Cytochrome allelic variants and clopidogrel metabolism in cardiovascular diseases therapy.

Clopidogrel and aspirin are among the most prescribed dual antiplatelet therapies to treat the acute coronary syndrome and heart attacks. However, their potential clinical impacts are a subject of intense debates. The therapeutic efficiency of clopidogrel is controlled by the actions of hepatic cytochrome P450 (CYPs) enzymes and impacted by individual genetic variations. Inter-individual polymorphisms in CYPs enzymes affect the metabolism of clopidogrel into its active metabolites and, therefore, modify its turnover and clinical outcome. So far, clinical trials fail to confirm higher or lower adverse cardiovascular effects in patients treated with combinations of clopidogrel and proton pump inhibitors, compared with clopidogrel alone. Such inconclusive findings may be due to genetic variations in the cytochromes CYP2C19 and CYP3A4/5. To investigate potential interactions/effects of these cytochromes and their allele variants on the treatment of acute coronary syndrome with clopidogrel alone or in combination with proton pump inhibitors, we analyze recent literature and discuss the potential impact of the cytochrome allelic variants on cardiovascular events and stent thrombosis treated with clopidogrel. The diversity of CYP2C19 polymorphisms and prevalence span within various ethnic groups, subpopulations and demographic areas are also debated.

High-dose Chemotherapy With Autologous Stem Cell Rescue in Saudi Children Less Than 3 Years of Age With Embryonal Brain Tumors.

High-dose chemotherapy with autologous stem cell rescue (HDC/ASCR) has been used in children under the age of 3 years with embryonal brain tumors to avoid or delay the use of radiation. We reviewed the medical records of 10 Saudi children less than 3 years of age with embryonal brain tumors who underwent HDC/ASCR. All 10 patients underwent surgical resection followed by 3 to 5 cycles of induction chemotherapy and 1 to 3 cycles of HDC/ASCR using carboplatin and thiotepa. Isotretinoin was used as a maintenance therapy in 4 patients. Five patients had medulloblastoma, 3 had atypical teratoid/rhabdoid tumors, 1 had an embryonal tumor with abundant neuropil and true rosettes, and 1 had pineoblastoma. The median age of the patients was 1.9 years. A total of 19 HDC/ASCR procedures were performed. Radiotherapy (RT) was administered to 5 patients after HDC/ASCR and as a salvage therapy in 1 patient. The progression-free survival rate was 50% at 1 year and at 2 years, with a median follow-up of 24 months. All 5 patients with medulloblastoma are still alive without evidence of disease, but the other patients died secondary to tumor progression. This experience suggests that strategies combining myeloablative chemotherapy and autologous stem cell rescue appear to be feasible for children with embryonal brain tumors in the Middle East.

Manipulating molecular switches in brown adipocytes and their precursors: a therapeutic potential.

Brown adipocytes constitute a metabolically active tissue responsible for non-shivering thermogenesis and the depletion of excess calories. Differentiation of brown fat adipocytes de novo or stimulation of pre-existing brown adipocytes within white adipose depots could provide a novel method for reducing the obesity and alleviating the consequences of type II diabetes worldwide. In this review, we addressed several molecular mechanisms involved in the control of brown fat activity, namely, the ß3-adrenergic stimulation of thermogenesis during exposure to cold or by catecholamines; the augmentation of thyroid function; the modulation of peroxisome proliferator-activated receptor gamma (PPARγ), transcription factors of the C/EBP family, and the PPARγ co-activator PRDM16; the COX-2-driven expression of UCP1; the stimulation of the vanilloid subfamily receptor TRPV1 by capsaicin and monoacylglycerols; the effects of BMP7 or its analogs; the cannabinoid receptor antagonists and melanogenesis modulating agents. Manipulating one or more of these pathways may provide a solution to the problem of harnessing brown fat's thermogenic potential. However, a better understanding of their interplay and other homeostatic mechanisms is required for the development of novel therapies for millions of obese and/or diabetic individuals.

Association of obestatin, ghrelin, and inflammatory cytokines in obese patients with non-alcoholic fatty liver disease.

