Surface-controlled contact printing for nanowire device fabrication on a large scale.

Assembly strategies for functional nanowire devices that merge bottom-up and top-down technologies have been debated for over a decade. Although several breakthroughs have been reported, nanowire device fabrication techniques remain generally incompatible with large-scale and high-yield top-down microelectronics manufacturing. Strategies enabling the controlled transfer of nanowires from the growth substrate to pre-defined locations on a target surface would help to address this challenge. Based on the promising concept of mechanical nanowire transfer, we developed the technique of surface-controlled contact printing, which is based purely on dry friction between a nanowire and a target surface. Surface features, so-called catchers, alter the local frictional force or deposition probability and allow the positioning of single nanowires. Surface-controlled contact printing extends the current scope of nanowire alignment strategies with the intention to facilitate efficient nanowire device fabrication. This is demonstrated by the simultaneous assembly of 36 nanowire resistors within a chip area of greater than 2 cm(2) aided only by mask-assisted photolithography.

The growth hormone--IGF-I axis as a mediator for the association between FTO variants and body mass index: results of the Study of Health in Pomerania.

CONTEXT: Risk alleles of the fat mass- and obesity-associated gene (FTO) are related not only to increased body mass index (BMI) values but also to mortality. It was speculated that cellular effects of the FTO gene affect most organs, especially their ability to maintain or regenerate proper function when afflicted by various diseases. FTO is highly expressed in the hypothalamus and also in the pituitary gland. The decrease in growth hormone (GH) secretion is known to cause a decrease in lean body mass in older subjects. OBJECTIVE: We hypothesized an association of rs9926289 with insulin-like growth factor (IGF)-I. DESIGN AND SETTING: Cross-sectional data from the Study of Health in Pomerania, a population-based study in the northeastern part of Germany, were used. PARTICIPANTS: For the final analyses, 3882 subjects aged 20-79 years were available. MAIN OUTCOME MEASURES: Continuous IGF-I, low IGF-I according to clinically meaningful age- and gender-specific reference values, and BMI were used as outcome measures. RESULTS: Over all age groups, a statistically significant relationship between FTO and IGF-I was found. In subjects younger than 55 years of age, homozygous carriers of the FTO risk allele exhibited lower serum IGF-I levels adjusted for 5-year age groups, gender and IGF-I binding protein 3 levels (linear regression, coefficient±s.e. for FTO AA genotype:-8.6±2.8; P=0.002). Further adjustments for obesity and diabetes did not suspend this association (coefficient:-7.8; P=0.005). As expected, the FTO AA genotype effect on BMI was reduced from 0.76 to 0.62 kg m(-2) by including IGF-I. No relationship between FTO and IGF-I levels was found in subjects aged 55 years or older (-2.7±2.4; P=0.260 for FTO AA genotype adjusted for age, gender and IGF-I binding protein 3 levels). CONCLUSION: We propose that the GH-IGF-I axis is a mediator for the relationship between FTO and BMI.

Doxorubicin-induced cell death requires cathepsin B in HeLa cells.

The cysteine protease cathepsin B acts as a key player in apoptosis. Cathepsin B-mediated cell death is induced by various stimuli such as ischemia, bile acids or TNFα. Whether cathepsin B can be influenced by anticancer drugs, however, has not been studied in detail. Here, we describe the modulation of doxorubicin-induced cell death by silencing of cathepsin B expression. Previously, it was shown that doxorubicin, in contrast to other drugs, selectively regulates expression and activity of cathepsin B. Selective silencing of cathepsin B by siRNA or the cathepsin B specific inhibitor CA074Me modified doxorubicin-mediated cell death in Hela tumor cells. Both Caspase 3 activation and PARP cleavage were significantly reduced in cells lacking cathepsin B. Moreover, mitochondrial membrane permeabilization as well as the release of cytochrome C and AIF from mitochondria into cytosol induced by doxorubicin were significantly diminished in cathepsin B suppressed cells. In addition, doxorubicin associated down-regulation of XIAP was not observed in cathepsin B silenced cells. Lack of cathepsin B significantly modified cell cycle regulatory proteins such as cdk1, Wee1 and p21 without significant changes in G(1), S or G(2)M cell cycle phases maybe indicating further cell cycle independent actions of these proteins. Consequently, cell viability following doxorubicin was significantly elevated in cells with cathepsin B silencing. In summary, our data strongly suggest a role of cathepsin B in doxorubicin-induced cell death. Therefore, increased expression of cathepsin B in various types of cancer can modify susceptibility towards doxorubicin.

