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Simvastatin as a Potential Disease-Modifying Therapy for Patients with Parkinson's Disease: Rationale for Clinical Trial, and Current Progress.
Carroll, CB, Wyse, RKH
Journal of Parkinson's disease. 2017;(4):545-568
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Abstract
Many now believe the holy grail for the next stage of therapeutic advance surrounds the development of disease-modifying approaches aimed at intercepting the year-on-year neurodegenerative decline experienced by most patients with Parkinson's disease (PD). Based on recommendations of an international committee of experts who are currently bringing multiple, potentially disease-modifying, PD therapeutics into long-term neuroprotective PD trials, a clinical trial involving 198 patients is underway to determine whether Simvastatin provides protection against chronic neurodegeneration. Statins are widely used to reduce cardiovascular risk, and act as competitive inhibitors of HMG-CoA reductase. It is also known that statins serve as ligands for PPARα, a known arbiter for mitochondrial size and number. Statins possess multiple cholesterol-independent biochemical mechanisms of action, many of which offer neuroprotective potential (suppression of proinflammatory molecules & microglial activation, stimulation of endothelial nitric oxide synthase, inhibition of oxidative stress, attenuation of α-synuclein aggregation, modulation of adaptive immunity, and increased expression of neurotrophic factors). We describe the biochemical, physiological and pharmaceutical credentials that continue to underpin the rationale for taking Simvastatin into a disease-modifying trial in PD patients. While unrelated to the Simvastatin trial (because this conducted in patients who already have PD), we discuss conflicting epidemiological studies which variously suggest that statin use for cardiovascular prophylaxis may increase or decrease risk of developing PD. Finally, since so few disease-modifying PD trials have ever been launched (compared to those of symptomatic therapies), we discuss the rationale of the trial structure we have adopted, decisions made, and lessons learnt so far.
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Effects of Fostamatinib on the Pharmacokinetics of Oral Contraceptive, Warfarin, and the Statins Rosuvastatin and Simvastatin: Results From Phase I Clinical Studies.
Martin, P, Gillen, M, Ritter, J, Mathews, D, Brealey, C, Surry, D, Oliver, S, Holmes, V, Severin, P, Elsby, R
Drugs in R&D. 2016;(1):93-107
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Abstract
BACKGROUND AND OBJECTIVES Fostamatinib is a spleen tyrosine kinase inhibitor that has been investigated as therapy for rheumatoid arthritis and immune thrombocytopenic purpura. The present studies assessed the potential for pharmacokinetic interaction between fostamatinib and the commonly prescribed medications oral contraceptive (OC), warfarin, and statins (rosuvastatin, simvastatin) in healthy subjects. METHODS The OC study was a crossover study over two 28-day treatment periods (Microgynon(®) 30 plus placebo or fostamatinib). Concentrations of OC constituents (ethinyl estradiol/levonorgestrel) were measured. Effects on warfarin pharmacokinetics and pharmacodynamics were assessed (21-day study). Warfarin was administered on days 1 and 14, fostamatinib on days 8-20. The statin study was a two-period, fixed-sequence study of the effects of fostamatinib on exposure to rosuvastatin or simvastatin (single doses). Safety was assessed throughout. RESULTS Fostamatinib co-administration with OC increased exposure to ethinyl estradiol [area under the plasma concentration-time curve at steady state (AUCss) 28% [confidence interval (CI 90%) 21-36]; maximum plasma concentration (Cmax) at steady state (Cmax,ss) 34% (CI 26-43)], but not levonorgestrel (AUCss 5%; Cmax,ss -3%), while exposure to luteinizing hormone and follicle-stimulating hormone decreased (≈ 20%). Fostamatinib did not affect the pharmacokinetics/pharmacodynamics of warfarin to a clinically relevant extent, but caused an upward trend in AUC for both R- and S-warfarin [18% (CI 13-23) and 13% (CI 7-19)]. Fostamatinib increased rosuvastatin AUC by 96% (CI 78-115) and Cmax by 88% (CI 69-110), and increased simvastatin acid AUC by 74% (CI 50-102) and Cmax by 83% (CI 57-113). CONCLUSION Fostamatinib exhibits drug-drug interactions when co-administered with OC, simvastatin, or rosuvastatin, with the AUC of statins almost doubling. Fostamatinib did not exhibit a clinically relevant DDI on warfarin.
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Effects of simvastatin on cell viability and proinflammatory pathways in lung adenocarcinoma cells exposed to hydrogen peroxide.
