Cardiac allograft vasculopathy: a review.

Cardiac allograft vasculopathy (CAV) is a major factor limiting long-term survival after cardiac transplantation. CAV is an accelerated form of coronary artery disease (CAD) that is characterized by concentric fibrous intimal hyperplasia along the length of coronary vessels. Both immunologic and nonimmunologic risk factors contribute to the development of CAV by causing endothelial dysfunction and injury eventually leading to progressive intimal thickening. The diagnosis of CAV remains a challenge as angiography, the standard method for detecting focal plaques, lacks sensitivity in detecting CAV, and intravascular ultrasonography, a more sensitive method, lacks the ability to evaluate the entire coronary tree. The disease is difficult to treat and results in significant morbidity and mortality. Since treatment of CAV is limited and usually involves repeat transplantation, prevention or mitigation of immunologic and nonimmunologic risk factors is critically important. CAV prevention may involve therapy that provides protection against endothelial injury implemented just before transplantation, during storage and transplantation as well as after transplantation. This review addresses the frequency of occurrence, pathophysiology, diagnosis and treatment of CAV, highlighting areas of active research.     

Contemporary Concepts in Prevention and Treatment of Cardiac Allograft Vasculopathy

Cardiac allograft vasculopathy (CAV), is characterized by heterogeneous proliferative thickening of the vascular intima of the cardiac allograft vasculature. Since its presentation is commonly clinically silent, early diagnosis and preventative therapy are critical. Preventative therapy including optimization of immunosuppressive therapy and treatment of comorbidities associated with CAV progression must be initiated early since most of the intimal thickening occurs during the first year posttransplant. Long-term use of calcineurin inhibitors is associated with a high incidence of chronic renal disease and also contributes to hyperlipidemia and hypertension, all of which may exacerbate CAV. In addition, statins, antihypertensive agents and anti-CMV agents all have demonstrated benefits in reducing CAV. Once established, the limited treatment options include nonpharmacologic interventions such as retransplantation, percutaneous coronary interventions, coronary artery bypass grafting, transmyocardial laser revascularization and heparin-induced/mediated extracorporeal LDL plasmapheresis (HELP). As the use of new assessment tools increases our understanding of this disease, better preventative and treatment strategies are evolving.     

Characteristics of Cardiac Allograft Vasculopathy Induced by Immunomodulation in the Miniature Swine

Purpose: We aimed to develop swine cardiac transplantation model for study of cardiac allograft vasculopathy (CAV) and to characterize the mechanisms of its formation.Methods: Heterotropic cardiac transplantation was performed in swine leukocyte antigen mismatched miniature swine, and CAV was induced by immunomodulation by cyclosporine A (CyA). Histology and immunohistochemistry were performed to identify cellular components of CAV. Fluorescence in situ hybridization (FISH) was developed for detection of 1 and Y-chromosome for identification of cell origin in the female donor to the male recipient heart transplantation model.Results: CAV was successfully developed by immunomodulation of CyA. Severity of CAV revealed more prominent in the distal epicardial coronary arteries than proximal coronary arteries. Phenotype of the SMCs proliferated in the intimal thickening of CAV were mostly embryonal/secretory type. Our new chromosome specific probes for FISH method were useful for discrimination of sex of each cell, and proliferated SMCs were revealed to be mainly donor origin.Conclusion: CAV mimicking human heart transplantation can be developed by appropriate immunomodulation in the swine. In swine CAV, proliferated SMCs seen in the intimal thickening were demonstrated to be from the donor origin.     

