Restenosis in human vein bypass grafts

ROLE OF HYALURONAN IN PATHOPHYSIOLOGY OF VASCULAR1 ENDOTHELIAL AND SMOOTH MUSCLE CELLS

One of the main components of the extracellular matrix (ECM) of the blood vessel is hyaluronic acid or hyaluronan (HA). It is a ubiquitous polysaccharide belonging to the family of glycosaminoglycans, but, differently from other proteoglycan-associated glycosaminoglycans, it is synthesized on the plasma membrane by a family of three HA synthases (HAS). HA can be released as a free polymer in the extracellular space or remain associated with the membrane in the pericellular space via HAS or via binding proteins. In fact, several cell surface proteins can interact with HA working as HA receptors like CD44, RHAMM, and LYVE-1. In physiological conditions, HA is localized in the glycocalyx and in the adventitia and is responsible for the loose and hydrated vascular structure favoring flexibility and allowing the stretching of vessels in response to mechanical forces. During atherogenesis, ECM undergoes dramatic alterations which have a crucial role in lipoprotein retention and in triggering multiple signaling cascades that wake up cells from their quiescent status. HA becomes highly present in the media and neointima favoring smooth muscle cells dedifferentiation, migration, and proliferation that strongly contribute to vessel wall thickening. Further, HA is able to modulate immune cell recruitment both within the vessel wall and on the endothelial cell layer. This review is focused on the effects of HA on vascular cell behavior.

Role of hyaluronan in atherosclerosis: Current knowledge and open questions

Hyaluronan (HA), HA synthases (HAS) and HA receptors are expressed during the progression of atherosclerotic plaques. HA is thought to promote the activated phenotype of local vascular smooth muscle cells characterized by increased migration, proliferation and matrix synthesis. Furthermore, HA may modulate the immune response by increasing macrophage retention and by promoting the polarization of Th1 cells that enhance macrophage driven inflammation as well. The pro-atherosclerotic functions of HA are opposed by the presence of HA in the glycocalyx where it critically contributes to anti-thrombotic and anti-inflammatory function of the glycocalyx. Patients with atherosclerosis often are affected by comorbidities among them diabetes mellitus type 2 and inflammatory comorbidities. Diabetes mellitus type 2 likely has close interrelations to HA synthesis in atherosclerosis because the activity and transcription of HA synthases are sensitive to the intracellular glucose metabolism, which determines the substrate availability and the posttranslational modifications of HA synthases. The pro-inflammatory comorbidities aggravate the course of atherosclerosis and will affect the expression of the genes related to HA biosynthesis, -degradation, HA-matrix assembly or signaling. One example being the induction of HAS3 by interleukin-1β and other cytokines. Furthermore complications of atherosclerosis such as the healing after myocardial infarction also involve HA responses.

Intimal hyperplasia following implantation of helical-centreline and straight-centreline stents in common carotid arteries in healthy pigs: influence of intraluminal flow

Intimal hyperplasia (IH) is a leading cause of obstruction of vascular interventions, including arterial stents, bypass grafts and arteriovenous grafts and fistulae. Proposals to account for arterial stent-associated IH include wall damage, low wall shear stress (WSS), disturbed flow and, although not widely recognized, wall hypoxia. The common non-planarity of arterial geometry and flow, led us to develop a bare-metal, nitinol, self-expanding stent with three-dimensional helical-centreline geometry. This was deployed in one common carotid artery of healthy pigs, with a straight-centreline, but otherwise identical (conventional) stent deployed contralaterally. Both stent types deformed the arteries, but the helical-centreline device additionally deformed them helically and caused swirling of intraluminal flow. At sacrifice, one month post stent deployment, histology revealed significantly less IH in the helical-centreline than straight-centreline stented vessels. Medial cross-sectional area was not significantly different in helical-centreline than straight-centreline stented vessels. By contrast, luminal cross-sectional area was significantly larger in helical-centreline than straight-centreline stented vessels. Mechanisms considered to account for those results include enhanced intraluminal WSS and enhanced intraluminal blood-vessel wall mass transport, including of oxygen, in the helical-centreline stented vessels. Consistent with the latter proposal, adventitial microvessel density was lower in the helical-centreline stented than straight-centreline stented vessels.

