forskolin and phorbolmyristate-acetate. Thus, NA may be one of mediators of the "hypertensive" response of vessel wall SMC, which probably occurs due to synergism of two second messenger systems.     

Serum deprivation induces a unique hypercontractile phenotype of cultured smooth muscle cells

Chronic asthma is characterized by hypertrophyand hyperplasia of airway smooth muscle cells (SMC) that limit airflowby a geometric effect. Whether contractility of airway SMC is altered is not clear. Cultured cells were used as a model of hyperplasia. Phenotypic changes seen indicated conversion to a synthetic, weakly contractile type. At confluence, although limited reversal of proteinchanges was seen, no restoration in contractility occurred. Phenotypicmodulation of postconfluent cultured airway SMC under prolonged serumdeprivation (arrested cells) is reported here. Two phenotypicallydistinct groups of cells were identified in primary airway SMCcultures: 1) elongatedspindle-shaped cells, which expressed large amounts of smooth musclecontractile and regulatory proteins, and2) flat and stellate cells, whichexpressed very little. The first group showed a surprising shorteningcapacity and a velocity that was even greater than that of the freshly isolated cells, whereas the second group became spherical and noncontractile. Even more surprising was that the myosin heavy chain(MHC) isoform (SM-B) generally said to be associated with the highershortening velocity disappeared from the cell, while the content of thekey rate-limiting regulating enzyme, myosin light chain kinase (MLCK),increased 30-fold. We conclude that a functional, contractile phenotypeof airway SMC can be obtained by prolonged serum deprivation. Wespeculate that the increased contractility could be the result ofincreased phosphorylation of the 20-kDa myosin light chain resultingfrom increased content of smooth muscle MLCK rather than any increasein endogenous MHC ATPase activity. This model may be useful for studyof SMC differentiation and contraction.

     

Reactivity of isolated arteries from hypertensive rabbits]

Isolated vessels (aorta thoracica, a pulmonalis, a. femoralis, a. renalis) of neurogenous-interoceptive and nephrogenous hypertensive rabbits showed a changed sensitivity to several vasoactive agents. An increased reactivity to noradrenaline, histamine, and serotonin in the aorta of neurogenous hypertensive rabbits, in the a. pulmonalis of neurogenous and renal hypertensive rabbits and in the a. femoralis of renal hypertensive animals in comparison with controls could be shown. Also registered was a hyperactivity to BaCl2 and KCl. All vessels of hypertensive rabbits were hyporeactive to angiotensin. They increased vascular reactivity was seen already in the 3rd week after removal of one kideny and pressoric receptors respectively. It is supposed that a "true supersensitivity" of the vascular smooth muscle cells of the hypertensive arteries does exist.     

Blood pressure regulates the activity and function of the Na-K-2Cl cotransporter in vascular smooth muscle

The Na-K-2Cl cotransporter (NKCC1) is one of several transporters that have been linked to hypertension, and its inhibition reduces vascular smooth muscle tone and blood pressure. NKCC1 in the rat aorta is stimulated by vasoconstrictors and inhibited by nitrovasodilators, and this is linked to the contractile state of the smooth muscle. To determine whether blood pressure also regulates NKCC1, we examined the acute effect of hypertension on NKCC1 in rats after aortic coarctation. In the hypertensive aorta (28-mmHg rise in mean blood pressure), an increase in NKCC1 activity (measured as bumetanide-sensitive (86)Rb efflux) was apparent by 16 h and reached a plateau of 62% greater than control at 48 h. In contrast, there was a slight decrease in NKCC1 activity in the hypotensive aorta (21% decrease in mean blood pressure). Measurement of NKCC1 mRNA by real-time PCR revealed a fivefold increase in the hypertensive aorta compared with the hypotensive aorta or sham aorta. The inhibition by bumetanide of isometric force response to phenylephrine was significantly greater in the hypertensive aorta than in the control aorta or hypotensive aorta. We conclude that NKCC1 in rat aortic smooth muscle is regulated by blood pressure, most likely through changes in transporter abundance. This upregulation of NKCC1 is associated with a greater contribution to force generation in the hypertensive aorta. This is the first demonstration that NKCC1 in vascular smooth muscle is regulated by blood pressure and indicates that this transporter is important in the acute response of vascular smooth muscle to hypertension.     