Homocysteine-Lowering Therapy and Early Progression of Transplant Vasculopathy: A Prospective, Randomized, IVUS-Based Study

Although observational studies suggest that hyperhomocysteinemia may be a risk factor for coronary allograft vasculopathy (CAV), prospective data on homocysteine-lowering interventions and CAV development are lacking. We, therefore, randomized 44 de novo heart transplant (HT) recipients to 15 mg/day of 5-methyl-tetrahydrofolate (n=22), or standard therapy (control group, n=22) to investigate the effect of homocysteine lowering on the change in coronary intimal hyperplasia during the first 12 months after transplant, as detected by intra-vascular ultrasound (IVUS). Although 12 months after HT, homocysteinemia was lower in folate-treated patients (p<0.001), coronary intimal area increased similarly in the two groups (p>0.4). Conversely, hypercholesterolemia and cytomegalovirus infection were both associated with increased intimal hyperplasia (p<0.04), independently from folate intake. Sub-group analysis revealed that folate therapy reduced intimal hyperplasia in patients with hyperhomocysteinemia before randomization (n=19; p=0.02), but increased intimal hyperplasia in patients with normal homocysteine plasma concentrations (p=0.02). This bimodal effect of folate therapy persisted significantly after adjusting for cytomegalovirus infection and hypercholesterolemia. Despite effective in prevent hyperhomocysteinemia after heart transplantation, folate therapy does not seem to affect early CAV onset. However, sub-group analysis suggests that folate therapy may delay CAV development only in patients with baseline hyperhomocysteinemia, while may favor CAV progression in recipients with normal baseline homocysteinemia.     

Diagnostic accuracy of coronary angiography and risk factors for post-heart-transplant cardiac allograft vasculopathy

Cardiac allograft vasculopathy (CAV) is a common cause of death after heart transplantation. Coronary angiography is used to monitor the progress of recipients. Diagnostic accuracy of angiography and risk factors for CAV have not been clearly established. Between August 1979 and January 2002, 566 1-year survivors of heart transplantation underwent 2168 angiograms and were classified as having no CAV (0% stenosis), mild-moderate CAV (up to 70% stenosis), or severe CAV (>70% stenosis). We used serial measurements of stenosis to estimate the diagnostic accuracy of angiography and to assess the following risk factors for CAV onset, progression, and survival: recipient and donor age and sex, preoperative ischemic heart disease (IHD), acute rejection rates, cytomegalovirus (CMV) infection, and serologic status. CAV was diagnosed by angiography in 248 of 556 (45%) 1-year survivors, with a mean onset time of 8.6 years. Patients spent a mean of 3.4 years with mild-moderate disease and 3.4 years with severe disease before death. Angiography specificity was 97.8%, and sensitivity was 79.3%. The following variables were found to significantly increase the risk of CAV onset: recipient age relative rate (95% confidence interval) 1.16 (1.01-1.34), donor age by 1.27 (1.13-1.43), male recipient by 2.00 (1.11-2.57), pretransplant IHD by 1.75 (1.30-2.36), cumulative rejection by 1.13 (1.05-1.21), and CMV infection by 1.42 (1.06-1.92). Acute rejection increased risk of death by 1.48 (1.19-1.85). Angiography is highly specific and moderately sensitive for diagnosis of CAV. Risk of CAV onset is related to donor age and recipient history of pretransplant IHD and is further increased by immune-related insults of acute rejection and CMV infection.     

Rantes production during development of cardiac allograft vasculopathy.

