Statins as immunosuppressive agents

Merkel cell carcinoma in immunosuppressed patients

Merkel cell carcinoma (MCC) is a rare and aggressive cutaneous malignancy. The infectivity of Merkel cell polyomavirus (MCPyV), an apparent agent in MCC development, may be exacerbated with impaired immune responses. This paper reviews relevant data regarding the role of immunosuppression in the development of MCC and describes modes of immunodeficient states. Because of the inherently low incidence rate of MCC, several case studies and series are also briefly mentioned to provide a more comprehensive summary of MCC in the setting of immunosuppression. We describe immunosuppressed patients who have experienced excessive UV radiation, organ transplantation, human immunodeficiency virus infection/AIDS, autoimmune diseases, and lymphoproliferative disorders. Iatrogenic forms of immunosuppression are also highlighted. Studies that quantify risks consistently report that individuals with a history of solid organ transplantation, autoimmune diseases, AIDS, and/or lymphoproliferative diseases have a significantly elevated risk of developing MCC. Overall, immunocompromised patients also appear to have an early onset and more aggressive course of MCC, with poorer outcomes. Recommendations for multidisciplinary approaches are proposed to effectively prevent and manage MCC in these patients.

Effect of HMG-CoA reductase inhibitors on activation of human gammadeltaT cells induced by Mycobacterium tuberculosis antigens

Lipid rafts are cholesterol-enriched microdomains which act as a platform for the initiation of T-cell activation. To investigate effect of endogenous cholesterol on lipid rafts formation and activation of gammadeltaT cells, human peripheral blood mononuclear cells were stimulated in vitro with Mycobacterium tuberculosis antigens (Mtb-Ag). Lovastatin and fluvastatin, two 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase (HMGCR) inhibitors, were used to block endogenous cholesterol biosynthesis. The expression of ganglioside GM1 (GM1), a lipid rafts marker, and CD69, an activation marker, and the level of tyrosine phosphorylation in gammadeltaT cells were measured by flow cytometry. The expression and aggregation of GM1 were also detected with laser confocal microscopy. We found that lovastatin and fluvastatin could obviously inhibit tyrosine phosphorylation and expression of GM1 and CD69 in gammadeltaT cells induced by Mtb-Ag. These results collectively indicated that HMGCR inhibitors might interfere with the formation of lipid rafts and inhibit the activation of gammadeltaT cells induced by Mtb-Ag.

Allograft vasculopathy versus atherosclerosis

Over the last 4 decades, heart transplantation (HTx) has evolved as a mainstream therapy for heart failure. Approximately half of patients needing HTx have organ failure consequent to atherosclerosis. Despite advances in immunosuppressive drugs, long-term success of HTx is limited by the development of a particular type of coronary atherosclerosis, referred to as cardiac allograft vasculopathy (CAV). Although the exact pathogenesis of CAV remains to be established, there is strong evidence that CAV involves immunologic mechanisms operating in a milieu of nonimmunologic risk factors. The immunologic events constitute the principal initiating stimuli, resulting in endothelial injury and dysfunction, altered endothelial permeability, with consequent myointimal hyperplasia and extracellular matrix synthesis. Lipid accumulation in allograft arteries is prominent, with lipoprotein entrapment in the subendothelial tissue, through interactions with proteoglycans. The apparent endothelial "intactness" in human coronary arteries of the transplanted heart suggest that permeability and function of the endothelial barrier altered. Various insults to the vascular bed result in vascular smooth muscle cell (SMC) activation. Activated SMCs migrate from the media into the intima, proliferate, and elaborate cytokines and extracellular matrix proteins, resulting in luminal narrowing and impaired vascular function. Arteriosclerosis is a broad term that is used to encompass all diseases that lead to arterial hardening, including native atherosclerosis, postangioplasty restenosis, vein bypass graft occlusion, and CAV. These diseases exhibit many similarities; however, they are distinct from one another in numerous ways as well. The present review summarizes the current understanding of the risk factors and the pathophysiological similarities and differences between CAV and atherosclerosis.

Statins inhibit NK cell cytotoxicity by membrane raft depletion rather than inhibition of isoprenylation

To investigate the potential determinants of the pleiotropic effects of statins, we measured NK cell cytotoxicity in samples from normal subjects and patients, including patients receiving statin therapy. In a multivariate analysis, NK cell cytotoxicity was related to total plasma cholesterol concentration rather than statin use. In vitro, we investigated the role of lipid modification, specifically the effects on membrane rafts and raft-dependent signal transduction. We demonstrate that statins reduce NK cell cytotoxicity and that membrane cholesterol depletion by cyclodextrins has a similar effect. In contrast, isoprenyl transferase inhibitors had little or no effect on NK cell function. We hypothesise that the pleiotropic effects of statins reflect changes in membrane cholesterol and, specifically, the density of membrane rafts. Moreover, there is likely to be a relationship between membrane cholesterol, membrane rafts and cell function that may be involved in the pathogenesis of cardiovascular and metabolic diseases.

