Brazil nut ingestion increased plasma selenium but had minimal effects on lipids, apolipoproteins, and high-density lipoprotein function in human subjects

The Brazil nut (Bertholletia excelsa) of the Amazon region is consumed worldwide. It is rich in both monounsaturated fatty acids and polyunsaturated fatty acids and is known for its high selenium content. This study tested the hypothesis whether the consumption of this nut could affect the plasma lipids and apolipoproteins and some functional properties of the antiatherogenic high-density lipoprotein (HDL). Fifteen normolipidemic subjects aged 27.3 +/- 3.9 years and with body mass index of 23.8 +/- 2.8 kg/m(2) consumed 45 g of Brazil nuts per day during a 15-day period. On days 0 and 15, blood was collected for biochemical analysis, determination of HDL particle size, paraoxonase 1 activity, and lipid transfer from a lipoprotein-like nanoparticle to the HDL fraction. Brazil nut ingestion did not alter HDL, low-density lipoprotein cholesterol, triacylglycerols, apolipoprotein A-1, or apolipoprotein B concentrations. HDL particle diameter and the activity of antioxidative paraoxonase 1, mostly found in the HDL fraction, Were also unaffected. Supplementation increased the reception of cholesteryl esters (P <.05) by the HDL yet did not alter the reception of phospholipids, free cholesterol, or triacylglycerols. As expected, plasma selenium was significantly increased. However, the consumption of Brazil nuts for short duration by normolipidemic subjects in comparable amounts to those tested for other nuts did not alter serum lipid profile. The only alteration in HDL function was the increase in cholesteryl ester transfer. This latter finding may be beneficial because it would improve the nonatherogenic reverse cholesterol transport pathway. (c) 2008 Elsevier Inc. All rights reserved.

Effect of Exercise Training on Plasma Levels and Functional Properties of High-Density Lipoprotein Cholesterol in the Metabolic Syndrome

Intense lifestyle modifications can change the high-density lipoprotein (HDL) cholesterol concentration. The aim of the present study was to analyze the early effects of short-term exercise training, without any specific diet, on the HDL cholesterol plasma levels and HDL functional characteristics in patients with the metabolic syndrome (MS). We studied 30 sedentary subjects, 20 with and 10 without the MS. The patients with the MS underwent moderate intensity exercise training for 3 months on bicycle ergometers. Blood was sampled before and after training for biochemical analysis, paraoxonase-1 activity, and HDL subfraction composition and antioxidative capacity. Lipid transfer to HDL was assayed in vitro using a labeled nanoemulsion as the lipid donor. At baseline, the MS group had greater triglyceride levels and a lower HDL cholesterol concentration and lower paraoxonase-1 activity than did the controls. Training decreased the plasma triglycerides but did not change the low-density lipoprotein or HDL cholesterol levels. Nonetheless, exercise training increased the HDL subfractions` antioxidative capacity and paraoxonase-1 activity. After training, the MS group had compositional changes in the smallest HDL subfractions associated with increased free cholesterol and cholesterol ester transfers to HDL, reaching normal values. In conclusion, the present investigation has added relevant information about the dissociation between the quantitative and qualitative aspects of HDL after short-term exercise training without any specific diet in those with the MS, highlighting the importance of evaluating the functional aspects of the lipoproteins, in addition to their plasma levels. (C) 2011 Elsevier Inc. All rights reserved. (Am J Cardiol 2011;107:1168-1172)

Interactions among endocrinology, seasonal reproductive cycles and the nesting biology of the female green sea turtle