BACKGROUND: Three protein products of ghrelin gene (acylated ghrelin, des-acylated ghrelin, and obestatin) are involved in appetite stimulation and suppression. Additionally, there is some evidence suggesting their involvement in metabolic and inflammatory pathways which may be implicated in the pathogenesis of non-alcoholic fatty liver disease (NAFLD). The aim of this study was to examine the relationships of ghrelin gene products in patients with NAFLD. METHODS: We included 75 morbidly obese patients with biopsy-proven NAFLD (41 with histologic non-alcoholic steatohepatitis (NASH)) with clinical and laboratory data as well as frozen serum samples from the time of liver biopsy. Fasting serum was assayed for obestatin as well as acylated and des-acyl-ghrelin concentrations using ELISA. Bio-Plex inflammatory cytokine assays were used to profile expression of 17 inflammatory mediators, including IL-6, IL-7, IL-8, G-CSF, CCL2, and MIP-1ß. RESULTS: Patients with NASH had twofold higher concentration of des-acyl-ghrelin than patients with non-NASH (2.58 vs. 1.24 pg/ml, P < 0.02). Ghrelin concentrations in NASH patients with fibrosis stage ≥2 were almost double the concentration of NASH patients with fibrosis stage <2 (8.73 vs. 4.22 pg/ml, P < 0.04). Obestatin levels also increased with the fibrosis stage (2.54 vs. 3.46 pg/ml, P < 0.03). NAFLD patients with higher fibrosis stage had lower IL-7 concentrations (16.89 vs. 10.68 pg/ml, P = 0.014). Obestatin levels at baseline significantly correlated with rate of weight loss after bariatric surgery at various time points. CONCLUSIONS: This study suggests that products of the GHRL gene may be important for the pathogenesis of NASH and fibrosis. Additional confirmatory studies are needed.

Association of serum adipocytokines with hepatic steatosis and fibrosis in patients with chronic hepatitis C.

BACKGROUND: The pathogenic mechanisms of hepatic steatosis in hepatitis C (HCV) remain unclear. AIM: To assess the potential role of cytokines and adipokines in HCV-related steatosis and fibrosis. METHODS: We profiled several adipokines, cytokines, and related soluble molecules in 99 HCV patients and analyzed their potential associations with hepatic steatosis and fibrosis. RESULTS: Serum leptin and IL-1RA were significantly higher in HCV genotype 1 as compared to genotype 3. On the other hand, serum resistin, IL-8, IL-1B and sIL-6R, were significantly higher in HCV genotype 3. No differences were observed for adiponectin, visfatin, IL-6 and TNF-α. Regardless of HCV genotype, steatosis could be predicted by a combination of IL-8, IL-6, and sIL-6R/IL-6. When analysis was repeated for each of the genotypes, the reliability of models improved. Regardless of HCV genotype, moderate to severe fibrosis (Metavir score >F2), was predicted by IL-8 and resistin levels. CONCLUSIONS: Analysis of adipocytokines associated with steatosis supports the hypothesis that steatogenic pathways differ in HCV genotype 3 from those infected with non-genotype 3 infections.

A novel diagnostic biomarker panel for obesity-related nonalcoholic steatohepatitis (NASH).