BACKGROUND: RANTES (regulated on activation, normal T cell expressed and secreted) production has been shown to correlate with mononuclear cell recruitment and precede intimal thickening in cardiac allograft vasculopathy (CAV). However, the cells that produce RANTES in CAV are undefined. Therefore, in an MHC II-mismatched murine model of CAV, we sought to (1) define the cellular sources of RANTES and (2) determine the role of CD4+ lymphocytes in RANTES production during CAV development. METHODS: B6.CH-2bm12 strain donor hearts were transplanted heterotopically into wild-type (WT) or CD4 knockout (CD4KO) C57BL/6 mice (MHC II mismatch). No immunosuppression was used. Recipients were sacrificed at 7, 14, and 24 days. Intragraft RANTES gene expression and protein levels were determined with ribonuclease protection assay and ELISA, respectively. At days 7 and 24, RANTES production by graft-infiltrating cells was defined with intracellular RANTES staining and multicolor FACS analysis. Intimal thickening was quantitated morphometrically. In murine hearts and in six explanted human hearts with advanced CAV, RANTES was also localized immunohistochemically. RESULTS: NK, NKT, and gammadelta+ cells, in addition to CD4+, CD8+ lymphocytes, and CD11b+ macrophages, produced RANTES in early and late stages of CAV. RANTES-producing NK, NKT, and gammadelta+ cells tripled in number during CAV development; by day 24, NK and gammadelta+ cells each outnumbered CD4+ lymphocytes and CD11b+ macrophages. The presence of CD4+ lymphocytes was required for sustained RANTES production in allografts, which correlated with mononuclear cell recruitment and preceded intimal thickening. In murine and explanted human hearts with advanced CAV, RANTES immunolocalized with graft-infiltrating mononuclear cells and vessel wall cells. CONCLUSIONS: We present evidence that other cell types in addition to CD4+, CD8+ T lymphocytes, and CD11b+ macrophages contribute significantly to RANTES production in CAV. In this MHC II-mismatched murine model of CAV, sustained RANTES production requires CD4+ lymphocytes, correlates with mononuclear cell recruitment, and precedes intimal thickening. In experimental and human CAV, vessel wall cells may also produce RANTES. Interventions aimed at inhibiting RANTES production in CAV may need to target several types of cells, and neutralization of RANTES bioactivity may reduce mononuclear cell recruitment and CAV development.     

Therapeutic approach against intimal hyperplasia of vein grafts through endothelial nitric oxide synthase/nitric oxide (eNOS/NO) and the Rho/Rho-kinase pathway

Late graft failure of autologous vein grafts is associated with intimal hyperplasia resulting from the migration and proliferation of vascular smooth muscle cells (VSMCs). Endothelial nitric oxide synthase (eNOS) is an enzyme that synthesizes nitric oxide (NO). An impairment of NO-mediated vasorelaxation and increases in cell proliferation occurs in vein grafts after the surgery and these pathophysiological changes cause intimal thickening. The Rho/Rho-kinase pathway negatively regulates eNOS and is involved in intimal hyperplasia. Several studies have been conducted with the goal of controlling intimal hyperplasia targeting eNOS/NO and the Rho/Rho-kinase pathway. The oral administration of drugs, such as Rho-kinase inhibitor, l-arginine, beta-blocker and statins, significantly suppressed intimal thickening in animal models. This study revealed that statins upregulate eNOS through Rho-kinase inhibition to suppress intimal hyperplasia. The intraluminal gene transfer of eNOS inhibited intimal hyperplasia, thereby reducing the cell proliferation. These approaches are thus considered to be potentially promising therapeutic modalities for graft failure.     

New trends in the treatment of scleroderma renal crisis

The main pathological changes observed in scleroderma kidney are edema and proliferation of intimal cells, glomerular changes with thickening and obliteration of arteries leading to decreased renal perfusion and increased renin release. Angiotensin converting enzyme inhibitors are the cornerstone in the treatment of patients with scleroderma renal crisis. Statins are used in the prevention of primary and secondary cardiovascular events. These drugs control cell proliferation and may prevent the injury observed in scleroderma kidney.     

Diminished impact of cytomegalovirus infection on graft vasculopathy development in the antiviral prophylaxis era – a retrospective study