Gallelli, L, Falcone, D, Scaramuzzino, M, Pelaia, G, D'Agostino, B, Mesuraca, M, Terracciano, R, Spaziano, G, Maselli, R, Navarra, M, et al
BMC pharmacology & toxicology. 2014;:67
Abstract
Lung cancer is characterized by a high mortality rate probably attributable to early metastasis. Oxidative stress is involved in development and progression of lung cancer, through cellular and molecular mechanisms which at least in part overlap with proinflammatory pathways. Simvastatin is a statin with pleiotropic effects that can also act as an anti-oxidant agent, and these pharmacologic properties may contribute to its potential anti-cancer activity. Therefore, the aim of this study was to evaluate, in the human lung adenocarcinoma cell line GLC-82, the effects of a 24-hour treatment with simvastatin on hydrogen peroxide (H2O2)-induced changes in cell viability, ERK phosphorylation, matrix metalloproteinase (MMP) expression, innate immunity signaling, NF-κB activation and IL-8 secretion. Cell counting was performed after trypan blue staining, cell proliferation was assessed using MTT assay, and apoptosis was evaluated through caspase-3 activation and Tunel assay. Western blotting was used to analyze protein extracts, and IL-8 release into cell culture supernatants was assessed by ELISA. Our results show that simvastatin (30 μM) significantly (P <0.01) inhibited the proliferative effect of H2O2 (0.5 mM) and its stimulatory actions on ERK1/2 phosphorylation, NF-κB activation and IL-8 production. Furthermore, simvastatin decreased H2O2-mediated induction of the cellular expression of MMP-2 and MMP-9, as well as of several components of the signaling complex activated by innate immune responses, including MyD88, TRAF2, TRAF6 and TRADD. In conclusion, these findings suggest that simvastatin could play a role in prevention and treatment of lung cancer via modulation of important proinflammatory and tumorigenic events promoted by oxidative stress.
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Effects of simvastatin on carotenoid status in plasma.
Rydén, M, Leanderson, P, Kastbom, KO, Jonasson, L
Nutrition, metabolism, and cardiovascular diseases : NMCD. 2012;(1):66-71
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Abstract
BACKGROUND AND AIMS Carotenoids are potent antioxidants mainly transported in the low density lipoprotein (LDL) fraction. They may also influence the immune response and inverse associations with inflammatory markers have been reported. We investigated whether simvastatin, by exerting both lipid-lowering and anti-inflammatory effects, altered the carotenoid status in plasma. METHODS AND RESULTS A randomized, double-blind, placebo-controlled study design was applied. Eighty volunteers with mild to moderate hypercholesterolemia received either simvastatin 40 mg or placebo for 6 weeks. Lipids, oxidized LDL (ox-LDL), C-reactive protein (CRP), interleukin (IL)-6, oxygenated carotenoids (lutein, zeaxanthin, β-cryptoxanthin) and hydrocarbon carotenoids (α-carotene, β-carotene, lycopene) were measured in plasma. Simvastatin use was associated with significant reductions in total cholesterol, LDL, ox-LDL and CRP. Simvastatin therapy also resulted in reduced plasma levels of both oxygenated and hydrocarbon carotenoids. However, when adjusted for lipids, all carotenoids except β-cryptoxanthin showed significant increases after simvastatin therapy. Both crude and lipid-adjusted carotenoids were inversely correlated with CRP and IL-6 in plasma but the change in carotenoid status during simvastatin therapy was not specifically related to any changes in inflammatory markers. CONCLUSIONS To summarize, the change in carotenoid status during simvastatin therapy was mainly attributed to the lowering of cholesterol and not to the suppression of inflammatory activity. After adjustment for lipids, the levels of lutein, lycopene, α-carotene and β-carotene were significantly increased by simvastatin suggesting an increased ratio of carotenoids per particle.
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Effect of simvastatin or its combination with ezetimibe on Toll-like receptor expression and lipopolysaccharide - induced cytokine production in monocytes of hypercholesterolemic patients.
