BMPR2 and mTOR Signaling Pathways in Inflammatory Lung Diseases

Mushaben, Elizabeth M.

January 2012

No description available.

Molecular Biology

mTOR

BMPR2

asthma

pulmonary arterial hypertension

house dust mite

inflammation

Role of the EGFR Pathway in Lung Remodeling and Disease

Kramer, Elizabeth L.

January 2009

No description available.

Biology

EGFR

TGF-alpha

Egr-1

lung remodeling

house dust mite

airway smooth muscle remodeling

The Response of Vascular Dermal Enodethial Cells to House Dust Mite Extracts

Newman, Aaron Mathew

28 March 2008

No description available.

Biology

Immunology

Parasitology

House dust mites

inflammatory cytokines

allergies

dermal endothelial cells.

The Influence of Temperature on Population Growth and Allergen Production in Cultured House Dust Mites – <i>Dermatophagoides pteronyssinus</i> and <i>Dermatophagoides farinae</i>

Yella, Lakshmi

16 December 2009

No description available.

Biology

Entomology

Immunology

Parasitology

House Dust mites

temperature influence

Dermatophagoides species

allergens

Identification of Carcinogenic Di-amines in the Indoor Environment from Common Urethane Polymer Products

Nishioka, Marcia G.

January 2016

No description available.

Public Health

2,4-diaminotoluene

4,4-methylene dianiline

urethane polymers

micro-particles

house dust

indoor environment

Characterizing the Binding Potential, Activity, and Bioaccessibility of Peroxisome Proliferator Activated Receptor Gamma (PPAR&#947;) Ligands in Indoor Dust