Interpretation of inverse acclimation to temperature

Summary In kidney of goldfish acclimated to 5, 15 and 25° C the peroxisomal enzyme peroxidase and the peroxisomal and cytoplasmic matrix enzyme catalase showed inverse (Precht type 5) acclimation. Peroxisomal D-amino acid oxidase and lysosomal acid phosphatase were unchanged in activity (Precht type 4).A review of literature data on enzyme acclimation patterns shows that generally enzymes concerned with energy liberation — enzymes of glycolysis, hexose monophosphate shunt, TCA cycle and electron transport, also Na, K-ATPase and the synthetic amino acyl transferase — show compensatory acclimation to temperature (Precht type 3). Enzymes for degradation of metabolic intermediates and products such as peroxisomal and lysosomal enzymes, Mg-ATPase, acetylcholine esterase, show no or inverse acclimation to temperature. Changes in digestive enzymes depend on state of nutrition.Support from Research Grant GB 4005 from National Science Foundation is acknowledged.     

Rho expression and activation in vascular smooth muscle cells

Phenotypic modulation of smooth muscle cells (SMC) involves dramatic changes in expression and organization of contractile and cytoskeletal proteins, but little is known of how this process is regulated. The present study used a cell culture model to investigate the possible involvement of RhoA, a known regulator of the actin cytoskeleton. In rabbit aortic SMC seeded into primary culture at moderate density, Rho activation was high at two functionally distinct time-points, first as cells modulated to the "synthetic" phenotype, and again upon confluence and return to the "contractile" phenotype. Rho expression increased with time, such that maximal expression occurred upon return to the contractile state. Transient transfection of synthetic state cells with constitutively active RhoA (Val14RhoA) caused a reduction in cell size and reorganization of cytoskeletal proteins to resemble that of the contractile phenotype. Actin and myosin filaments were tightly packed and highly organised while vimentin localised to the perinuclear region; focal adhesions were enlarged and concentrated at the cell periphery. Conversely, inhibition of endogenous Rho by C3 exoenzyme resulted in complete loss of contractile filaments without affecting vimentin distribution; focal adhesions were reduced in size and number. Treatment of synthetic state SMC with known regulators of SMC phenotype, heparin and thrombin, caused a modest increase in Rho activation. Long-term confluence and serum deprivation induced cells to return to a more contractile phenotype and this was augmented by heparin and thrombin. The results implicate RhoA for a role in regulating SMC phenotype and further show that activation of Rho by heparin and thrombin correlates with the ability of these factors to promote the contractile phenotype.     

Interaction of arterial cells. I. Endothelial cells alter cholesterol metabolism in co-cultured smooth muscle cells

Results of previous in vivo experiments indicated that the presence of arterial endothelium modifies cholesteryl ester (CE) metabolism and the retention of low density lipoproteins (LDL) in injured arteries. We describe herein the effects of bovine arterial endothelial cells (ENDO) on the CE cycle, fluid phase endocytosis, and cell proliferation in co-cultured bovine arterial smooth muscle cells (SMC). Following several days of cultivation on confluent SMC, ENDO were removed from SMC by treatment of the co-cultures with 1.0% collagenase (type II). Removal of only ENDO from the co-culture dishes was confirmed by immunofluorescent staining for Factor VIII antigen, hemotoxylin-eosin staining, and biochemical analyses. We observed that ENDO grown to 75% confluency on confluent SMC induced: 1) a reduction of CE hydrolysis as a result of decreased lysosomal CE hydrolytic activity in SMC as compared to SMC cultured alone; and 2) an increase in the rate of incorporation of labeled oleate into CE as a result of increased acyl CoA:cholesterol O-acyltransferase activity in SMC as compared to SMC cultured alone. Neither endothelial cell-derived culture media (ECDM) nor fibroblasts modulated CE metabolism in co-cultured SMC. Additional experiments showed that the presence of endothelial cells or ECDM decreased the proliferation of co-cultured SMC by 50%, but enhanced the endocytotic rate of labeled sucrose into SMC threefold. Results of experiments described herein demonstrate that, in addition to providing a thrombo-resistant surface and regulating permeability, endothelial cells may also serve to modulate cholesteryl ester metabolism in smooth muscle cells derived from the arterial wall.     