BACKGROUND: Within the spectrum of nonalcoholic fatty liver disease (NAFLD), only patients with nonalcoholic steatohepatitis (NASH) show convincing evidence for progression. To date, liver biopsy remains the gold standard for the diagnosis of NASH; however, liver biopsy is expensive and associated with a small risk, emphasizing the urgent need for noninvasive diagnostic biomarkers. Recent findings suggest a role for apoptosis and adipocytokines in the pathogenesis of NASH. The aim of this study was to develop a noninvasive diagnostic biomarker for NASH. METHODS: The study included 101 patients with liver biopsies who were tested with enzyme-linked immunosorbent assay (ELISA)-based assays. Of these, 69 were included in the biomarker development set and 32 were included in the biomarker validation set. Clinical data and serum samples were collected at the time of biopsy. Fasting serum samples were assayed for adiponectin, resistin, insulin, glucose, TNF-alpha, IL-6, IL-8, cytokeratin CK-18 (M65 antigen), and caspase-cleaved CK-18 (M30 antigen). RESULTS: Data analysis revealed that the levels of M30 antigen (cleaved CK-18) predicted histological NASH with 70% sensitivity and 83.7% specificity and area under the curve (AUC) = 0.711, p < 10(-4), whereas the predictive value of the levels of intact CK-18 (M65) was higher (63.6% sensitivity and 89.4% specificity and AUC = 0.814, p < 10(-4)). Histological NASH could be predicted by a combination of Cleaved CK-18, a product of the subtraction of Cleaved CK-18 level from intact CK-18 level, serum adiponectin, and serum resistin with a sensitivity of 95.45% sensitivity, specificity of 70.21%, and AUC of 0.908 (p < 10(-4)). Blinded validation of this model confirmed its reliability for separating NASH from simple steatosis. CONCLUSIONS: Four ELISA-based tests were combined to form a simple diagnostic biomarker for NASH.

Gene expression patterns in hepatic tissue and visceral adipose tissue of patients with non-alcoholic fatty liver disease.

BACKGROUND: Non-alcoholic fatty liver disease (NAFLD) and its progressive form, non-alcoholic steatohepatitis (NASH), are among the least understood metabolic consequences of obesity. Increasingly, omental adipose tissue is recognized as a biologically active organ in the pathogenesis of NAFLD. Differences in transcriptional regulation in omental adipose tissue and liver tissue may provide important insights into the pathogenesis of NAFLD and its progression. METHODS: Transcriptional profiles were obtained for liver and visceral adipose specimens of morbidly obese patients undergoing bariatric surgery. Functional analyses with the Ingenuity Pathways Knowledge Base (IPKB) and IPA 4.0 software identified genes that potentially play hepatoprotective roles as well as those potentially involved in the pathogenesis of NASH. TNFalpha and IL6 were measured in the serum samples. RESULTS: Tissue from patients with NASH showed prominent adipose-specific deregulation of genes related to inflammation and the immune system. A number of liver and adipose-specific functional networks, including those centered at TNFalpha, JUN/JUNB, and IFNgamma were highlighted as related to the NASH pathogenesis. The results also showed compensatory increases in hepatic detoxification enzymes and decreases in the gene network controlled by transcription factor COUP-TFII. CONCLUSION: Our findings support the hypothesis that adipocyte secretion plays an important role in the development of NAFLD.

Adipokines and melanocortins in the hepatic manifestation of metabolic syndrome: nonalcoholic fatty liver disease.

Metabolic syndrome is associated with nonalcoholic fatty liver disease and its more aggressive form, nonalcoholic steatohepatitis. Adipokines produced by white adipose tissue possess broad physiological activity and play an important autocrine role in obesity-associated complications, including metabolic syndrome, nonalcoholic fatty liver disease and cardiovascular disease. Various adipokines may have beneficial or harmful effects. Other tissues, particularly stomach and intestine, produce active molecules that can influence the function of adipocytes and, possibly, the levels of adipokine secretion. In some cases, the production sites of these molecules remain unknown. The review focuses on our current understanding of the disease-related effects of the adipokines and the melanocortins on various peripheral tissues, and discusses some of their potential interactions with each other. Potential therapeutic applications are also considered.

PPARgamma activation by thiazolidinediones (TZDs) may modulate breast carcinoma outcome: the importance of interplay with TGFbeta signalling.