We collected data on plasma levels of testosterone+5a-dihydrotestosterone (T+DHT) and corticosterone (CORT) from adult female green sea turtles (Chelonia mydas) from southern Queensland during distinct stages of their reproductive cycle. Those females capable of breeding in a given year had elevated plasma steroid levels (T+DHT 0.91 +/- 0.08; CORT 1.05 +/- 0.29 ng/ml), associated with follicular development, until courtship began in October. At the beginning of the nesting season in November plasma levels of 2 CORT were related to when the female first nested (r(2) = 0.06; F = 10.45; P = 0.01). However, they were not correlated with the number of clutches a female laid in that season (F = 3.65; P = 0.08). We repeatedly sampled 23 turtles over the nesting season and profiled changes in steroids immediately following oviposition of each clutch. Levels of T+DHT (range 0.41-0.58 ng/ml) and CORT (range 2.13-2.81 ng/ml) were similar through the early stages of the nesting season and inter-nesting period, and declined to near basal levels (T+DHT 0.37 +/- 0.03 and CORT 1.85 +/- ng/ml) following the last clutch for the season. Steroid hormone levels were also low (T+DHT 0.38 +/- 0.16; CORT 0.46 +/- 0.21 ng/ml) in four independent post-breeding (atretic) females; samples for these females were taken at a time when body condition was presumably at the lowest for the season. Subtle changes in the nesting environment, such as variation in nesting habitat or the time of night that nesting occurred, were associated with a small and slow CORT increase. We suggest CORT is increased in nesting females to assist in lipid transfer to prepare the ovarian follicles and/or the reproductive organs for ovulation.

Enhanced diagnosis of pollen allergy using specific immunoglobulin E determination to detect major allergens and panallergens.

BACKGROUND Pollen is one of the main causes of allergic sensitization. It is not easy to make an etiological diagnosis of pollen-allergic patients because of the wide variety of sensitizing pollens, association with food allergy, and increasing incidence of polysensitization, which may result from the presence of allergens that are common to different species, as is the case of panallergens. OBJECTIVE To compare the results of skin prick tests (SPT) using whole pollen extract with specific immunoglobulin (Ig) E determination for several allergens (purified panallergens included) in the diagnosis of polysensitized pollen-allergic patients. METHODS The study sample comprised 179 pollen-sensitized patients who underwent SPT with pollen extract and allergen-specific IgE determination against different allergens. RESULTS The level of concordance between the traditional diagnostic test (SPT) and IgE determination was low, especially in patients sensitized to the panallergens profilin and polcalcin. In the case of SPT, the results demonstrated that patients who are sensitized to either of these panallergens present a significantly higher number of positive results than patients who are not. However, IgE determination revealed that while patients sensitized to polcalcins are sensitized to allergens from a higher number of pollens than the rest of the sample, this is not the case in patients sensitized to profilins. On the other hand, sensitization to profilin or lipid transfer proteins was clearly associated with food allergy. CONCLUSIONS Sensitization to panallergens could be a confounding factor in the diagnosis of polysensitized pollen-allergic patients as well as a marker for food allergy. However, more studies are required to further investigate the role of these molecules.

Differential effectiveness of microbially induced resistance against herbivorous insects in Arabidopsis.

Rhizobacteria-induced systemic resistance (ISR) and pathogen-induced systemic acquired resistance (SAR) have a broad, yet partly distinct, range of effectiveness against pathogenic microorganisms. Here, we investigated the effectiveness of ISR and SAR in Arabidopsis against the tissue-chewing insects Pieris rapae and Spodoptera exigua. Resistance against insects consists of direct defense, such as the production of toxins and feeding deterrents and indirect defense such as the production of plant volatiles that attract carnivorous enemies of the herbivores. Wind-tunnel experiments revealed that ISR and SAR did not affect herbivore-induced attraction of the parasitic wasp Cotesia rubecula (indirect defense). By contrast, ISR and SAR significantly reduced growth and development of the generalist herbivore S. exigua, although not that of the specialist P. rapae. This enhanced direct defense against S. exigua was associated with potentiated expression of the defense-related genes PDF1.2 and HEL. Expression profiling using a dedicated cDNA microarray revealed four additional, differentially primed genes in microbially induced S. exigua-challenged plants, three of which encode a lipid-transfer protein. Together, these results indicate that microbially induced plants are differentially primed for enhanced insect-responsive gene expression that is associated with increased direct defense against the generalist S. exigua but not against the specialist P. rapae.

Cuticular defects lead to full immunity to a major plant pathogen.