FANG, MINGLIANG

January 2015

<p>Accumulating evidence is suggesting that exposure to some environmental contaminants may alter adipogenesis, resulting in accumulation of adipocytes, and often significant weight gain. Thus these types of contaminants are often referred to as obesogens. Many of these contaminants act via the activation (i.e. agonism) of the peroxisome proliferator activated receptor &#947; (PPAR&#947;) nuclear receptor. To date, very few chemicals have been identified as possible PPAR&#61543; ligands. In the thesis, our goal was to determine the PPAR&#947; ligand binding potency and activation of several groups of major semi-volatile organic compounds (SVOCs) that are ubiquitously detected in indoor environments, including flame retardants such as polybrominated diphenyl ethers (PBDEs) and Firemaster 550 (FM550), and other SVOCs such as phthalates, organotins, halogenated phenols and bisphenols. Additional attention was also given to the potential activity of the major metabolites of several of these compounds. Since the primary sink for many of these SVOCs is dust, and dust ingestion has been confirmed as an important pathway for SVOCs accumulation in humans, the potential PPAR&#61543; binding and activation in extracts from environmentally relevant dust samples was also investigated. </p><p> Previous studies have also shown that SVOCs sorbed to organic matrices (e.g., soil and sediment), were only partially bioaccessible (bioavailable), but it was unclear how bioaccessible these compounds are from indoor dust matrices. In addition, bioactivation of SVOCs (via metabolism) could exacerbate their PPAR&#61543; potency. Therefore, to adequately assess the potential risk of PPAR&#947; activation from exposure to SVOC mixtures in house dust, it is essential that one also investigates the bioaccessibility and bioactivation of these chemicals following ingestion. </p><p> In the first research aim of this thesis, the bioaccessibility and bioactivation of several important SVOCs in house dust was investigated. To accomplish this, Tenax beads (TA) encapsulated within a stainless steel insert were used as an infinite adsorption sink to estimate the dynamic absorption of a suite of flame retardants (FRs) commonly detected in indoor dust samples, and from a few polyurethane foam samples for comparison. Experimental results demonstrate that the bioaccessibility and stability of FRs following ingestion varies both by chemical and by matrix. Organophosphate flame retardants (OPFRs) had the highest estimated bioaccessibility (~80%) compared to brominated compounds (e.g. PBDEs), and values generally decreased with increasing Log Kow, with <30% bioaccessibility measured for the most hydrophobic compound tested, BDE209. In addition, the stability of the more labile SVOCs that contained ester groups (e.g. OPFRs and 2-ethylhexyl-tetrabromo-benzoate (TBB)) were examined in a simulated digestive fluid matrix. No significant changes in the OPFR concentrations were observed in this fluid; however, TBB was found to readily hydrolyze to tetrabromobenzoic acid (TBBA) in the intestinal fluid in the presence of lipases. </p><p> In research aims 2 and 3, two commercially available high-throughput bioassays, a fluorescence polarization PPAR&#61543; ligand binding assay (PolarScreenTM PPAR&#947;-competitor assay kit, Invitrogen, Aim 2) and a PPAR&#61543; reporter gene assay (GeneBLAzer PPAR&#947; non-DA Assay, Invitrogen, Aim 3) were used to investigate the binding potency and activation of several groups of SVOCs and dust extracts with human PPAR&#947; LBD; respectively. In the PPAR&#61543; binding assay (Aim 2), most of the tested compounds exhibited dose-dependent binding to PPAR&#947;. Mono(2-ethylhexyl) tetrabromophthalate (TB-MEHP), halogenated bisphenol/phenols, triphenyl phosphate and hydroxylated PBDEs were found to be potent or moderate PPAR&#947; ligands, based on the measured ligand binding dissociation constant (Kd). The most potent compound was 3-OH-BDE47, with an IC50 of 0.24 &#956;M. The extent of halogenation and the position of the hydroxyl group strongly affected binding. Of the dust samples tested, 21 of 24 samples showed significant PPAR&#61543; binding potency at a concentration of 3 mg dust equivalents (DEQ)/mL. In the PPAR&#61543; reporter assay (Aim 3), many SVOCs or their metabolites were either confirmed (based on previous reports) or for the first time were found to be potential PPAR&#947; agonists with various potency and efficacy. We also observed that 15 of 25 dust extracts examined showed an activation percentage more than 8% (calculated activation threshold) of the maximal activation induced by rosiglitazone (positive control). In some cases, activation was as high as 50% of the rosiglitazone activation for the dust extracts with the highest efficacy. Furthermore, the correlation between the reporter assay and the ligand binding assay among the house dust extracts was significant and positive (r = 0.7, p < 0.003), suggesting the binding potency was predicting activation. In research aim 2, the effect of bioactivation on the PPAR&#947; binding potency was also investigated. In vitro bioactivation of house dust extracts incubated with rat and human hepatic S9 fractions was used to investigate the role of in vivo biotransformation on PPAR gamma activity. The result showed that metabolism may lead to an increased binding affinity, as a 3-16% increase in PPAR&#947; binding activity was observed following bioactivation of the dust extracts.</p><p> In research aim 4, an effect-directed analysis (EDA) was used to identify compounds likely contributing to the observed PPAR&#61543; activity among the dust extract. Three dust extracts which showed significant PPAR&#61543; activity with approximately 25, 30, and 50% of the maximal response induced by rosiglitazone at the highest efficacy were fractionated using normal phase high-performance liquid chromatography (NP-HPLC) and each fraction was individually tested for PPAR&#61543; activity. Active fractions were then analyzed using gas-chromatography mass spectrometry (GC-MS) and possible compounds identified. Three dust extracts showed a similar PPAR&#61543; activity distribution among the NP-HPLC fractions. In the most active fractions, fatty acids (FAs) were identified as the most active chemicals. The concentrations of four FAs were measured in the house dust extracts, and the concentrations were found to be highly correlated with the observed PPAR&#61543; activity. These four FAs were also tested for PPAR&#61543; activity and found to be partial PPAR&#61543; agonists, particularly oleic and myristic acid. To tentatively identify sources of FAs, FAs in human/animal hair, dead skin cells, and two brands of cooking oil were analyzed. We found the same FAs in those samples and there concentrations were relatively abundant, ranging from 186 to 14,868 µg/g. Therefore, these results suggest that FAs are likely responsible for the observed PPAR&#61543; activity in indoor dust. Also, this is the first study reporting on the level of FAs in dust samples. The source of these FAs in dust may be either from the cooking or accumulation of human/animal cells in indoor dust.</p><p> In conclusion, this research demonstrates that many SVOCs ubiqutiously detected in house dust, and/or their metabolites, can be weak or moderate PPAR&#61543; ligands. In addition, chemical mixtures in house dust can effectively bind to and activate PPAR&#61543;. However, our results suggest FAs are probably responsible for these observations, and likely outcompeting the synthetic environmental contaminants present in the dust extract. Furthermore, bioactivation of contaminants present in house dust can potentially increase their affinity for PPAR&#61543;. And lastly, the bioaccessibility and stability of SVOCs in house dust after ingestion are likely to modulate the PPAR&#61543; activity in the environmental mixtures and should be considered in future risk assessments.</p> / Dissertation