Adenovirus-mediated gene transfer of fibromodulin inhibits neointimal hyperplasia in an organ culture model of human saphenous vein graft disease

Poor long-term graft patency remains a major limitation of coronary artery bypass grafting using saphenous vein aortocoronary grafts. Neointimal hyperplasia (NIH) represents the principal mechanism of graft failure; a substantial body of evidence implicates transforming growth factor-beta1 (TGF-beta1) in the pathogenesis of NIH. The small leucine-rich proteoglycans decorin and fibromodulin possess TGF-beta-antagonist activity to differing extents and with differing avidities for the isoforms of TGF-beta. We compared their ability to inhibit NIH in an ex vivo model of human saphenous vein organ culture following adenovirus-mediated gene transfer. Surgically prepared human saphenous vein segments received adenovirus expressing fibromodulin (Ad5-Fmod), decorin (Ad5-Dcn), beta-galactosidase (Ad5-lacZ) or vehicle-only. Computerized morphometry 14 days after infection revealed significantly reduced neointimal area, neointimal thickness and intima/media ratio in Ad5-Fmod- and Ad5-Dcn-infected veins. Each parameter was significantly smaller in Ad5-Fmod- than in Ad5-Dcn-exposed segments. Fibrillar collagen content and levels of biologically active TGF-beta were lower in vessels receiving Ad5-Fmod or Ad5-Dcn than in those receiving Ad5-lacZ or vehicle-only. Fibromodulin is a more potent inhibitor of NIH in cultured human saphenous vein than decorin and offers potential therapeutic benefits in saphenous vein graft failure (and possibly in other forms of accelerated atherosclerosis) by reduction of associated neointima formation.

Long-term histological and immunohistochemical findings in human venous aorto-coronary bypass grafts

The aim of the present study was to analyse the long-term histology and immunohistochemistry of the plaque composition and cellular infiltration of SVGs (saphenous vein grafts) containing metallic stents. Percutaneous interventions in SVGs have a worse long-term clinical outcome compared with stenting of coronary arteries. Whether the pathological features of old degenerated SVGs condition the efficacy of drug-eluting stents is also unknown. Histology and immunohistochemistry of seven SVGs in the coronary circulation containing 12 metallic stents implanted 5 to 61 months before retrieval were analysed in patients undergoing a second aorto-coronary bypass surgery at a mean time of 11±6 years. The pathology of the old SVGs showed an important thrombotic and necrotic composition of the plaque, with plaque protrusion through the stent wires and a fragile media layer that could easily be damaged by stent placement with subsequent neointimal proliferation; indeed, stents with medial fracture had significantly greater mean neointimal thickness than those without (1.37±0.68 compared with 0.81±0.47 mm2; P<0.02). Neointimal inflammatory cell density correlated with increased neointimal thickness in patent vessels (r2=0.43, P<0.001). Immunostaining showed the total absence of ERs (oestrogen receptors), a poor cellular proliferative state as indicated by the presence of the Ki-67 marker, and persistent inflammation close to the stent wires as revealed by KP-1 and ACE (angiotensin-converting enzyme) immunostaining in most inflammatory cells in contact with the metal. These pathological findings may contribute to the more severe progression of disease and worse clinical outcome observed after conventional stented angioplasty of SVGs and might also interfere with the efficacy of drug-eluting stents in this specific atherosclerotic milieu.

Transforming growth factor-beta1 antisense treatment of rat vein grafts reduces the accumulation of collagen and increases the accumulation of h-caldesmon

BACKGROUND

The main cause of occlusion and vein graft failure after peripheral and coronary arterial reconstruction is intimal hyperplasia. Transforming growth factor beta-1 (TGF-beta1) is a pleiotropic cytokine known to have powerful effects on cell growth, apoptosis, cell differentiation, and extracellular matrix synthesis.

METHODS

To investigate the role of TGF-beta1 in intimal hyperplasia, we used adenovirus to deliver to superficial epigastric vein messenger RNA (mRNA) antisense to TGF-beta1 (Ad-AST) or the sequence encoding the bioactive form of TGF-beta1 (Ad-BAT). Infection with "empty" virus was used as a control (Ad-CMVpLpA). The treated vein was then used for an interposition graft into rat femoral artery. Grafts were harvested at 1, 2, 4, and 12 weeks and formalin-fixed for histologic studies or placed in liquid nitrogen for mRNA studies.

RESULTS

Ad-AST treatment resulted in an overall reduction of TGF-beta1 expression (P = .001), and Ad-BAT treatment resulted in an overall increase in TGF-beta1 expression (P = .007). Histologic analysis showed Ad-AST caused reduced collagen build up in the neointima at 12 weeks (P = .0001). Immunohistochemical staining for h-caldesmon at 12 weeks indicated Ad-AST increased smooth muscle cells throughout the vessel wall compared with Ad-CMVpLpA (P = .0024) or Ad-BAT (P = .04). Ad-AST also resulted in reduced CD68-positive cells in the media/adventitia (P = .005 vs Ad-CMVpLpA, P = .01 vs Ad-BAT). To further understand how Ad-AST was influencing the build up of collagen, we performed quantitative polymerase chain reaction on complimentary DNA (cDNA) from homogenates of the vein grafts. Tissue inhibitor of matrix metalloproteinase-1 (TIMP-1) was increased at 1 week by Ad-BAT (P = .048 vs Ad-CMVpLpA) and decreased by Ad-AST at all time points (P </= .038). The mRNA for collagen-1 alpha-1 was decreased by Ad-AST at 2, 4, and 12 weeks (P < or = .05) and increased by Ad-BAT at 1 week (P = .01).