The effects of blood pressure and lipid control on kidney allograft outcome

Despite the improvement in short- and long-term kidney allograft survival in recent years, a significant number of grafts are lost because of chronic allograft nephropathy (CAN) or death secondary to cardiovascular disease (CVD). There is growing evidence that both hypertension and hyperlipidemia play important roles in the progression of CAN and CVD in kidney transplant recipients. Large, randomized, controlled studies to determine the optimal target levels for BP and serum lipids, as well as the choice of drug therapy, are lacking. However, based on the available data, we suggest that currently recommended target levels in non-transplant patients should also be used after transplantation. We believe that achieving these target levels for BP and serum lipids are of primary importance, and that the non-lipid-lowering effects of HMG-CoA reductase inhibitors might exert additional benefits in prolonging graft survival.

Positive pleiotropic effects of HMG-CoA reductase inhibitor on vitiligo

Background

HMG-CoA reductase inhibitors (statins) are commonly used in medicine to control blood lipid disorder. Large clinical trials have demonstrated that statins greatly reduces cardiovascular-related morbidity and mortality in patients with and without coronary artery disease. Also, the use of HMG-CoA reductase inhibitors has been reported to have immunosuppressive effects.

Case presentation

We describe an unusual case of regression of vitiligo in a patient treated with high dose simvastatin. The relation between simvastatin and regression of vitiligo in this case report may be related to the autoimmune pathophysiology of the disease.

Conclusion

This unexpected beneficial impact provides another scientific credence to the hypothesis that immune mechanisms play a role in the development of vitiligo and that the use of statins as immuno-modulator could be of use not only for treatment relative to organ transplant but in other pathologies such as vitiligo.

Coronary artery vasculopathy in pediatric cardiac transplant patients: the therapeutic potential of immunomodulators

The single largest cause of late graft loss in pediatric cardiac transplantation is transplant coronary artery vasculopathy (CAV). The mechanism of CAV remains unknown; it appears to have both immune and non-immune causes. The final common pathway of these mechanisms is endothelial activation, a prothrombotic environment, and endothelial damage with subsequent diffuse intimal proliferation. The disease process has largely been thought to be progressive and unresponsive to treatment. Re-transplantation has been advocated as the only definitive treatment. The appropriate management is largely unknown; intervention or surgical management has had limited utility, while medical management appears to have the most promise. Improvement in outcome can be achieved by optimizing non-immune factors and aggressive management of the immune mechanisms. Long-term survival of transplant patients after diagnosis with CAV is now being reported.

Cardiac allograft vasculopathy: central role of endothelial injury leading to transplant "atheroma"

Endothelial injury plays a central role in the pathophysiologic mechanisms underlying cardiac allograft vasculopathy (CAV). Although the accelerated course of CAV and its localization to the allograft support an important role for the alloimmune response, there is considerable evidence implicating lipoprotein abnormalities, metabolic disturbances, viral infections, and systemic inflammation in the process. This multifactorial basis for CAV may be put into a pathophysiologic context in which endothelial cell injury is the triggering event that initiates and drives the proliferative and fibrotic processes characteristic of CAV. In the transplant setting, endothelial cell injury is induced by multiple factors, including brain death, ischemia-reperfusion, alloimmune responses, and viral infections. Once initiated, propagation of the proliferative processes that ultimately lead to vascular occlusion is enhanced by the abnormal metabolic environment of elevated lipoproteins and insulin resistance encountered in most patients. This review examines the evidence for the role of potential triggers of endothelial injury in the pathophysiology of CAV and discusses the central role of the nitric oxide pathway in the disease process.

New concepts in organ preservation

Organ preservation between donor and recipient is an important link in a chain that ultimately should lead to long term survival of the recipient thanks to a well-preserved, functionally intact organ. The period of organ ischaemia outside the body is subject to a number of biochemical stress factors which become known in more detail as knowledge on biochemical and immunological mechanisms improves. Efficacy of preservation fluids hence reduction of ischaemia injury may become enhanced by such additives as ion channel blockers, enzyme inhibitors, haeme oxygenase modulators, endothelin-l-inhibitors, quenchers of free radicals and anti-apoptotic agents. Many of these compounds, albeit of great theoretical interest, have not (yet?) made their way into clinical practice. This contribution is a survey of some promising agents, concentration and physicochemical interactions of which are analysed in some detail.