[Pharmacogenomics in routine medical care]. / Pharmakogenomik in der Praxis.

Pharmacogenomics investigates inherited differences in drug responses including beneficial and adverse reactions. While a considerable amount of evidence for genetic influences on drug responses has been accumulated within the last decade, predominantly in small studies, its value in routine therapy is still a matter of debate. The aim of this review is to discuss well established examples where pharmacogenomic techniques can improve routine treatment. Examples include genotyping of CYP2D6 in the context of antidepressant therapy, analysis of TPMT variants for the prediction of mercaptopurine-induced bone marrow depression, VKORC1 and CYP2C9 analyses for a better control of anticoagulant administration and the SLCO1B1 variant in the context of statin-induced myopathies.

Associations of anthropometric parameters with serum TSH, prolactin, IGF-I, and testosterone levels: results of the study of health in Pomerania (SHIP).

Obesity is a major risk factor for chronic diseases including cardiovascular disorders. Divergent associations between obesity and hormonal changes have been reported. The objective of the present study was to analyse the associations between anthropometric measurements and hormone levels including serum thyroid stimulating hormone (TSH), prolactin, insulin-like growth factor (IGF) I, and testosterone. Form the cross-sectional Study of Health in Pomerania 1 women and 1 864 men aged 20-79 years were included in the analyses. Serum TSH, prolactin, IGF-I, and testosterone levels were determined by immunochemiluminescent procedures. Body height, weight as well as waist and hip circumferences were measured. Body mass index (BMI), waist-to-hip ratio (WHR), and waist-to-height ratio (WHtR) were calculated. Our analyses revealed inverse linear associations of waist and hip circumferences, BMI and WHtR with serum TSH levels and linear associations between waist circumference as well as WHtR and serum prolactin levels in women. In men, inverse linear and quadratic associations between anthropometric parameters and serum IGF-I as well as serum testosterone levels were found. Additionally, men with high waist circumference had more often low serum IGF-I or testosterone levels and less often high serum IGF-I or testosterone levels compared to men with low waist circumference. These sex-specific differences should be noted in studies regarding hormones and obesity.

[Pharmacokinetic problems in clinical practice: role of drug transporters]. / Pharmakokinetische Probleme in der Praxis: Rolle von Arzneimitteltransportern.

Drug disposition is controlled by drug metabolism and drug transport. In the last decade numerous drug transporters have been identified and characterized in the context of drug uptake, efflux and interactions. This article reviews major advancements in this field. Efflux pumps like the multidrug resistance protein 1 (MDR1, ABCB1) are expressed in the intestine where they secrete drugs back into the intestinal lumen. Inhibitors of ABCB1 can increase the bioavailability of such drugs due to an increased absorption. Inducers of metabolism (rifampicin, carbamazepine, St. John's Wort) also induce the expression of drug transporters like ABCB1. Subsequently, an increased intestinal secretion in addition to an increased metabolism can diminish plasma levels of drugs, for example ciclosporin. The relevance of uptake transporters is increasingly recognized. SLCO1B1 is a hepatic uptake transporter involved in the absorption of statins. Inhibition of SLCO1B1 as well as common genetic variants can lead to increased bioavailability and to adverse reactions, ultimately culminating in rhabdomyolysis.

G protein beta3 polymorphism and triptan response in cluster headache.

Only about 70% of migraine and cluster headache (CH) patients report significant treatment responses to triptans, which are agonists at 5-HT(1B/D) receptors belonging to the family of G protein-coupled receptors. We analyzed whether a common polymorphism in the gene for the G protein beta3 subunit (GNB3 C825T) modulates responder rates to triptans among a cohort of 231 unrelated Caucasian CH patients. A total of 180 CH patients used triptans, of whom 71.1% reported treatment success. The adjusted odds ratio for treatment response to triptans for heterozygous carriers of the GNB3 825T allele was 2.96 (95% confidence interval 1.34-6.56; P=0.0074) vs carriers of the 825CC genotype. The GNB3 genotype status did not affect responses to other acute and preventive therapeutic regimes including oxygen, verapamil, and corticosteroids, i.e., drugs not directly affecting G proteins. We conclude that pain relief by triptans is significantly modulated by a common genetic GNB3 variant.

The G1246A polymorphism in the hypocretin receptor 2 gene is not associated with treatment response in cluster headache.