Moutzouri, E, Tellis, CC, Rousouli, K, Liberopoulos, EN, Milionis, HJ, Elisaf, MS, Tselepis, AD
Atherosclerosis. 2012;(2):381-7
Abstract
OBJECTIVES Toll-like receptors (TLRs) are key players in the innate immune system. Recently, a pivotal role of TLR2 and TLR4 has been recognized in atherogenesis. We investigated the effect of simvastatin monotherapy or its combination with ezetimibe on TLR2 and TLR4 membrane expression and on lipopolysaccharide (LPS)-induced interleukin-1β (IL-1β) and interleukin-6 (IL-6) production in peripheral blood monocytes of patients with primary hypercholesterolemia. METHODS This was a prospective, randomized, open-label, blinded endpoint study. After a 3-month period of lifestyle changes patients (n = 60) (mean age 55 ± 13) with LDL-cholesterol levels above those recommended by the NCEP ATP III, were randomly allocated to open-label simvastatin 40 mg (n = 30) or simvastatin/ezetimibe 10/10 mg (n = 30) daily. Both groups were similar with regard to demographics, risk factors, medications and baseline lipid values. TLR2 and TLR4 membrane expression in monocytes, LPS-induced intracellular production of IL-1β and IL-6 were assessed by flow cytometry at baseline and 3 months post-treatment in both patient groups, as well as in 30 age- and sex-matched normolipidemic controls. RESULTS Hypercholesterolemic patients exhibited higher TLR2 and TLR4 membrane expression compared with controls (p < 0.02). LPS induced a significant increase in the intracellular levels of IL-1β and IL-6 in all groups however both patient groups exhibited significantly lower levels compared with controls. Three months of treatment with either simvastatin or its combination with ezetimibe resulted in a significant reduction of TLR2 and TLR4 expression (p < 0.01 compared with baseline values) with no intergroup differences. Furthermore, in both groups the post-treatment values of LPS-induced IL-1β and IL-6 production were significantly lower compared with baseline (p < 0.05 for all comparisons). CONCLUSIONS A high simvastatin dose or the combination of a low-dose simvastatin with ezetimibe reduce to a similar extent TLR2, TLR4 membrane expression and LPS-induced IL-6 and IL-1β production in monocytes of hypercholesterolemic patients. The pathophysiological significance of these effects regarding atherosclerosis, reserves further investigation.
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Effects of simvastatin on circulating autoantibodies to oxidized LDL antigens: relation with immune stimulation markers.
Gonçalves, I, Cherfan, P, Söderberg, I, Nordin Fredrikson, G, Jonasson, L
Autoimmunity. 2009;(3):203-8
Abstract
Statins exert a number of anti-inflammatory and immunomodulatory effects in vitro. However, the immunomodulatory effects in vivo are less clarified. In the present study, we investigated whether simvastatin treatment changed the levels of autoantibodies against specific oxidized LDL (oxLDL) antigens as well as their association with leukocyte activation markers. Eighty volunteers with mild-to-moderate hypercholesterolemia were randomized to either simvastatin 40 mg or placebo for 6 weeks. Autoantibodies against apo B peptide antigens, C-reactive protein (CRP) and interleukin (IL)-6 in plasma were determined by ELISA. Subsets of circulating B and T cells were studied by flow cytometry. Simvastatin significantly reduced CRP by 26%, whereas IL-6 remained unchanged. Levels of IgG against the apo B peptide P-240 (amino acids 3586-3605) increased by 16% (p = 0.03) in the simvastatin group whereas autoantibody levels to other apo B peptides did not change. At baseline and after 6 weeks, the P-240 IgG levels were significantly correlated with the number of CD57+CD28 - CD8+T cells but not to other lymphocyte subsets or inflammatory markers. The P-240 IgG levels after 6 weeks simvastatin therapy was strongly correlated to the relative increase in CD57+CD28 - CD8+T cells (p = 0.003). Simvastatin treatment induced an increase in autoantibodies against an oxLDL antigen. The effect was related to an expansion of a CD8+T cell subset and may involve an immunostimulation by simvastatin.
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In-vivo effects of simvastatin and rosuvastatin on global gene expression in peripheral blood leucocytes in a human inflammation model.
Schmidt, WM, Spiel, AO, Jilma, B, Wolzt, M, Müller, M
Pharmacogenetics and genomics. 2008;(2):109-20
Abstract
OBJECTIVE To gain insight into molecular mechanisms of anti-inflammatory effects of statins, we have studied global gene expression in circulating leucocytes in an in-vivo model of acute inflammation following statin administration. METHODS For this purpose, a randomized, double-blind, placebo-controlled, crossover study was conducted in six healthy male volunteers, who received simvastatin (80 mg/day), rosuvastatin (40 mg/day) or placebo before infusion of E. coli lipopolysaccharide (LPS). Leucocyte RNA isolated before and after statin treatment, and after LPS-infusion was subjected to GeneChip transcript profiling (n=42). RESULTS Data analysis revealed that statins exert little effect on leucocyte gene expression. Statin-responsive genes included several immune response genes and the cholesterol efflux transporter (ABCA1). Rosuvastatin appeared to moderately downregulate expression of the genes encoding the inflammatory response proteins orosomucoid (ORM1) and interleukin 18 receptor accessory protein (IL18RAP). LPS-infusion induced a pronounced response of the leucocyte transcriptome, notably affecting transcripts related to immune regulation, cell proliferation and motility. While the majority of LPS-induced changes were not modulated by either statin, few select genes responded differently after statin treatment, such as the genes encoding the CD32 receptor (FCGR2A) or the protein geranylgeranyltransferase 1b subunit (PGGT1B). CONCLUSION We found that few 'inflammatory' genes appeared to be moderately down regulated during rosuvastatin administration, such as the ORM1 or IL18RAP genes. The small number of statin-induced differences, both during treatment and after LPS-induced inflammation, however, suggests that statins might exert their anti-inflammatory action mainly at the posttranscriptional level rather than at the level of gene transcription.