Accumulation of 8-oxo-deoxyguanosine in cardiovascular tissues with the development of hypertension

Accumulation of 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxo-dG) in DNA is associated with mutagenesis and cell death. Little attention has been given to the biological significance of 8-oxo-dG accumulation in cardiovascular tissues during the different stage of hypertension and its prevention. We thus investigated the levels and localization of both 8-oxo-dG accumulation and expression of MTH1, which hydrolyzes 8-oxo-dGTP to prevent its incorporation into DNA, in the thoracic aorta prepared from stroke-prone spontaneously hypertensive rats (SHRSP) and age-matched Wister-Kyoto rats (WKY), aged 5-32 weeks. HPLC-MS/MS analysis revealed that the levels of nuclear 8-oxo-dG in the aorta increased significantly in SHRSP, but not WKY, with aging. Immunohistochemical study revealed that both TUNEL reactivity and 8-oxo-dG immunoreactivity were increased in smooth muscle cells (SMC) and endothelial cells (EC) of the aorta with aging, and they exhibited similar distributions in serial sections. The number of 8-oxo-dG and TUNEL positive cells in EC, but not in SMC, was significantly higher in SHRSP than WKY at 32 weeks of age. In contrast, the expression levels of Mth1mRNA and MTH1 protein in the aorta were similarly decreased both in SHRSP and WKY with aging. However, the number of MTH1 expressing EC was remarkably increased in the older SHRSP compared to the younger ones or age-matched WKY. Hypertension significantly increased not only 8-oxo-dG accumulation but also the expression of MTH1 in EC of the aorta during aging. While accumulation of 8-oxo-dG in SMC of the aorta was slightly increased, the expression of MTH1 protein in SMC was rather decreased by hypertension. We thus suggest that MTH1 may protect EC in the aorta from the oxidative damage increased by hypertension.     

Gastropathy and defense mechanisms in common bile duct ligated portal hypertensive rats

Portal hypertensive gastropathy is associated with a broad spectrum of gastric mucosal damage inspite of decreased gastric acid secretion, suggestive of compromised endogenous protective mechanisms. To determine the mechanisms of damage in portal hypertensive gastropathy we measured lipid peroxidation, glutathione, antioxidant and lysosomal enzymes in gastric mucosal homogenates from male Wistar rats with elevated intrasplenic pulp pressure, eighteen days after common bile duct ligation. Thiobarbituric acid-reactive substances and lysosomal enzymes (-glucuronidase and acid phosphatase) were increased in the common bile duct ligated group as compared to the sham-operated group. The levels of antioxidant defense enzymes, superoxide dismutase, glutathione peroxidase, catalase and glutathione were decreased as compared to the sham-operated controls. Pre-operative vitamin E administration decreased mucosal lipid peroxidation increased the levels of antioxidant defense enzymes and lowered the lysosomal enzymes. The plasma vitamin E levels in this group were lower when compared to animals receiving it post-operatively. In conclusion, free radical and lysosomal enzyme mediated damage may play a role in portal hypertensive gastropathy.     