In addition to its role as a barrier, the cuticle is also a source of signals perceived by invading fungi. Cuticular breakdown products have been shown previously to be potent inducers of cutinase or developmental processes in fungal pathogens. Here the question was addressed as to whether plants themselves can perceive modifications of the cuticle. This was studied using Arabidopsis thaliana plants with altered cuticular structure. The expression of a cell wall-targeted fungal cutinase in A. thaliana was found to provide total immunity to Botrytis cinerea. The response observed in such cutinase-expressing plants is independent of signal transduction pathways involving salicylic acid, ethylene or jasmonic acid. It is accompanied by the release of a fungitoxic activity and increased expression of members of the lipid transfer protein, peroxidase and protein inhibitor gene families that provide resistance when overexpressed in wild-type plants. The same experiments were made in the bodyguard (bdg) mutant of A. thaliana. This mutant exhibits cuticular defects and remained free of symptoms after inoculation with B. cinerea. The expression of resistance was accompanied by the release of a fungitoxic activity and increased expression of the same genes as observed in cutinase-expressing plants. Structural defects of the cuticle can thus be converted into an effective multi-factorial defence, and reveal a hitherto hidden aspect of the innate immune response of plants.

Acetylation of cell wall is required for structural integrity of the leaf surface and exerts a global impact on plant stress responses.

The epidermis on leaves protects plants from pathogen invasion and provides a waterproof barrier. It consists of a layer of cells that is surrounded by thick cell walls, which are partially impregnated by highly hydrophobic cuticular components. We show that the Arabidopsis T-DNA insertion mutants of REDUCED WALL ACETYLATION 2 (rwa2), previously identified as having reduced O-acetylation of both pectins and hemicelluloses, exhibit pleiotrophic phenotype on the leaf surface. The cuticle layer appeared diffused and was significantly thicker and underneath cell wall layer was interspersed with electron-dense deposits. A large number of trichomes were collapsed and surface permeability of the leaves was enhanced in rwa2 as compared to the wild type. A massive reprogramming of the transcriptome was observed in rwa2 as compared to the wild type, including a coordinated up-regulation of genes involved in responses to abiotic stress, particularly detoxification of reactive oxygen species and defense against microbial pathogens (e.g., lipid transfer proteins, peroxidases). In accordance, peroxidase activities were found to be elevated in rwa2 as compared to the wild type. These results indicate that cell wall acetylation is essential for maintaining the structural integrity of leaf epidermis, and that reduction of cell wall acetylation leads to global stress responses in Arabidopsis.

Role of Phosphorylation of the Oxysterol Binding Protein (OSBP) in (PI(4)P) and Sterol-Containing Membrane Recognition and Binding

Studies have demonstrated that the oxysterol binding protein (OSBP) acts as a phosphatidylinositol phosphate (PIP)-sterol exchanger at membrane contact sites (MCS) of the endoplasmic reticulum (ER) and Golgi. OSBP is known to pick up phosphatidylinositol-4-phosphate (PI(4)P) from the ER, transfer it to the trans-Golgi in exchange for a cholesterol molecule that is then transferred from the trans-Golgi to the ER. Upon further examination of this pathway by Ridgway et al. (1), it appeared that phosphorylation of OSBP played a role in the localization of OSBP. The dephosphorylation state of OSBP was linked to Golgi localization and the depletion of cholesterol at the ER. To mimic the phosphorylated state of OSBP, the mutant OSBP-S5E was designed by Ridgway et al. (1). The lipid and sterol recognition by wt-OSBP and its phosphomimic mutant OSBP-S5E were investigated using immobilized lipid bilayers and dual polarization interferometry (DPI). DPI is a technique in which the protein binding affinity to immobilized lipid bilayers is measured and the binding behavior is examined through real time. Lipid bilayers containing 1,2-dioleoyl-sn-glycero-3-phosphocholine (DOPC) and varying concentrations of PI(4)Ps or sterols (cholesterol or 25-hydroxycholesterol) were immobilized on a silicon nitride chip. It was determined that wt-OSBP binds differently to PI(4)P-containing bilayers compared to OSBP-S5E. The binding behavior suggested that wt-OSBP extracts PI(4)P and the change in the binding behavior, in the case of OSBP-S5E, suggested that the phosphorylation of OSBP may prevent the recognition and/or extraction of PI(4)P. In the presence of sterols, the overall binding behavior of OSBP, regardless of phosphorylation state, was fairly similar. The maximum specific bound mass of OSBP to sterols did not differ as the concentration of sterols increased. However, comparing the maximum specific bound mass of OSBP to cholesterol with oxysterol (25-hydroxycholesterol), OSBP displayed nearly a 2-fold increase in bound mass. With the absence of the wt-OSBP-PI(4)P binding behavior, it can be speculated that the sterols were not extracted. In addition, the binding behavior of OSBP was further tested using a fluorescence based binding assay. Using 22-(N-(7-nitrobenz-2-oxa-1,3-diazol-4-yl)amino)-23,24-bisnor-5-cholen-3β-ol (22-NBD cholesterol), wt-OSBP a one site binding dissociation constant Kd, of 15 ± 1.4 nM was determined. OSBP-S5E did not bind to 22-NBD cholesterol and Kd value was not obtained.