Evidence concerning an association between cytomegalovirus (CMV) infection and accelerated cardiac allograft vasculopathy (CAV) is inconclusive. Data were analyzed retrospectively from 297 consecutive heart transplants between 1.1.2002 and 31.12.2012. Patients ≤18 years of age, survival, and follow‐up ≤1‐year post‐transplant and patients with early CAV were excluded. CMV‐infection was diagnosed and monitored closely in the first year. CAV was diagnosed by coronary angiography via left heart catheterization, and results were categorized according to the International Society of Heart and Lung Transplantation (ISHLT) scoring system. Risk factors for CAV were tested in a multivariable model. Median follow‐up was 7.5 years (IQR: 5.6–10.3). CMV infection in the first year after transplantation occurred in 26% of patients (n = 78), CMV disease in 5% (n = 15). CAV ≥1 ISHLT was detected in 36% (n = 108). Incidence of CAV >1 ISHLT and severity of CAV increased over time. No statistically significant association between CMV infection and disease within the first year and risk of CAV after 1‐year post‐HTx was detected in the univariate (P = 0.16) and multivariable [hazard ratio (HR), 1.36; confidence interval (CI), 0.89–2.07; P = 0.16] Cox regression. In the multivariable Cox regression, donor age (HR, 1.04; 95% CI, 1.02–1.06; P < 0.01) and acute cellular rejection (ACR) ≥2R in the first year after HTx (HR, 1.77; 95% CI, 1.06–2.95; P = 0.03) were independent risk factors for CAV development. In our cohort, CMV infection and disease in the first year after transplantation did not significantly influence the risk of CAV in the long‐term follow‐up.     

Early and late chemokine production correlates with cellular recruitment in cardiac allograft vasculopathy

BACKGROUND: Cardiac allograft vasculopathy (CAV) remains the leading cause of late mortality in heart transplant recipients. Activated T lymphocytes and macrophages infiltrate the donor heart before vascular intimal thickening develops, but the specific mediators of mononuclear cell recruitment leading to CAV are unknown. Therefore, we sought to define the relationship between chemokine gene expression and production, T lymphocyte and macrophage recruitment, and intimal thickening in a murine model of CAV. METHODS: B10.A or B10.BR strain hearts were transplanted heterotopically into B10.BR mice. Recipients were killed at 1, 4, 7, 14, and 30 days. Donor hearts were assayed for chemokine gene expression with ribonuclease protection and for protein with ELISA. Intragraft cellular infiltration was defined immunohistochemically. Intimal thickening was quantitated morphometrically. RESULTS: Early and late patterns of intragraft chemokine expression associated with distinct cellular infiltration were identified. First, transient MIP-2 and MCP-1/JE production in isografts and allografts correlated with neutrophil and macrophage infiltration. MCP-1/JE production and macrophage infiltration was greater in allografts than isografts. Second, allografts demonstrated sustained lymphotactin, RANTES, and IP-10 expression, beginning at day 4, correlating with persistent macrophage and T lymphocyte infiltration. Intimal thickening became evident at 14 days. Isografts did not display the late pattern of sustained chemokine gene expression, cellular infiltration, or intimal thickening. CONCLUSIONS: Transient, early MIP-2, and MCP-1/JE production in isografts and allografts correlated with neutrophil and macrophage recruitment, and is likely related to ischemia-reperfusion. In allografts, the delayed induction of chemokines specific for macrophages and T lymphocytes correlated with mononuclear cell infiltration and preceded intimal thickening. This study thus demonstrates a dual pattern of chemokine induction correlating with intragraft mononuclear cell recruitment, associated with ischemia-reperfusion and CAV development. Chemokine-directed interventions may interfere with leukocyte trafficking and inhibit CAV development.     

Cardiac allograft vasculopathy: Insights on pathogenesis and therapy

Cardiac allograft vasculopathy (CAV) is a unique accelerated form of coronary vascular disease affecting heart transplant recipients. This complication is a significant contributor to medium- to long-term post-transplant morbidity and mortality. There is a high prevalence of CAV with approximately one in three patients developing CAV by 5 years post-transplant. Morphologically, CAV is characterized by concentric coronary intimal hyperplasia in both the epicardial arteries and intramural microvasculature. Although several immune and non-immune factors have been identified, their precise pathogenic mechanisms, interactions, and relative importance in the development of CAV are not well defined. The advent of improved imaging surveillance modalities has resulted in earlier detection during the disease process. However, overall management of CAV remains challenging due to paucity of treatment. This review aims to discuss key concepts on the pathogenesis of CAV and current management strategies, focusing on the use of mammalian target of rapamycin inhibitors.     