The thiazolidinediones (TZDs) are a class of synthetic antidiabetic drugs exerting its action primarily upon activation of the peroxisome proliferator-activated receptor-gamma (PPARgamma). Given the widespread incidence of diabetes type II and lifelong exposure of these patients to TZDs, there is a possibility that chronic treatment with TZD modifies clinical phenotypes of other common human diseases, for example breast carcinoma. There is evidence that TZDs act as breast carcinoma suppression agents, at least in the in vitro and animal models. Stimulation of the PPARgamma by TZDs interferes with oestrogen receptor signalling, STAT5B and NF-kappaB signalling cascades. On the other hand, TZDs repress TGFbeta signalling, a well-known suppressor of the initial stages of breast carcinoma development. Another layer of complexity arises at the later stages of tumour development, when TGFbeta acts as a tumour promoter: its overexpression is associated with poor prognosis, higher degree of tumour vascularization and metastasis. Longitudinal studies of breast carcinoma development in chronic TZD users are needed. In this review, we dissect possible interplays between chronic exposure of breast tis-sue to TZDs and TGFbeta signalling and predict influence of TZD exposure on cancer-related clinical outcome.

Histone modifications in Rett syndrome lymphocytes: a preliminary evaluation.

Most cases of Rett syndrome (RTT) are associated with mutations in the coding region of the transcriptional regulator MeCP2. This gene appears to repress gene expression through chromatin conformational changes secondary to histone modifications, mainly histone deacetylation of core histones H3 and H4. There is limited and contradictory information about histone modifications in RTT tissues. The present study intended to provide a preliminary characterization of histone acetylation (AcH3, AcH4) and methylation (MeH3) in RTT, with emphasis on non-selected peripheral cells and molecular-neurologic correlations. We compared 17 females with RTT, 11 of them with MeCP2 mutations, with 10 gender-matched controls in terms of lymphocyte lysate immunoblotting-based levels. We found that immunoreactivities for MeCP2 and AcH3/AcH4 are variable in both control and RTT subjects. Despite this variability, RTT subjects with nonsense mutations showed the expected reduction in C-terminal MeCP2 immunoreactivity. Regardless of MeCP2 levels, both subjects with (RTTPos) and without (RTTNeg) mutations had decreased levels of AcH3. The latter reductions were mainly driven by decreases in levels of H3 acetylated at lysine residue 14 (AcH3K14) and independent of parallel, but milder, decreases in immunoreactivity for MeH3 lysine residues (MeH3K4/MeH3K9). Within our study sample, reductions in AcH3 were correlated with severity of head growth deceleration in the RTTPos group. This contrasted with the lack of significant association between location of MeCP2 mutation and severity of the RTT neurologic phenotype. We concluded that there were distinctive profiles of histone acetylation/methylation in RTT peripheral cells, which reflect pathogenetic mechanisms common to subjects with clinical features of this disorder, regardless of mutation status, and that these patterns may be relevant to neurologic dysfunction in RTT.

MeCP2 expression in human cerebral cortex and lymphoid cells: immunochemical characterization of a novel higher-molecular-weight form.

Most cases of Rett syndrome are associated with mutations in the coding region of MECP2. Here we characterized a novel MeCP2 immunoreactivity, initially detected in normal cerebral cortex, by using a panel of MeCP2 antibodies and a combination of immunochemical techniques. We found that a novel higher-molecular-weight form (approximately 100 kDa) of MeCP2 is detected in human frontal cortex nuclear and synaptic fractions and in lymphoid cells. Although in the cortex the higher-molecular-weight form is relatively more abundant than the standard approximately 75 kDa immunoreactivity, in extranuclear locations, lymphocyte lysates show a predominance of the standard 75 kDa band. Lymphoblasts revealed a more complex pattern of MeCP2 expression, with prominent higher-molecular-weight form and both higher-molecular-weight form and 75 kDa MeCP2 immunoreactivities encompassing several closely migrating bands. We also successfully immunoprecipitated both the 75 kDa immunoreactivity and the higher-molecular-weight form MeCP2 from cerebral cortex with a C-terminal antibody and confirmed their identities by immunoblotting with C- and N-terminal antibodies. Our data provide compelling evidence for the existence of a novel MeCP2 molecular form, most likely the result of post-translational modification. Detection in both brain and lymphoid cells suggests an important role for higher-molecular-weight form in MeCP2-dependent processes. The presence of higher-molecular-weight form MeCP2 in postsynaptic fractions indicates a possible involvement in linking synaptic activity and transcriptional repression that, in turn, could play a role in the pathogenesis of Rett syndrome and other neurologic disorders.