Juvenile-mature wood transition in pine: correlation between wood properties and candidate gene expression profiles

There is a strong desire to exploit transcriptomics data from model species for the genetic improvement of non-model crops. Here, we use gene expression profiles from the commercial model Pinus taeda to identify candidate genes implicated in juvenile-mature wood transition in the non-model relative, P. sylvestris. Re-analysis of 'public domain' SAGE data from xylem tissues of P. taeda revealed 283 mature-abundant and 396 juvenile-abundant tags (P < 0.01), of which 70 and 137, respectively matched to genes with known function. Based on sequence similarity, we then isolated 16 putative homologues of genes that in P. taeda exhibited widest divergence in expression between juvenile and mature samples. Candidate expression levels in P. sylvestris were almost invariably differential between juvenile and mature woody tissue samples among two cohorts of five trees collected from the same seed source and selected for genetic uniformity by genetic distance analysis. However, the direction of differential expression was not always consistent with that described in the original P. taeda SAGE data. Correlation was observed between gene expression and juvenile-mature wood anatomical characteristics by OPLS analysis. Four candidates (alpha-tubulin, porin MIP1, lipid transfer protein and aquaporin like protein) apparently had greatest influence on the wood traits measured. Speculative function of these genes in relation to juvenile-mature wood transition is briefly explored. Thus, we demonstrate the feasibility of exploiting SAGE data from a model species to identify consistently differentially expressed candidates in a related non-model species.

Purification and molecular cloning of antimicrobial peptides from Scots pine seedlings

A novel protocol for rapid and efficient purification of antimicrobial peptides from plant seedlings has been developed. Two peptides with antimicrobial activity, designated p1 and p2, were purified nearly to homogeneity from Scots pine seedlings by a combination of sulfuric acid extraction, ammonium sulfate precipitation, heat-inactivation and ion-exchange chromatography on phosphocellulose. Purified proteins had molecular masses of 11 kDa (p1) and 5.8 kDa (p2) and were identified by mass spectrometry as defensin and lipid-transfer protein, respectively. We demonstrated their growth inhibitory effects against a group of phytopathogenic fungi. Furthermore, we report for the first time molecular cloning and characterization of defensin I cDNA from Scots pine. A cDNA expression library from 7 days Scots pine seedlings was generated and used to isolate a cDNA clone corresponding to Scots pine defensin, termed PsDef1. The full-length coding sequence of PsDef1 is 252 bp in length and has an open reading frame capable to encode a protein of 83 amino residues. The deduced sequence has the typical features of plant defensins, including an endoplasmic reticulum signal sequence of 33 aa, followed by a characteristic defensin domain of 50 amino acids representing its active form. The calculated molecular weight of the mature form of PsDef1 is 5601.6 Da, which correlates well with the results of SDS-PAGE analysis. Finally, the antimicrobial properties of PsDef1 against a panel of fungi and bacteria define it as a member of the morphogenic group of plant defensins. (C) 2009 Elsevier Inc. All rights reserved.