缺血对移植心脏冠状血管的影响

目的 探讨缺血对移植心脏远期冠状血管的形态学影响。方法 雄性Wistar大鼠为供者和受者，建立大鼠腹部异位心脏移植模型。实验分为4组，即假手术对照组、立即移植组、供心缺血3h移植组和缺血6h移植组。每组术后均用环孢素A(CsA)灌胃20d，抗排斥反应。20d时，取出供心，观察心脏冠状血管病理改变及超微结构变化。结果 假手术对照组心脏和立即移植组的供心冠状血管内皮超微结构均无明显损害；随着供心缺血时间的延长，移植后冠脉小血管内皮细胞肿胀，冠状动脉的内皮细胞增生，内膜增厚；缺血6h移植组供心冠状血管内膜超微结构改变非常明显。结论 供心缺血可导致移植后冠状血管内皮损伤，是心脏移植术后冠状血管病理改变的重要因素。     

Nonimmune Mechanisms of Injury in Renal Transplantation

The challenge facing the transplant team is how to rapidly and efficiently identify transplantable organs from affected donors and allocate them to suitable recipients likely to benefit most from such organs. It has been suggested that careful selection of recipients could mitigate adverse outcomes resulting from poor prognostic factors in the donor. ^148–150 Selection of donors and recipients to reduce non-immunerelated injury can be facilitated by age-matching donors and recipients, avoiding transplants from higher-risk older donors into high-risk recipients (retransplant or high panel-reactive antibody), performing dual transplants into one recipient,^151–154 and considering kidneys from older donors with the absence of hypertension and a high estimated creatinine clearance (≥80 mL/min) to be suitable for transplantation into a younger recipient.It is most likely that rejection (T-cell-mediated and alloantibody-mediated) and nonimmunologic factors work in concert to increase stress on the transplanted kidneys. There has been a body of work suggesting that nonimmunologic factors exert their effects by triggering rejection. In fact, nonimmunologic factors probably have their effects by governing the extent of injury and the ability of limiting cells in the graft to repair and survive rather than by triggering rejection. Little is known about the rules governing homeostasis and the response to injury in the human renal epithelium. The same statements can be made about the renal arterial system; we know little about why arteries develop FIT with age and hypertension. What cell is limiting? Is fibrosis primary or secondary to limitations in other cells such as endothelium? It is for this reason that we have emphasized the importance of the emerging area of limitations on somatic cells. The “customer” wants renal function (ie, functioning somatic cells). We need to understand more of the rules governing the survival of these cells in the injuries and stresses of the transplant—rejection and nonimmunologic stresses. Organ survival involves multiple sciences; the sciences of cellular senescence, epitheliology, and vascular biology should join with immunology in the important challenges and opportunities for progress in transplantation.     

Blockade of the epidermal growth factor receptor decreases intimal hyperplasia in balloon-injured rat carotid artery

HYPOTHESIS: Arterial intimal hyperplasia is induced by injury and is frequently the cause of luminal narrowing after vascular reconstruction. Smooth muscle cells (SMC) respond to injury by proliferating and migrating into the intima. This process is regulated by thrombin, endothelin, and angiotensin II, all ligands of G protein-coupled receptors. Signal transduction from these receptors in cultured cells depends in part on transactivation of epidermal growth factor receptor (EGFR). We hypothesize that EGFR has a substantial role in activation of SMC in vivo and development of intimal hyperplasia. METHODS: Intimal hyperplasia was induced in rat carotid arteries by passage of a balloon catheter. Animals were given a monoclonal blocking antibody to rat EGFR, matched mouse immunoglobulin G (IgG) control antibody, or saline solution. RESULTS: Blocking EGFR antibody inhibited medial SMC proliferation, as determined by 5-bromo-2'-deoxyuridine labeling at 2 days (IgG control, 8.0% +/- 2.0%; anti-EGFR, 3.2% +/- 0.8%) and intimal hyperplasia at 14 days (intimal area: IgG control, 0.07 +/- 0.01 mm(2); anti-EGFR, 0.04 +/- 0.01 mm(2)). CONCLUSION: Activation of EGFR is important for early induction of SMC proliferation and subsequent intimal thickening.     