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Atorvastatin and simvastatin in patients on hemodialysis: effects on lipoproteins, C-reactive protein and in vivo oxidized LDL.
van den Akker, JM, Bredie, SJ, Diepenveen, SH, van Tits, LJ, Stalenhoef, AF, van Leusen, R
Journal of nephrology. 2003;(2):238-44
Abstract
BACKGROUND Cardiovascular disease as a result of accelerated atherogenesis is common in patients with end-stage renal disease (ESRD). Dyslipidemia may be a major contributor in this process and can be influenced by lipid-lowering drugs (statins). Moreover, statins may exhibit additional inhibitory effects on the atherogenesis, such as a modulation of the immune system as triggered by oxidatively modified LDL and a reduction of the inflammatory marker C-reactive protein (CRP). METHODS We evaluated in a single-blind randomized trial of 28 ESRD patients on hemodialysis, the dose-depending effects of both atorvastatin and simvastatin on lipids, lipoproteins, LDL particle heterogeneity, high sensitive-CRP, and markers of in vivo LDL oxidation. RESULTS Both statin therapies significantly lowered total plasma cholesterol and LDL-cholesterol concentrations to the same extent, whereas reduction in the concentrations of triglyceride-rich particles was less pronounced. Furthermore, statin therapy reduced LDL cholesterol in all LDL subfractions, without altering the overall LDL particle density. After both statins plasma hs-CRP concentrations were not significantly reduced; parameters of in vivo LDL oxidation (plasma ox-LDL concentration and the oxidation level of isolated LDL), were significantly decreased. Autoantibodies against ox-LDL, however, did not change during this trial period. CONCLUSIONS These results show that atorvastatin and simvastatin exhibit comparable favourable effects on lipid profiles in ESRD. Moreover, the reduction of in vivo oxidatively modified LDL as shown in this ESRD population, may indicate that these statins exhibit favourable effects on oxidative stress in vivo.
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Elevated remnant-like particles in heterozygous familial hypercholesterolemia and response to statin therapy.
de Sauvage Nolting, PR, Twickler, MB, Dallinga-Thie, GM, Buirma, RJ, Hutten, BA, Kastelein, JJ, ,
Circulation. 2002;(7):788-92
Abstract
BACKGROUND Remnant lipoproteins (RLP-C) are considered important in atherogenesis. Hence, this study was designed to assess RLP-C levels and the effect of statin therapy in patients with familial hypercholesterolemia (FH). Elevated RLP-C levels have been associated with the presence and progression of atherosclerotic disease, and their presence in FH patients has been proposed but never established in a large cohort, nor has their response to statin therapy been confirmed. METHODS AND RESULTS FH patients were recruited from 36 lipid clinics. After a washout period of 6 weeks, all patients were started on monotherapy with 80 mg of simvastatin for 2 years. RLP-C levels were assessed by an immune-separation assay. In 327 FH patients, RLP-C measurements could be performed before and after treatment. Mean total cholesterol (10.55+/-2.17 mmol/L), mean LDL cholesterol (8.40+/-2.13 mmol/L), and median RLP-C (0.47 mmol/L) levels were all severely elevated at baseline. After treatment, RLP-C levels were reduced by 49% (0.24 mmol/L; P<0.0001). Even patients with normal triglyceride levels had elevated RLP-C levels at baseline, and those with high RLP-C levels were generally characterized by a very atherogenic lipoprotein profile. CONCLUSIONS Baseline RLP-C levels are severely elevated in FH patients and are reduced by simvastatin but do not return to normal. These elevated RLP-C levels could be the consequence of impaired function of the LDL receptor in FH. RLP-C levels in FH contribute to an atherogenic lipoprotein profile and could identify patients who require additional treatment.