Isolamento, caracterização e expressão em sistema bacteriano de um gene que codifica uma proteína transportadora de lipídeos de Piper nigrum

A pimenteira-do-reino (Piper nigrum L.) constitui uma das espécies de pimenta mais amplamente utilizadas no mundo, pertencendo à família Piperaceae, a qual compreende cerca de 1400 espécies distribuídas principalmente no continente americano e sudeste da Ásia, onde esta cultura originou. A pimenteira-do-reino foi introduzida no Brasil no século XVII, e tornou-se uma cultura de importância econômica desde 1933. O Estado do Pará é o principal produto brasileiro de pimenta-do-reino, contudo sua produção vem sendo afetada pela doença fusariose causada pelo fungo Fusarium solani f. sp. piperis. Estudos prévios revelaram a identificação de sequencias de cDNA diferencialmente expressas durante a interação da pimenteira-do-reino com o F. solani f. sp. piperis. Entre elas, uma sequencia de cDNA parcial que codifica para uma proteína transportadora de lipídeos (LTP), a qual é conhecida por seu importante papel na defesa de plantas contra patógenos e insetos. Desta forma, o objetivo principal deste trabalho foi isolar e caracterizar as sequencias de cDNA e genômica de uma LTP de pimenteira-do-reino, denominada PnLTP. O cDNA completo da PnLTP isolado por meio de experimentos de RACE apresentou 621 bp com 32 pb and 235 bp nas regiões não traduzidas 5‘ e 3‘, respectivamente. Este cDNA contem uma ORF de 354 bp codificando uma proteína deduzida de 117 resíduos de aminoácidos que apresentou alta identidade com LTPs de outras espécies vegetais. Análises das sequencias revelou que a PnLTP contem um potencial peptídeo sinal na extremidade amino-terminal e oito resíduos de cisteína preditos por formar quatro pontes de dissulfeto, as quais poderiam contribuir para a estabilidade desta proteína. O alinhamento entre as sequencias de cDNA e genômica revelou a ausência de introns na região codificante do gene PnLTP, o que está de acordo ao encontrado em outros genes de LTPs de plantas. Por último, a PnLTP madura foi expressa em sistema bacteriano. Experimentos adicionais serão realizados com o objetivo de avaliar a habilidade da PnLTP recombinante em inibir o crescimento do F. solani f. sp. piperis.

Genomic and transcriptional analysis of allergen genes in apple (Malus x domestica)