Cardiac allograft vasculopathy: current knowledge and future direction

Cardiac allograft vasculopathy (CAV) is a unique form of coronary artery disease affecting heart transplant recipients. Although prognosis of heart transplant recipients has improved over time, CAV remains a significant cause of mortality beyond the first year of cardiac transplantation. Many traditional and non-traditional risk factors for the development of CAV have been described. Traditional risk factors include dyslipidemia, diabetes and hypertension. Non-traditional risk factors include cytomegalovirus infection, HLA mismatch, antibody-mediated rejection, and mode of donor brain death. There is a complex interplay between immunological and non-immunological factors ultimately leading to endothelial injury and exaggerated repair response. Pathologically, CAV manifests as fibroelastic proliferation of intima and luminal stenosis. Early diagnosis is paramount as heart transplant recipients are frequently asymptomatic owing to cardiac denervation related to the transplant surgery. Intravascular ultrasound (IVUS) offers many advantages over conventional angiography and is an excellent predictor of prognosis in heart transplant recipients. Many non-invasive diagnostic tests including dobutamine stress echocardiography, CT angiography, and MRI are available; though, none has replaced angiography. This review discusses the risk factors, pathogenesis, and diagnosis of CAV and highlights some current concepts and recent developments in this field.     

CD8 lymphocytes are sufficient for the development of chronic rejection

BACKGROUND: The role of CD8 lymphocytes, in chronic rejection or cardiac allograft vasculopathy (CAV), is incompletely understood. The purposes of this study were to determine whether CD8 lymphocytes, in the absence of CD4 lymphocytes, are capable of causing the intimal lesions of CAV; and if so, to define the effector mechanism(s) of CD8 lymphocytes. METHODS: We modified a previously characterized major histocompatibility complex class II mismatched murine model of CAV. Wild-type CD8 lymphocytes were transferred to nude mice followed by heterotopic heart transplantation. Recipient mice were then treated with a CD40 activating antibody, which is known to provide help for CD8 lymphocyte activation, in the absence of CD4 lymphocytes. Donor hearts were harvested on day 40 posttransplantation and analyzed for cellular infiltrates and intimal thickening. In separate experiments, isolated perforin -/-, Fas ligand (FasL) -/-, and interferon (IFN)-gamma -/- CD8 lymphocytes were transferred to nude mice followed by identical experimented protocol. RESULTS: With adaptive transfer of wild-type CD8 lymphocytes, the donor hearts were infiltrated with activated CD8 lymphocytes and displayed significant intimal lesions. Adoptive transfer of perforin -/- and FasL -/- CD8 lymphocytes to nude mice resulted in similar patterns of CD8 lymphocyte infiltration and similar severity of intimal lesions. The donor hearts from IFN-gamma -/- CD8 lymphocyte reconstituted recipients displayed minimal intimal lesions, although CD8 lymphocytes were present in the allografts. CONCLUSIONS: Unprimed CD8 lymphocytes in the absence of CD4 lymphocytes can cause intimal lesions of CAV. CD8 lymphocytes production of IFN-gamma, but not the perforin or the FasL-mediated cytotoxicity, is the critical step in the development of intimal lesions.     