Effect of emotional stress on the contractility, adrenoreactivity and calcium sensitivity of smooth muscles of the portal vein in spontaneously hypertensive rats

The emotional stress decreased contractility and adrenoreactivity in normotensive rats, while in spontaneously hypertensive rats (SHR) the changes were less pronounced. The changes in adrenoreactivity, as well as increased permeability of smooth muscle cells for calcium and reduced reactivity to exogenous calcium revealed in hypertensive animals contribute to high resistance of portal vein smooth muscles to stress.     

Significance of various cholesterol, ester hydrolases in aorta.

This study for the first time has simultaneously assayed three cholesteryl ester hydrolase activities located in the various subcellular fractions (lysosomal, microsomal, and soluble) of the aorta and their significance in aortic cholesteryl ester accumulation during genetic and cholesterol-fed atherosclerosis is assessed. When the enzyme activities in the aorta of age-matched atherosclerosis-susceptible White Carneau and atherosclerosis-resistant Show Racer pigeons were compared, a decrease in microsomal cholesteryl ester hydrolase activity was found during the period of cholesteryl ester accumulation. However, under cholesterol-fed conditions (which further increase cholesteryl ester accumulation), an increase in lysosomal cholesteryl ester hydrolase activity and a decrease in soluble cholesteryl ester hydrolase activity was found. These studies have documented differences in response in specific cholesteryl ester hydrosases of the aorta to genetic and cholesterol-fed atherogenesis and warrant further studies to investigate the effect of hormonal and dietary factors on the activities of these enzymes.     

成年SHR动脉平滑肌细胞端粒酶活性和周期蛋白D1的研究

为探索自发性高血压大鼠动脉平滑肌细胞(SMC)增生的机理,采用3H-TdR标记、端粒酶活性以及细胞周期蛋白D1基因RT-PCR检测分别对10周龄SHR、WKY大动脉及其体外分离的SMC进行研究。成年、高血压状态的SHR胸、腹主动脉段端粒酶有高的活性,而同龄、同源WKY大鼠者则没有。从成年SHR腹主动脉段分离的SMC3H-TdR的掺入率比WKY者约提高了43％。成年高血压状态下的SHR腹主动脉SMC细胞周期蛋白D1基因的RT-PCR的产物与WKY者相差不明显。     

Androgens regulate cell growth, lysosomal hydrolases and mitochondrial cytochrome c oxidase in mouse aorta

The aorta in male mice shows higher activities of several lysosomal hydrolases and of cytochrome c oxidase, an inner mitochondrial membrane enzyme, than in female mice. Orchiectomy abolishes this sex difference, whereas testosterone administration induces an accretion of RNA and protein and elevated activities of lysosomal hydrolases and cytochrome c oxidase. However, the outer mitochondrial membrane enzyme monoamine oxidase is unaffected by sex, orchiectomy or testosterone. Thus, androgens regulate cell growth and enzymes associated with lysosomes and the inner mitochondrial membrane.     

Altered response of vascular smooth muscle cells to exogenous biochemical stimulation in two- and three-dimensional culture

Removal of vascular smooth muscle cells (SMC) from their native environment alters the biochemical and mechanical signals responsible for maintaining normal cell function, causing a shift from a quiescent, contractile phenotype to a more proliferative, synthetic state. We examined the effect on SMC function of culture on two-dimensional (2D) substrates and in three-dimensional (3D) collagen Type I gels, including the effect of exogenous biochemical stimulation on gel compaction, cell proliferation, and expression of the contractile protein smooth muscle alpha-actin (SMA) in these systems. Embedding of SMC in 3D collagen matrices caused a marked decrease in both cell proliferation and expression of SMA. The presence of the extracellular matrix modulated cellular responses to platelet-derived growth factor BB, heparin, transforming growth factor-beta1, and endothelial cell-conditioned medium. Cell proliferation and SMA expression were shown to be inversely related, while gel compaction and SMA expression were not correlated. Taken together, these results show that SMC phenotype and function can be modulated using biochemical stimulation in vitro, but that the effects produced are dependent on the nature of the extracellular matrix. These findings have implications for the study of vascular biology in vitro, as well as for the development of engineered vascular tissues.