The risk of cluster headache (CH) is associated with the G-allele of the G1246A polymorphism in the hypocretin receptor 2 (HCRTR2) gene. First-line medication is effective in only about 70-80% of CH patients. We hypothesized that the HCRTR2 G1246A polymorphism is also of pharmacogenetic relevance in CH and may affect treatment response. We performed a prospective cohort study among 184 unrelated White CH patients. While the HCRTR2 1246G allele was significantly associated with CH in this group, treatment outcomes with triptans, oxygen, verapamil and corticosteroids remained unaffected. Our results do not support a role of the HCRTR2 G1246A polymorphism in drug responses in CH.

Cluster headache is associated with the G1246A polymorphism in the hypocretin receptor 2 gene.

The G1246A polymorphism in the gene of the hypocretin receptor 2 (HCRTR2) has been linked to the risk for cluster headache (CH). The authors examined this association in a large sample of 226 patients with CH and 266 controls from Germany. The genotype and allele distribution varied significantly between patients and controls. Homozygous carriers of the G-allele had a twofold increase in risk for CH (OR 1.97; 95% CI 1.32 to 2.92; p = 0.0007).

Glucose and lipid metabolism in young lean normotensive males with the G protein beta3 825T-allele.

The 825T-allele of the C825T polymorphism in GNB3, the gene for the G protein beta3 subunit, has been reported to be associated with essential hypertension and obesity. Expression of Gbeta3s, the gene product of GNB3 associated with the GNB3 825T-allele, causes increased signal transduction which may contribute to pathogenetic mechanisms ultimately resulting in hypertension and obesity. Given the known involvement of heterotrimeric G proteins in insulin secretion and insulin action on the cellular level, we analysed insulin sensitivity in each 15 young lean normotensive males with TC- and CC-genotypes, respectively. Blood glucose and serum insulin samples were taken during a standard oral glucose tolerance test. Insulin-stimulated glucose disposal was analysed by euglycemic-hyperinsulinemic clamp. Both groups did not differ with regard to the time-courses for glucose or insulin concentrations in the oral glucose tolerance test. Furthermore, insulin-stimulated glucose disposal was virtually independent of genotype. The TC-genotype is not associated with a primary defect in insulin secretion or sensitivity suggesting that obesity and hypertension in carriers of 825T do not likely result from primary alterations in glucose and insulin homeostasis. However, GNB3 825T-associated obesity may predispose to insulin resistance, an issue which remains to be investigated. Furthermore, fasting cholesterol was significantly higher in TC compared to CC genotype (4.71 versus 3.96 mmol/l; p = 0.007) suggesting that enhanced G protein signalling might be associated with alterations of cholesterol metabolism.

Human G protein beta3 subunit variant does not alter hypercarbic or hypoxic ventilatory response.

Hypercarbic respiratory drive is mainly determined by PCO(2) and pH with activity of the intracellular Na+/H+ exchanger (NHE) playing an important role in maintaining intracellular pH and respiratory drive. Because NHE activity varies with genetically different G-protein beta3 subunits (GNB3) (C/T polymorphism at nucleotide position 825) different genotypes might alter respiratory regulation. To test the hypothesis that short-term ventilatory responses vary with different GNB3 healthy volunteers with different genotypes (CC, TC, TT) were exposed to either hyperoxic hypercarbia (n=33) or to isocapnic hypoxia (n=31), respectively. There was no difference between CC, TC, and TT genotypes in hypercarbic and hypoxic respiratory drive when assessed as the ratio of minute ventilation over endexpiratory PCO(2) changes (DeltaV.E/DeltaPETCO(2)), maximal tolerable PETCO(2), and ratio of changes in ventilation over arterial haemoglobin desaturation (DeltaV.E/DeltaSO(2)), respectively. Thus, short-term hypercarbic and hypoxic ventilatory drive do not differ between individuals with genotypes encoding different GNB3. Whilst respiratory control may still be influenced by G-protein aberration, other mechanisms seem to have a more important role in controlling ventilation.

Interaction of the G protein beta 3 subunit T825 allele and the IRS-1 Arg972 variant in type 2 diabetes.

BACKGROUND: Type 2 diabetes mellitus is a common late-onset disease with a strong genetic component. It is characterized by insulin resistance which results from alterations in insulin signal transduction. The G protein beta 3 subunit 825T allele was recently found to be associated with hypertension and obesity which makes it a sensible candidate gene for type 2 diabetes. METHODS: In a case-control study on 320 male patients and 962 male healthy controls we investigated the association of two candidate genes with diabetes, i.e. (i) the GNB3 825T allele, associated with a G protein beta 3 subunit splice variant and enhanced intracellular signal transduction, and (ii) the insulin receptor substrate-1 (IRS-1) 972Arg variant, which encodes a protein variant associated with cellular insulin resistance. RESULTS: The GNB3 825T allele and the IRS-1 972Arg variant were significantly associated with diabetes (odds ratios for either variant 1.4 1.8). Odds ratios were 3 4 in males carrying both alleles. CONCLUSIONS: The results document an association of a hypertension susceptibility gene with type 2 diabetes which may partially explain the frequent coexistence of both disorders.