Environmental health

Toxicology

Environmental science

Bioaccessibility

Bioactivation

Flame Retardants

House dust

Mixture Effect

Studies on particle resuspension, infant exposure, and the sleep microenvironment

Boor, Brandon Emil

17 September 2015

Understanding the transport of particulate and gaseous indoor air pollutants from source to exposure is paramount to improve our understanding of the complexities of the built environments in which we spend the majority of our time. This dissertation offers new insights on particle resuspension from indoor surfaces, infant exposure to organic contaminants released from crib mattresses, and the dynamics of pollutant transport and human exposure while sleeping. Particle resuspension is the physical process by which settled particles detach from a surface and become airborne through application of various aerodynamic and mechanical removal forces. Resuspension is an important indoor source of coarse mode particles (> 1 µm in diameter) and can be a source mechanism for biological matter and organic contaminants that accumulate in house dust. Settled dust deposits on indoor surfaces can vary considerably in their structure and mass loading, yet little is known as to how these parameters affect resuspension. Through wind tunnel experiments, this research demonstrates that the deposit structure (monolayer or multilayer) can have a significant impact on the number of particles that aerodynamically resuspend. Furthermore, this dissertation presents the first full-scale experimental chamber study to show that human body movements in bed can resuspend settled mattress dust particles. An indoor aerosol model was utilized to provide a mechanistic understanding of the impact of movement intensity, surface vibrations, bedroom ventilation rate, and dust loading on the resuspension flux and intake fraction of resuspended particles. Infants spend most of their time sleeping and are likely to be exposed to elevated concentrations of chemicals released from their crib mattresses. Through a combination of chamber experiments and solvent extractions, this research shows that infant crib mattresses can emit a variety of volatile organic compounds (VOCs) and contain numerous chemical additives, including phthalate and alternative plasticizers, flame retardants, and unreacted isocyanates. Additionally, this study discovered that infants are exposed to approximately twice the concentrations of VOCs in their breathing zones as compared to the bulk bedroom air, due to their close proximity to the source.