Delayed occurrence of cardiac allograft vasculopathy in Chinese heart transplant recipients compared with their western counterparts

Cardiac allograft vasculopathy (CAV) is a leading limiting factor to long-term survival after cardiac transplantation. We investigated the prevalence of CAV and its associated factors in Chinese heart transplant recipients. From July 1987 to July 2000, we performed 140 consecutive heart transplantations at the National Taiwan University Hospital. Of the 140 patients, 98 who were > or = 17-yr old at the time of transplantation, had survived for more than 1 yr after transplantation, and who had normal findings at the 1-month coronary angiogram study, were included in this study. Group I consisted of 25 patients who eventually developed CAV in the follow-up, and group II consisted of 73 patients who were free from CAV in the follow-up. CAV was defined by coronary angiogram study.The donor and recipient characteristics were not statistically different between the two groups except the older donor age (p = 0.02), higher first-year mean rejection score (p = 0.03) and more prevalent cytomegalovirus infection rate (p = 0.03) in group I. Multivariate Cox regression analysis revealed that only higher first-year mean rejection score (p = 0.01), and older donor age (p = 0.04) were important risk factors for developing CAV. The 1-5 yr of actuarial freedom from the presence of CAV were 97, 93, 86, 80 and 69% in our study patients. In summary, these data show that CAV occurred later in Chinese heart transplant recipients in comparison with their western counterparts, but the risk factors for developing CAV were not different.     

Cytomegalovirus infection accelerates cardiac allograft vasculopathy: correlation between angiographic and endomyocardial biopsy findings in heart transplant patients

In order to determine the impact of cytomegalovirus (CMV) infection on cardiac allograft vasculopathy (CAV), we quantitated angiograms and endomyocardial biopsy (EMB) specimens obtained from 53 heart transplant recipients. CMV infection was particularly associated with the development of discrete stenosis in major branch vessels (P<0.03). Also, the number of diffusely affected vessel segments was significantly higher in CMV patients than in CMV-free recipients after the 2nd post-operative year (P<0.05). The EMB histology correlated well with angiography. Significantly higher levels of arteriolar endothelial cell proliferation and intimal thickness were recorded in biopsies of CMV patients than in those of CMV-free recipients during the 1st postoperative year (P<0.02 and P<0.005, respectively). The CMV-associated vascular changes in EMB histology clearly preceded angiographically detectable CAV findings. Taken together, CMV infection accelerated heart allograft arteriosclerosis. The histological changes appeared prior to changes detected by coronary angiography. The CMV effect was particularly pronounced during the first 2 post-transplant years but leveled off thereafter. Thus, CMV-accelerated allograft arteriosclerosis may be linked in particular with early graft loss of CMV-infected heart transplant recipients.     

Insulin and local growth factor PDGF induce intimal hyperplasia in bypass graft culture models of saphenous vein and internal mammary artery

Objective: In arteriosclerosis and bypass graft stenosis, intimal proliferation is controlled by local and systemic growth factors, such as platelet derived growth factor (PDGF) or insulin. Intimal hyperplasia can be produced in organ culture models. Our aim was to compare neointima formation in two organ culture models of internal mammary artery (IMA) and saphenous vein (SV), with special reference to the influence of systemic and local growth stimuli. Methods: Rings of freshly isolated human SV and IMA were cultured over a 3-, 6- or 8-day period. They were distributed into five groups of incubation protocols: incubation with 10% serum; insulin 50 ng/ml and 100 ng/ml; PDGF–BB 5 ng/ml and 10 ng/ml. Frozen sections of cultured rings and pre-culture segments were subjected to elastic stain and immunohistochemistry. Antibodies directed against beta-actin and smooth muscle alpha-actin were used to characterize smooth muscle cell phenotype and against proliferating cell nuclear antigen (PCNA) to demonstrate proliferating cells. Results: Growth factor incubation caused massive intimal hyperplasia with increased elastic fibers in SV and intimal smooth muscle cell as well as matrix accumulation in IMA. Intimal thickening, PCNA and beta-actin expression reached their maximum on day 6 of culture. In both culture models, serum, insulin and PDGF caused increasing intimal thickening, with more pronounced effects in SV. Conclusions: These organ culture models demonstrate the effects of insulin and PDGF on intimal hyperplasia in IMA and SV representing models for arteriosclerosis and bypass graft stenosis and stressing the role of insulin and growth factors for neointima development.