CONCLUSIONS

TGF-beta1 antisense treatment of vein grafts prevents the accumulation of collagen in the neointima in part by (1) changing the proportions of the cell types populating the vein graft wall, (2) reducing the mRNA for TIMPs, and (3) reducing the amount of collagen mRNA. With the Ad-AST and Ad-BAT treatments, we have been able to tip the maturation of the vein graft toward positive remodeling (artery-like phenotype) or toward negative remodeling (fibroproliferation and stenosis), respectively.

Differential regulation of hyaluronic acid synthase isoforms in human saphenous vein smooth muscle cells: possible implications for vein graft stenosis

Autologous saphenous vein bypass grafts (SVG) are frequently compromised by neointimal thickening and subsequent atherosclerosis eventually leading to graft failure. Hyaluronic acid (HA) generated by smooth muscle cells (SMC) is thought to augment the progression of atherosclerosis. The aim of the present study was (1) to investigate HA accumulation in native and explanted arterialized SVG, (2) to identify factors that regulate HA synthase (HAS) expression and HA synthesis, and (3) to study the function of the HAS2 isoform. In native SVG, expression of all 3 HAS isoforms was detected by RT-PCR. Histochemistry revealed that native and arterialized human saphenous vein segments were characterized by marked deposition of HA in association with SMC. Interestingly, in contrast to native SVG, cyclooxygenase (COX)-2 expression by SMC and macrophages was detected only in arterialized SVG. In vitro in human venous SMC HAS isoforms were found to be differentially regulated. HAS2, HAS1, and HA synthesis were strongly induced by vasodilatory prostaglandins via Gs-coupled prostaglandin receptors. In addition, thrombin induced HAS2 via activation of PAR1 and interleukin 1beta was the only factor that induced HAS3. By small interfering RNA against HAS2, it was shown that HAS2 mediated HA synthesis is critically involved in cell cycle progression through G1/S phase and SMC proliferation. In conclusion, the present study shows that HA-rich extracellular matrix is maintained after arterialization of vein grafts and might contribute to graft failure because of its proproliferative function in venous SMC. Furthermore, COX-2-dependent prostaglandins may play a key role in the regulation of HA synthesis in arterialized vein grafts.

Intimal hyperplasia and expression of transforming growth factor-beta1 in saphenous veins and internal mammary arteries before coronary artery surgery

BACKGROUND

The development of fibromuscular intimal hyperplasia and subsequent graft failure remains an urgent problem in cardiac surgery. Transforming growth factor-beta1 (TGF-beta1) is involved in the pathogenesis of arteriosclerosis through induction of extracellular matrix proteins. We tested the hypothesis that intimal hyperplasia is already present in human saphenous veins and left internal mammary arteries before coronary artery bypass surgery and is associated with an increased expression of TGF-beta1.

METHODS

Forty-six segments of saphenous veins and 27 of left internal mammary arteries were collected from 50 patients undergoing coronary artery bypass surgery. Morphometric analysis was performed by microscopic computer analysis. Immunohistochemistry was performed with antibodies directed against TGF-beta1, its latent binding protein (LTBP-1) and its type 2 receptor (RII).

RESULTS

The incidence of intimal hyperplasia was significantly higher in saphenous veins (67.4%) than in mammary arteries (29.6%; p < 0.05). Saphenous veins and mammary arteries with intimal hyperplasia expressed more TGF-beta1 (endothelial and intimal layers) and LTBP-1 (intimal and medial layers) when compared with corresponding vessels without hyperplasia (both groups p < 0.05). Endothelial and intimal RII expression was significantly higher in saphenous veins with intimal hyperplasia as compared with saphenous veins without hyperplasia (p < 0.05). Transforming growth factor-beta1 staining in the intima correlated with the presence of an intimal hyperplasia in saphenous veins (rho = 0.317) and mammary arteries (rho = 0.428).

CONCLUSIONS

Local TGF-beta1 expression is associated with the presence of intimal hyperplasia in the examined vessels. Preexisting intimal hyperplasia is more prevalent and serious in saphenous veins than in left internal mammary arteries, giving further explanation to the superior long-term results of left internal mammary grafts.