Apple consumption is highly recomended for a healthy diet and is the most important fruit produced in temperate climate regions. Unfortunately, it is also one of the fruit that most ofthen provoks allergy in atopic patients and the only treatment available up to date for these apple allergic patients is the avoidance. Apple allergy is due to the presence of four major classes of allergens: Mal d 1 (PR-10/Bet v 1-like proteins), Mal d 2 (Thaumatine-like proteins), Mal d 3 (Lipid transfer protein) and Mal d 4 (profilin). In this work new advances in the characterization of apple allergen gene families have been reached using a multidisciplinary approach. First of all, a genomic approach was used for the characterization of the allergen gene families of Mal d 1 (task of Chapter 1), Mal d 2 and Mal d 4 (task of Chapter 5). In particular, in Chapter 1 the study of two large contiguos blocks of DNA sequences containing the Mal d 1 gene cluster on LG16 allowed to acquire many new findings on number and orientation of genes in the cluster, their physical distances, their regulatory sequences and the presence of other genes or pseudogenes in this genomic region. Three new members were discovered co-localizing with the other Mal d 1 genes of LG16 suggesting that the complexity of the genetic base of allergenicity will increase with new advances. Many retrotranspon elements were also retrieved in this cluster. Due to the developement of molecular markers on the two sequences, the anchoring of the physical and the genetic map of the region has been successfully achieved. Moreover, in Chapter 5 the existence of other loci for the Thaumatine-like protein family in apple (Mal d 2.03 on LG4 and Mal d 2.02 on LG17) respect the one reported up to now was demonstred for the first time. Also one new locus for profilins (Mal d 4.04) was mapped on LG2, close to the Mal d 4.02 locus, suggesting a cluster organization for this gene family, as is well reported for Mal d 1 family. Secondly, a methodological approach was used to set up an highly specific tool to discriminate and quantify the expression of each Mal d 1 allergen gene (task of Chapter 2). In aprticular, a set of 20 Mal d 1 gene specific primer pairs for the quantitative Real time PCR technique was validated and optimized. As a first application, this tool was used on leaves and fruit tissues of the cultivar Florina in order to identify the Mal d 1 allergen genes that are expressed in different tissues. The differential expression retrieved in this study revealed a tissue-specificity for some Mal d 1 genes: 10/20 Mal d 1 genes were expressed in fruits and, indeed, probably more involved in the allergic reactions; while 17/20 Mal d 1 genes were expressed in leaves challenged with the fungus Venturia inaequalis and therefore probably interesting in the study of the plant defense mechanism. In Chapter 3 the specific expression levels of the 10 Mal d 1 isoallergen genes, found to be expressed in fruits, were studied for the first time in skin and flesh of apples of different genotypes. A complex gene expression profile was obtained due to the high gene-, tissue- and genotype-variability. Despite this, Mal d 1.06A and Mal d 1.07 expression patterns resulted particularly associated with the degree of allergenicity of the different cultivars. They were not the most expressed Mal d 1 genes in apple but here it was hypotized a relevant importance in the determination of allergenicity for both qualitative and quantitative aspects of the Mal d 1 gene expression levels. In Chapter 4 a clear modulation for all the 17 PR-10 genes tested in young leaves of Florina after challenging with the fungus V. inaequalis have been reported but with a peculiar expression profile for each gene. Interestingly, all the Mal d 1 genes resulted up-regulated except Mal d 1.10 that was down-regulated after the challenging with the fungus. The differences in direction, timing and magnitude of induction seem to confirm the hypothesis of a subfunctionalization inside the gene family despite an high sequencce and structure similarity. Moreover, a modulation of PR-10 genes was showed both in compatible (Gala-V. inaequalis) and incompatible (Florina-V. inaequalis) interactions contribute to validate the hypothesis of an indirect role for at least some of these proteins in the induced defense responses. Finally, a certain modulation of PR-10 transcripts retrieved also in leaves treated with water confirm their abilty to respond also to abiotic stress. To conclude, the genomic approach used here allowed to create a comprehensive inventory of all the genes of allergen families, especially in the case of extended gene families like Mal d 1. This knowledge can be considered a basal prerequisite for many further studies. On the other hand, the specific transcriptional approach make it possible to evaluate the Mal d 1 genes behavior on different samples and conditions and therefore, to speculate on their involvement on apple allergenicity process. Considering the double nature of Mal d 1 proteins, as apple allergens and as PR-10 proteins, the gene expression analysis upon the attack of the fungus created the base for unravel the Mal d 1 biological functions. In particular, the knowledge acquired in this work about the PR-10 genes putatively more involved in the specific Malus-V. inaequalis interaction will be helpful, in the future, to drive the apple breeding for hypo-allergenicity genotype without compromise the mechanism of response of the plants to stress conditions. For the future, the survey of the differences in allergenicity among cultivars has to be be thorough including other genotypes and allergic patients in the tests. After this, the allelic diversity analysis with the high and low allergenic cultivars on all the allergen genes, in particular on the ones with transcription levels correlated to allergencity, will provide the genetic background of the low ones. This step from genes to alleles will allow the develop of molecular markers for them that might be used to effectively addressed the apple breeding for hypo-allergenicity. Another important step forward for the study of apple allergens will be the use of a specific proteomic approach since apple allergy is a multifactor-determined disease and only an interdisciplinary and integrated approach can be effective for its prevention and treatment.

Untersuchungen zur Interaktion von Cholesterin mit cholesterinbindenden Proteinen