Enhanced epinephrine-induced platelet aggregation in individuals carrying the G protein beta3 subunit 825T allele.

The 825T allele of a common C825T polymorphism in the gene encoding the beta3 subunit of heterotrimeric G proteins is associated with enhanced activation of pertussis toxin (PTX)-sensitive G proteins. We investigated responses of human platelets upon stimulation with epinephrine, which activates PTX-sensitive G proteins, and with agonists which activate additionally, or exclusively PTX-insensitive pathways. Slopes and maximum of the secondary aggregation were significantly enhanced in platelets from 825T allele carriers after epinephrine, and after combined epinephrine/ADP. This effect was more pronounced after inhibition of the cyclooxygenase-2 pathway by acetylsalicylic acid. This phenomenon appeared independent of platelet secretion, or inhibition of the adenylyl cyclase.

G protein beta 3 gene: structure, promoter, and additional polymorphisms.

Recent studies have shown that a polymorphism (C825T) in the gene encoding the G protein beta 3 subunit (GNB3) is associated with hypertension and obesity. We characterized the entire GNB3 gene, which spans 7.5 kb and is composed of 11 exons and 10 introns. Its promoter lacks a TATA box but harbors GC-rich regions. The functional activity of the GNB3 promoter was verified with reporter gene assays that also demonstrated its inducibility by phorbol esters. A novel polymorphism in the promoter region A(-350)G occurred with frequencies (G allele) of 76%, 97%, and 61% in Africans, Chinese, and Germans, respectively. Reporter gene constructs with either the A or the G allele did not differ with regard to inducement of the reporter protein. A silent nucleotide exchange in the coding region (A657T) occurred with T allele frequencies ranging from 0.5% to 2.4%. Another polymorphism (G814A) results in the replacement of glycine by serine at position 272. In Germans, the A allele occurred at a frequency of 10%. Finally, a C1429T polymorphism in the 3' untranslated region of GNB3 was identified that occurred at T allele frequencies of 38%, 17%, and 30% in Africans, Chinese, and Germans, respectively. Haplotype prediction indicated in Germans an almost complete association of GNB3 825T with 1429T, and vice versa. An analysis of these polymorphic loci in nonhuman primates revealed that the ancestral GNB3 gene harbored the (-350)G, 825C, and 1429C alleles. This is the first complete characterization of the human GNB3 gene and its promoter region, which will enable refined epidemiological and biochemical investigations of GNB3 in hypertension and obesity.

[Genetic polymorphism of the G-protein beta3 subunit, obesity and essential hypertension]. / Genetischer Polymorphismus in der G-Protein-beta 3-Untereinheit, Adipositas und essentielle Hypertonie.

Following a classical candidate gene approach we have detected a C825T polymorphism in the gene GNB3 which encodes the G beta 3 subunit of heterotrimeric G proteins. The 825T allele causes alternative splicing of the gene and the generation of a truncated but functionally active splice variant of G beta 3 which is referred to as G beta 3s. Thus, genotyping for the C825T polymorphism is predictive for the activation of certain G proteins in humans. The 825T allele is significantly associated with an increased risk for hypertension in Caucasians, most likely "low renin hypertension" and it accumulates significantly in individuals with a strong family history of hypertension. Highest frequencies of the 825T allele (up to 80%) are found in old ethnicities, e.g. black Africans, African Americans, bushmen, and Australian aborigines. This suggests that enhanced G protein activation represents a thrifty genotype which might have facilitated survival in our ancestors. Frequencies of the 825T allele are significant lower in Asians (approximately 40 to 50%) and Caucasians (30%). More recent studies show that young 825T allele carriers are predisposed for obesity and this association could be confirmed across different ethnicities including young Germans, as well as Chinese and black African individuals. Thus, genotyping at the GNB3 locus represents an ideal tool for preventive medicine in that individuals at risk for obesity and hypertension can be identified early and counteract their genetic predisposition through changes in lifestyle. In individuals with borderline hypertension genotyping can facilitate the decision for medical treatment as a positive test result confirms an inherited form of hypertension.

Worldwide ethnic distribution of the G protein beta3 subunit 825T allele and its association with obesity in Caucasian, Chinese, and Black African individuals.