Antisense to transforming growth factor-β1 messenger RNA reduces vein graft intimal hyperplasia and monocyte chemotactic protein 1

BACKGROUND

Autogenous vein grafts are commonly used for arterial reconstructive procedures. Their success is limited by the development of intimal hyperplasia (IH), a fibroproliferative disease that predisposes the grafts to occlusive stenosis. Mesenchymal cell proliferation and the deposition of an extracellular matrix characterize neointimal development. Increasing evidence suggests that, regardless of blood vessel type, IH results from complex interactions among vessel wall cells, infiltrating leukocytes, and cytokines. Transforming growth factor-beta1 (TGF-beta1) is a pleiotropic cytokine with powerful effects on inflammatory cell chemotaxis; smooth muscle cell, fibroblast, and endothelial cell proliferation; and extracellular matrix synthesis.

METHODS

Epigastric vein to common femoral artery interposition grafts were placed in male Lewis rats and harvested at 1, 2, 4, and 12 weeks after surgery. We used replication-defective adenoviruses to deliver a control reporter gene for the enzyme beta-galactosidase (Ad-GAL), empty virus (Ad-CMVpLpA), or the sequence encoding the antisense strand of TGF-beta1 (Ad-AST). The vein graft was transduced passively in medium containing 10 7 plaque-forming units per milliliter of Ad-GAL, Ad-CMVpLpA, or Ad-AST for 20 minutes at room temperature. The adenovirus-treated grafts were compared with grafts treated with medium without virus (sham).

RESULTS

The Ad-GAL control grafts showed beta-galactosidase activity from 3 days to 4 weeks. Twenty percent of cells were positive out to 2 weeks, at which time the number of cells positive for beta-galactosidase activity began to decline. Treatment with Ad-AST resulted in a significant reduction vs sham, Ad-CMVpLpA, and Ad-GAL in TGF-beta1 messenger RNA, total TGF-beta1 protein, and bioactive TGF-beta1 protein. Neointimal area was significantly reduced in the Ad-AST group vs Ad-GAL at 4 weeks, vs Ad-CMVpLpA at 4 and 12 weeks, and vs sham at 2 and 4 weeks. The medial/adventitial layer was significantly thicker in the Ad-AST group than the Ad-GAL group at 12 weeks. In addition, we studied the effect of Ad-AST on monocyte chemotactic protein 1 (MCP-1). Although the reduction in TGF-beta1 resulted in a reduction of MCP-1 messenger RNA in whole-graft homogenates and MCP-1 protein-positive staining in histologic sections from the perianastomotic region, no reduction in the number of ED1-positive cells (monocytes and macrophages) was observed.

CONCLUSIONS

Perioperative antisense TGF-beta1 treatment of the vein to be used in arterial reconstructions resulted in a prolonged diminution of IH; this emphasizes the importance of TGF-beta1 in neointimal thickening and indicates that ex vivo gene therapy can reduce the vessel's predisposition to IH.

CLINICAL RELEVANCE

The main cause of occlusion and graft failure after peripheral and cardiac arterial reconstruction is IH. The study of the mechanisms and mediators of IH, including TGF-beta1, should lead to future gene therapies to prevent or limit IH. The clinical effect of such treatments would be enormous, because they would increase graft longevity, thereby enhancing quality of life and enabling patients to live without the threat of limb loss or recurrent heart attack.

Induction of platelet-derived growth factor B-chain expression by transforming growth factor-beta involves transactivation by Smads

Transforming growth factor-beta (TGF-beta) regulates a diverse array of biological processes, such as proliferation, differentiation, extracellular matrix production, and apoptosis. In cultured vascular endothelial cells, TGF-beta induces the expression of platelet-derived growth factor (PDGF) B-chain, a mitogen and chemoattractant, at the level of transcription. The molecular mechanism(s) underlying this process are not presently understood. In this study, we performed serial 5' deletion and transient transfection analysis to define a region in the PDGF-B promoter mediating inducible responsiveness to TGF-beta. This region contains an atypical nucleotide recognition element for the Smad family of transcriptional regulators. Electrophoretic mobility shift analysis revealed that nuclear proteins bound to this site in a transient and specific manner. Supershift studies demonstrated the physical association of Smad4 with the promoter. Overexpression of Smad4 activated the PDGF-B promoter and superinduced PDGF-B promoter-dependent expression in cells exposed to TGF-beta. Moreover, simultaneous cotransfection of Smad3 and Smad4 activated the PDGF-B promoter. This effect was attenuated when Smad4 was substituted with its dominant negative counterpart. Mutation of the (-81)CAGA(-78) motif in the PDGF-B promoter abrogated Smad-inducible promoter-dependent expression. Overexpression of Smad2 and Smad3 transactivated the PDGF-B promoter in a synergistic manner. These findings demonstrate the existence of a novel, functional binding element in the proximal region of the PDGF-B promoter mediating responsiveness to TGF-beta.