Der geschwindigkeitsbestimmende Schritt bei der Biosynthese von Steroidhormonen ist der Transport von Cholesterin von der äußeren zur inneren Mitochondrienmembran, wo es zu dem Steroid Pregnenolon umgewandelt wird. Für diesen Transport ist das StAR-Protein (Steroidogenic Acute Regulatory Protein) notwendig. Ein weiteres an der Bildung von Steroidhormonen beteiligtes Protein ist das MLN64-Protein. Beide Proteine besitzen so genannte START-Domänen (StAR related Lipid Transfer-Domänen), die Cholesterin binden können. In dieser Arbeit konnte gezeigt werden, dass die START-Domänen von StAR und MLN64 Cholesterin auf unterschiedliche Weise binden. Es ist noch nicht geklärt, auf welche Weise das StAR-Protein den Cholesterintransport in die Mitochondrien bewirkt. Das StAR-Protein könnte Cholesterin binden und als Cholesterintransporter zwischen äußerer und innerer Mitochondrienmembran fungieren. Nach einer anderen Hypothese wirkt das StAR-Protein ausschließlich an der äußeren Mitochondrienmembran. Es wird auch postuliert, dass das StAR-Protein in einem teilweise entfalteten Zustand vorliegen muss, um seine Funktion erfüllen zu können. In dieser Arbeit konnte gezeigt werden, dass StAR ein fotoreaktives Cholesterinderivat bindet. Die Cholesterinbindungsstelle des StAR-Proteins konnte eingegrenzt werden. Es wurden Experimente durchgeführt, um zu überprüfen, ob das Protein tatsächlich nur in teilweise entfaltetem Zustand aktiv ist. Die Cholesterinbindung des MLN64-Proteins wurde ebenfalls mit dem fotoreaktiven Cholesterinderivat untersucht. Dabei zeigte sich, dass MLN64 offenbar mehrere Bindungsstellen für Cholesterin besitzt. Weitere Experimente beschäftigten sich mit der Charakterisierung der Cholesterinbindungsstelle des humanen Oxytocinrezeptors, eines G-Protein gekoppelten Hormonrezeptors, der durch Cholesterin reguliert wird. Dabei kam auch wieder das fotoreaktive Cholesterinderivat zum Einsatz. Außerdem wurden in dieser Arbeit Experimente durchgeführt, die sich mit der Regulation der Cholesterinbiosynthese befassten. Die Biosynthese des Cholesterins wird reguliert, indem in der Membran des Endoplasmatischen Retikulums verankerte Transkriptionsfaktoren proteolytisch freigesetzt werden. Das passiert nur dann, wenn der zelluläre Cholesterinspiegel niedrig ist. Bei diesem Regulationsmechanismus spielt das Protein SCAP eine zentrale Rolle (Sterol responsive element binding protein Cleavage Activating Protein). SCAP bindet Cholesterin spezifisch und wird dadurch reguliert. Im Rahmen dieser Arbeit konnte der Bereich von SCAP eingegrenzt werden, der Cholesterin bindet. Ebenso konnte gezeigt werden, dass die Interaktion von SCAP mit einem anderen, als Insig bezeichneten Protein indirekt durch das Cholesterinderivat 25-Hydroxycholesterin reguliert wird.

Proteine im Wein

Untersucht wird die Proteinzusammensetzung verschiedener Weinsorten der Anbaugebiete Rheinhessen, Rheingau und Pfalz. Es erfolgt erstmalig die Identifizierung der Proteine eines Rotweins (Portugieser 2005 aus der Pfalz). Hierzu werden die Proteine mittels Dialyse und Gefriertrocknung konzentriert, auf einer SDS-PAGE aufgetrennt und mittels ESI-Q-TOF-Massenspektrometrie identifiziert. Von den identifizierten Proteinen des Rotweins stammen zwölf aus der Weinbeere und sechs werden im Laufe der Weinbereitung durch die Hefe ein-gebracht. Der Großteil der über die Weinbeere in den Wein gelangten Proteine ist der Gruppe der Pathogenese bezogenen Proteine zuzuordnen. Ein Vergleich der Proteinzusammensetzung verschiedener Rotweine, Weißweine und Rosé-weine zeigt, dass ein gemeinsames Proteinspektrum in allen Weinsorten enthalten ist, es je-doch auch Unterschiede hinsichtlich der Proteinzusammensetzung und Konzentration der ein-zelnen Proteine zwischen den Rebsorten, insbesondere roten und weißen, gibt. In Portugieser Rotwein des Jahrgangs 2005 aus der Pfalz sowie in Dornfelder Rotwein der Jahrgänge 2002, 2003, 2004 und 2005 kann das als Allergen beschriebene Lipid Transfer Pro-tein (Isoform 4) nachgewiesen werden. In den untersuchten Weißweinsorten Riesling, Sau-vignon Blanc, Morio Muskat sowie Gewürztraminer ist dieses nicht bzw. nur in sehr geringen Mengen enthalten. Ebenfalls nur in Rotwein wird eine Klasse IV Endochitinase identifiziert, die als Allergen in jungem Rotwein bereits beschrieben wurde. Außerdem bedingen Chitin-asen zusammen mit den Thaumatin-ähnlichen Proteinen die Proteininstabilität. Thaumatin-ähnliche Proteine stellen in allen Weinsorten den größten Anteil der Proteine dar. Viele der Weinproteine liegen in glykosylierter Form vor, was durch die Perjodsäurefärbung und den Lektinblot gezeigt werden kann. Mit der Detektion von Thaumatin-ähnlichen Proteinen, Lipid Transfer Proteinen sowie einer Endochitinase werden potentielle Allergene im Wein nachgewiesen sowie strukturell mit be-kannten Allergenen verglichen. Die Kenntnis der Proteinzusammensetzung im Wein bildet die Grundlage für weiterführende Untersuchungen zur Weinstabilität und zur Allergenität von Weinproteinen.