Indoor air quality

Indoor aerosols

Human exposure

Bedroom

House dust mites

VOCs

SVOCs

Phthalates

Flame retardants

Sleep

Mattress

Infant health

Yeast in atopic dermatitis etiology / Mielės atopinio dermatito etiologijoje

Zinkevičienė, Auksė

07 November 2012

Isolation and identification of all yeast species found on skin affected by atopic dermatitis, evaluation of their influence to the synthesis of IgE antibodies, and assessment of the possible cross-reactivity between different yeast species was performed. It was shown that in 36.9 % of the cases of atopic dermatitis, the affected skin was colonized with yeast belonging to three genera: Candida, Malassezia and Rhodotorula. Systematic and phylogenetic analysis of sequences from atypical Malassezia restricta strain M8 indicated that this isolate could be a member of a new yeast species. Three atypical Malassezia isolates M47, M54 and M235 were identified as non-lipid-dependent variants of Malassezia furfur. It was shown that in atopic dermatitis, cutaneous colonization with yeast is two-fold higher in adults than in children. The sera of atopic dermatitis patients have specific IgE antibodies to cross-reactive intracellular yeast antigens. Candida pelliculosa and house dust mites Dermatophagoides pteronyssinus and Dermatophagoides farinae might share some allergenic epitopes. The results of this study suggest that attention should be given to a cutaneous colonization by saprophytic yeast since the immune response to the allergens could further exacerbate allergic inflammation due to cross-reactive epitopes. / Išskirtos ir identifikuotos atopinio dermatito pažeistą odą kolonizuojančios mielių rūšys, įvertinta jų įtaka specifinių IgE antikūnų sintezei bei kryžminių reakcijų tarp skirtingų mielių rūšių galimybė. Nustatyta, kad 36,9 % atvejų atopinio dermatito pažeista oda yra kolonizuojama Candida, Malassezia ir Rhodotorula genties mielėmis. Išskirtas netipinėmis fiziologinėmis savybėmis pasižymintis Malassezia restricta kamienas M8 gali būti naujos rūšies atstovas. Išskirti netipinėmis fiziologinėmis savybėmis pasižymintys Malassezia genties kamienai M47, M54 ir M235 identifikuoti kaip nuo išorinio lipidų šaltinio nepriklausantys Malassezia furfur. Įrodyta, kad mielės suaugusių asmenų atopinio dermatito pažeistą odą kolonizuoja du kartus dažniau negu vaikų. Įrodyta, kad atopiniu dermatitu sergančių asmenų kraujo serume aptinkama prieš kryžmiškai reaguojančius mielių viduląstelinius antigenus nukreiptų specifinių IgE antikūnų. Taip pat nustatyta, kad Candida pelliculosa ir namų dulkių erkių Dermatophagoides pteronyssinus ir Dermatophagoides farinae alergenai gali turėti panašius epitopus. Darbo rezultatai patikimai rodo, kad atopinio dermatito pažeistą odą kolonizuojančios komensalinės mielės gali pasunkinti atopinio dermatito eigą dėl kryžmiškai reaguojančių epitopų tarp skirtingų biologinių rūšių antigenų.

Biology

Yeast

Atopic dermatitis

Candida

Malassezia

House dust mite

Mielės

Atopinis dermatitas

Candida

Malassezia

Namų dulkių erkės

Effects of toll-like receptor 2 ligands on T-cell responses to mite allergen in humans

Taylor, Rebecca Chantelle

January 2007

[Truncated abstract] The last few decades have witnessed an increase in the prevalence, morbidity and economic burden associated with asthma and allergic disease. This rising incidence cannot be completely explained by changes in genetic factors or by improvements in diagnostic procedures. Environmental factors, particularly those associated with a westernised lifestyle, are considered to be involved in this increase. In the late 1980’s Strachan was the first to link environmental factors with allergic disease, this theory became to be known as the ‘hygiene hypothesis’. This hypothesis links the “cleaner” more “healthy ” environment we now live in, with an increased risk of developing allergic disease. This effect is highlighted by studies linking farm and animal exposure (rich in microbial compounds) during early life with a decrease in allergic disease. Since then numerous studies have been undertaken to ascertain the factors present in the microbe rich environment, which elicit this protective effect. Many studies have revolved around endotoxin, however microbial components (mainly from Gram-positive bacteria) which signal through Toll-like receptor 2 (TLR2), have also shown that they can alter the allergic immune response. In mice models TLR2 has been shown to both exacerbate and inhibit allergic disease. The above research highlights the need for further studies into the effect of TLR2 ligands, and to define the mechanisms by which they exert their effects in human allergic disease. These mechanisms will be relevant to understanding the pathogenesis of allergy, but also might provide novel ways to treat allergy. The aims of the study outlined in this thesis were to determine whether in vitro exposure to TLR2 ligands could modify the established immune response to house dust mite allergen (HDM), and to examine the mechanisms by which this occurs. ... The addition of glucocorticoids to LTA enhanced the ability of this TLR2 ligand to inhibit IL-5 and IL-13 production by HDM-activated blood mononuclear cells. In conclusion, this study shows that TLR2 ligands have the ability to inhibit the Th2 response to mite allergen in previously sensitized individuals by an as yet unknown mechanism. However the findings described herein do provide an impetus for future studies designed to uncover novel mechanisms by which allergic responses can be ameliorated, and may open new treatment modalities.

