Clinical Trials Directory

Trials / Completed

CompletedNCT00671892

Role of TLR4 in Environmental Asthma

Status
Completed
Phase
Phase 1
Study type
Interventional
Enrollment
855 (actual)
Sponsor
John Sundy · Academic / Other
Sex
All
Age
18 Years – 40 Years
Healthy volunteers
Accepted

Summary

The overall goal of this project is to identify genes that are involved in the development of airflow obstruction and airway inflammation in asthmatics, and to determine whether polymorphisms in these differentially expressed genes predispose individuals to develop asthma. In this project, we hypothesize that polymorphisms of genes expressed by the airway epithelia in asthmatics following specific airway challenges predispose individuals to the development of asthma.

Detailed description

The overall goal of this project is to identify genes that are involved in the development of airflow obstruction and airway inflammation in asthmatics, and to determine whether polymorphisms in these differentially expressed genes predispose individuals to develop asthma. Asthma is a complex genetic disorder that is caused by a number of unique gene-gene and gene-environment interactions. The search for asthma susceptibility genes has been complicated by the broad clinical phenotype of asthma, the polygenic inheritance pattern of this disease, and the substantial role of environmental exposures in the development and progression of asthma. Inhaled environmental agents induce several biologic responses in asthmatics; including the induction of acquired and innate immunity that leads to acute and chronic forms of airway inflammation and airway remodeling. Acquired immune responses to protein antigens, such as house dust mite allergen, often induce type 2 T lymphocyte-driven responses (Th2) which appear to be important in atopic asthma. Recent studies by our group and others demonstrate that innate immunity, initiated by inhalation of bacterial and viral pathogens, organic dusts, endotoxin or lipopolysaccharide (LPS), air pollution particulate matter, and ozone, can also cause acute and chronic forms of airflow obstruction, airway inflammation, and even airway remodeling. Emerging evidence indicates that both acquired and innate immune responses in the lung may be influenced by polymorphic genes. For instance, functional polymorphisms in the IL-4 receptor gene are thought to preferentially stimulate acquired Th2 immune responses to inhaled allergens, and we have recently shown that common co-segregating mutations in TLR4 (a transmembrane receptor for LPS) are associated with diminished airway responsiveness to inhaled LPS. These observations suggest that environmental challenges can be used to narrow the phenotype of asthma and investigate genetic susceptibility in biologically specific forms of asthma. In this project, we hypothesize that polymorphisms of genes expressed by the airway epithelia in asthmatics following specific airway challenges predispose individuals to the development of asthma. To test this hypothesis, we plan to identify the genes that are differentially expressed by airway epithelial cells following challenge with stimuli that induce acquired (house dust mite) or innate (LPS) immune responses, and then determine whether polymorphisms in these genes are associated with the development of asthma in a separate, well characterized, familial cohort of asthmatics. This is a powerful approach that is designed to identify novel genes that are associated with both asthma pathogenesis (differentially expressed in the exposure-response study) and asthma susceptibility (genetically associated with asthma in a linkage/association study). We hypothesize that individuals with the co-segregating Asp299Gly and Thr399Ile mutations in the TLR4 gene will exhibit a defective immune response to LPS, and that specific components of altered immunity in these individuals are linked to characteristic airway responses to LPS. Specific Aim 1: Approximately 1000 individuals will be genotyped in order to establish 3 study groups: 10 subjects homozygous for the TLR4 299/399 mutation; 10 subjects heterozygous for the TLR4 299/399 mutation; and 10 subjects homozygous for wild type TLR 4. Specific Aim 2: Ten individuals with wild type TLR4, 10 individuals heterozygous for mutant TLR4 and 10 individuals homozygous for mutant TLR4 will be phenotyped for airway responsiveness to inhaled LPS. Specific Aim 3: In vitro immune responses to LPS will be measured in peripheral blood monocytes and PMNs from 10 individuals with wild type TLR4, 10 individuals heterozygous for mutant TLR4 and 10 individuals homozygous for mutant TLR4. Specific Aim 4: The in vivo immune response to inhaled LPS will be assessed in bronchoalveolar lavage (BAL) fluid and cells, and airway endobronchial brush biopsy cells in 10 individuals with wild type TLR4, 10 individuals heterozygous for mutant TLR4 and 10 individuals homozygous for mutant TLR4.

Conditions

Interventions

TypeNameDescription
BIOLOGICALLipopolysaccharide endotoxinDelivered in nebulized form expressed in activity units(endotoxin units -EU). Subjects receive each dose 30 min after completing the previous dose, dose duration is approximately 10 minutes: Challenge One first saline then 5000 EU 10,000 EU 20,000 EU Challenge 1 and 2 must be at least 2 weeks apart. Challenge 2 Saline 40,000 EU 80,000 EU

Timeline

Start date
2001-09-01
Primary completion
2006-08-01
Completion
2008-04-01
First posted
2008-05-05
Last updated
2013-07-16

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT00671892. Inclusion in this directory is not an endorsement.