Weinproteine - Allergenität und Trubbildung

Wein ist eine komplexe Lösung bestehend aus verschiedensten Komponenten wie Alkohol, Polyphenolen, Polysacchariden, Sulfiten und auch Proteinen. Auch wenn Proteine nur in geringen Mengen im Wein enthalten sind, beeinflussen sie die Qualität maßgeblich. Hier ist zum einen deren potentielle Unverträglichkeit bis hin zur Allergie zu nennen, und zum anderen der Einfluss der Weinproteine auf die Trübung. Im Rahmen einer epidemiologischen Studie der Arbeitsgruppe Fronk/Decker wurde festgestellt, dass es in der Weinregion Mainz ein starkes Interesse gibt die Ursache einer Weinunverträglichkeit zu untersuchen. Für weiterführende Untersuchungen wurde im Rahmen meiner Arbeit das Lipid Transfer Protein (LTP), welches als einziges Allergen der Traube bekannt ist, aus Trauben und Wein in hohem Reinheitsgrad isoliert. Es konnte gezeigt werden, dass dessen Struktur bei der Weinherstellung nicht maßgeblich verändert wurde. In einer klinischen Studie mit 29 Probanden wurde die potentielle Allergenität von Weinproteinen, im Besonderen des LTPs untersucht. Allerdings konnte bei den untersuchten Probanden keine echte IgE-Antikörper-vermittelte Allergie auf das LTP nachgewiesen werden. Daher wird die Ursache der beschriebenen Unverträglichkeiten bei anderen Weininhaltsstoffen oder auch auf pollenassoziierten Kreuzreaktionen vermutet. Bei der Entstehung einer Weintrübung sind zahlreiche Inhaltstoffe beteiligt. Die Rolle der Proteine ist in diesem Zusammenhang noch nicht abschließend geklärt. In dieser Arbeit wurde die Komplexität der Proteinzusammensetzung in Abhängigkeit von Lage, Jahrgang, Rebsorte sowie Behandlungsmaßnahmen gezeigt. Hinsichtlich der Stabilisierung und Trübungsrelevanz der Weinproteine konnte mittels biochemischer, bioinformatischer und biophysikalischer Methoden gezeigt werden, dass nur ein Teil der im Wein enthaltenen Thaumatin-ähnlichen Proteine und Chitinasen an der Trubbildung beteiligt sind. Die Invertase hingegen denaturiert erst ab einer Temperatur von ca. 83 °C und aggregiert in der Trübung. Somit führt dieses Protein bei Wärmetests zu Bentonitbedarfsermittlung in diesem Temperaturbereich zu einer Überschätzung. Die Versuche zur temperaturabhängigen Aggregation von Proteinen zeigen, wie wichtig die Berücksichtigung der Umgebungsfaktoren bei der Trubbildung ist. So konnten unterschiedliche Wechselwirkungen im Puffer- und realen Weinsystem von potentiell trübungsstabilisierenden Polysacchariden mit den Weinproteinen detektiert werden. Für das Arabinogalactan beispielsweise wurde in den Versuchen im Weinsystem eine destabilisierende Wirkung gefunden, während es bei den Versuchen im Puffersystem eine positive Wirkung auf die Stabilisierung der Probe zeigte. Es zeigte sich, dass die verschiedenen Weininhaltsstoffe in einer komplexen Wechselwirkung zueinander stehen und somit eine molekulare Interpretation erschweren.