T cells -- Receptors

House dust mites

Asthma -- Pathophysiology

Toll-like receptor (TLR)

Th2 cytokines

Allergy

Atopy

Innate immunity

Atividade bloqueadora de anticorpos IgG específicos purificados de soros de pacientes atópicos a ácaros sobre a reatividade de IgE a Dermatophagoides pteronyssinus por ELISA inibição

Siman, Isabella Lima

22 June 2013

One of the purposes of allergen-specific immunotherapy (SIT) is to modulate the humoral immune response against allergens with significant increases in allergen-specific IgG1 and IgG4 levels. These antibodies are associated with blocking activity by preventing IgE binding to allergen and leading to reduced inflammatory responses. This study aimed to investigate in vitro blocking activity of allergen-specific IgG antibodies on IgE reactivity to D. pteronyssinus (Dpt) in sera from atopic patients. Dpt-specific IgG antibodies were obtained from atopic sera and irrelevant IgG from non-atopic sera. IgG antibodies were purified by ammonium sulfate precipitation followed by Protein-G affinity chromatography and evaluated with regards to purity by SDS-PAGE and immunoreactivity by slot-blot and immunoblot assays. The blocking activity was evaluated by inhibition ELISA. The electrophoretical profile after salting-out precipitation showed an enrichment of high molecular weight proteins in the precipitated fraction and strongly stained bands in the ligand fraction after chromatography, compatible with molecular weight of human IgG. It was detected strong immunoreactivity to IgG, negligible to IgA, and no reactivity to IgE and IgM. Dpt-specific IgG fraction was capable to significantly reduce levels of IgE anti-Dpt, resulting in 35-51% inhibition of IgE reactivity to Dpt in atopic patient sera. Allergen-specific IgG antibodies purified using available and standardized methodology are able to inhibit IgE reactivity to Dpt allergen extract. In addition to the clinical symptoms improvement (subjective parameter), this approach reinforces that the intermittent measurement of serum allergen-specific IgG antibodies will be an important objective laboratorial parameter that will help specialists to follow their patients under SIT. / Uma das propostas da imunoterapia alérgeno específica é a de modular a resposta imune humoral contra alérgenos, com aumento significativo nos níveis de IgG1 e IgG4 específicos. Esses anticorpos estão associados com uma atividade bloqueadora, impedindo a ligação de anticorpos IgE ao alérgeno e levando a uma redução nas respostas inflamatórias. Esse estudo objetivou investigar a atividade bloqueadora, in vitro, de anticorpos IgG específicos sobre a reatividade de IgE a D. pteronyssinus (Dpt) em soros de pacientes atópicos. Anticorpos IgG específicos foram obtidos de soros de pacientes atópicos, e IgG irrelevante a partir de soros de não atópicos, e depois purificados por precipitação com sulfato de amônio, seguido de cromatografia de afinidade em Proteina G-agarose. A pureza desses anticorpos foi avaliada por SDS-PAGE, a imunoreatividade por ensaios de slot-blot e immunoblot, e a atividade bloqueadora por ELISA inibição. O perfil eletroforético, após precipitação com sulfato de amônio, mostrou um enriquecimento de proteínas de alto peso molecular na fração precipitada,e bandas fortemente coradas na fração ligante após a cromatografia, compatíveis com o peso molecular de IgG humana. Foi detectada uma forte imunoreatividade para IgG, leve para IgA, e nenhuma reatividade para IgE e IgM. A Fração IgG específica foi capaz de reduzir significantemente os níveis de IgE anti-Dpt, resultando em 35-51% de inibição da reatividade de IgE a Dpt em pools de soros de pacientes atópicos. Anticorpos IgG específicos purificados, através de uma metodologia disponível e padronizada, são capazes de inibir a reatividade de IgE ao extrato alergênico Dpt. Além da melhoria da sintomatologia clínica, considerada um parâmetro subjetivo, essa abordagem reforça que a avaliação intermitente de anticorpos IgG alérgeno-específicos pode ser uma ferramenta importante, auxiliando especialistas a acompanharem seus pacientes em processo de imunoterapia específica. / Mestre em Ciências da Saúde

Ácaros da poeira domiciliar

Dermatophagoides pteronyssinus

Anticorpos bloqueadores

IgG1

IgG4

IgE

Imunoglobulinas

House dust mite

Blocking antibodies

CNPQ::CIENCIAS DA SAUDE