Recently, it was demonstrated that one allele (825T) of the gene encoding the G protein beta3 subunit (GNB3) is associated with hypertension in Germans. This study investigates a possible association with obesity in young male Germans, Chinese, and black South Africans with low, intermediate, and high 825T allele frequencies, respectively. In each of these three distinct cohorts, the 825T allele frequency was increased significantly in overweight (body mass index [BMI] > or =25 kg/m2) and obese individuals (BMI >27 kg/m2) compared to those with normal weight. The 825T allele frequencies in these three BMI groups were, respectively, 29.5, 39.3, and 47.7% in Germans, 46.8, 53.9, and 58.6% in Chinese, and 83.1, 87.7, and 90.9% in South Africans. In each of these three distinct groups, the 825T allele was significantly associated with obesity with odds ratios between 2 and 3. More urban than rural black Africans were overweight despite similar 825T allele frequencies in both populations, which underscores the role of both genetic and environmental factors. BP values in young male whites increased significantly with increasing BMI values but were independent of the C825T polymorphism, suggesting that hypertension associated with the 825T allele could be a consequence of obesity. Genotyping of 5254 individuals from 55 native population samples from Africa, the Americas, Europe, Asia, Australia, and New Guinea demonstrated highest 825T allele frequencies in black Africans (82%) and intermediate values in east Asians (47%). It is anticipated that high frequencies of the 825T allele in Africans and Asians may contribute to an obesity and hypertension epidemic if Westernization of lifestyles continues.

Sodium-hydrogen exchange and platelet function.

On stimulation of platelets with agonists, for example, thrombin, a rapid rise in intracellular pH is observed. This alkalinization is mediated by an increase in transport activity of the Na(+)/H(+) exchanger isoform NHE1. In addition to this Na(+)/H(+) exchange mechanism, platelets express bicarbonate/chloride exchangers, which also contribute to pH(i) homeostasis. The main functions of NHE1 in platelets include pH(i) control, volume regulation, and participation in cell signaling. The isoform NHE1 is highly sensitive toward inhibition by EIPA, Hoe694, and Hoe642. The regulation of NHE1 activity is complex and is not completely understood. It includes the MAP kinase cascade, the Ca/calmodulin system, several heterotrimeric G proteins (Galpha12, Galpha13, Galphaq, and Galphai), small G proteins (ras, cdc42, rhoA), and downstream kinases (e.g., p160ROCK). Volume challenges stimulate tyrosine phosphorylation of cytoplasmic proteins, which ultimately activate NHE1. Thrombin, thromboxane, platelet-activating factor, angiotensin II, endothelin, phorbol ester, and Ca(2+) ionophors stimulate NHE1 activity in platelets. Blockade of platelet NHE1 can inhibit platelet activation. With the development of highly specific NHE1 inhibitors, detailed investigation of the relationships between NHE1 activity and platelet activation now becomes feasible.

The G protein beta3 subunit splice variant Gbeta3-s causes enhanced chemotaxis of human neutrophils in response to interleukin-8.

A C825T polymorphism was recently described in GNB3, the gene encoding the Gbeta3 subunit of heterotrimeric G proteins. The 825T allele is associated with the expression of a shorter splice variant (Gbeta3-s) and enhanced signal transduction via pertussis toxin (PTX)-sensitive G proteins. Given the pivotal role of G protein betagamma dimers in chemotaxis, we related the genotype at the GNB3 locus as a marker for Gbeta3-s expression to chemotaxis of human neutrophils in response to stimulation with interleukin-8 (IL-8). IL-8, which activates a CXC receptor coupled to PTX-sensitive G proteins, induced at 10 nM an enhanced maximum chemotaxis of neutrophils from individuals with TC/TT genotype compared to CC genotype. Furthermore, migration of neutrophils from 825T allele carriers was 2.5-fold higher at 0.1 nM and 1 nM IL-8. At these concentrations of IL-8, no significant chemotaxis was observed in neutrophils from homozygous C825 allele carriers, indicating a genotype-dependent, different potency of IL-8 to chemoattract neutrophils. In contrast, IL-8-induced Ca2+ signals and O2- generation were independent of genotype. The role of Gbeta3-s in enhanced chemotaxis could be confirmed by determination of chemotaxis of COS-7 cells following transfection with either Gbeta3-s or "wild-type" Gbeta3. Upon stimulation of the transfected cells with the chemoattractant lysophosphatidic acid (LPA), we observed an enhanced chemotactic response of Gbeta3-s-transfected compared to Gbeta3-transfected COS-7 cells, confirming that Gbeta3-s actually causes enhanced chemotaxis.