SYSTEMS APPROACH TO ANALYZING THE TGFbeta/SMAD3 GENE REGULATORY PATHWAY IN A549 CELLS

Handley, Daniel

24 June 2008

Public Health Significance: Idiopathic pulmonary fibrosis (IPF) is a devastating lung disease affecting over 100,000 people every year in the U.S. There is no prevention, cure, or effective treatment for the disease, and the life expectancy after diagnosis is about 3 years. The disease is characterized by progressive and irreversible deposition of fibrotic proteins in the lung. The etiology of the disease is poorly understood, but there is abundant evidence the pro-fibrotic cytokine transforming growth factor beta (TGFb) plays a major role in the disease process. TGFb acts principally through the DNA-binding transcription factor SMAD3. The research presented here may lead directly to new pharmacological interventions for IPF, thereby substantially decreasing morbidity and mortality rates for the disease. To gain new insights into how the TGFb/SMAD3 transcriptional regulatory pathway might promote pulmonary fibrosis, I combined high-throughput molecular biology measurements with systems biology computational tools to study transcriptional regulation of the TGFb/SMAD3 pathway in A549 alveolar epithelial cells. The first tier of measurement consisted of chromatin immunoprecipitation combined with whole-genome promoter microarrays (ChIP-on-chip). This technique globally identifies the promoter regions of genes bound by the SMAD3 transcription factor. A second tier of systems-wide information consisted of whole-genome gene expression microarrays, which measures levels of mRNA activated by the TGFb/SMAD3 pathway. These two tiers of transcription information were integrated and analyzed using systems biology computational tools. The analysis yielded three novel findings. The first is that the TGFb/SMAD3 pathway transcriptionally regulates transgelin, a protein that signifies the TGFb-induced transition of epithelial cells into collagen-secreting myofibroblasts. The second is that the TGFb/SMAD3 pathway also regulates the transcription factor FOXA2, which plays a major role in lung development and surfactant production. The third is possible TGFbeta/SMAD3 transcriptional regulation of PINX1, which is a potent suppressor of telomere reverse transcriptase (hTERT). All three of these proteins are mechanistically linked to genes or processes that are already suspected of being involved in the pathophysiology of IPF. Thus, a systems-level approach to studying transcriptional regulatory networks is a valuable tool for discovering new biological pathways or new connections between known biological pathways.

Human Genetics

Genetic Epidemiology of Longitudinal Change in Bone Mineral Density in Mexican Americans: The San Antonio Family Osteoporosis Study

Shaffer, John R

23 June 2008

Motivation: Bone mineral density (BMD), the principal determinant of bone strength and a risk factor for osteoporosis, is the net result of two processes: (i) the acquisition of peak BMD during young adulthood, and (ii) the subsequent rate of bone loss with age. While the genetics of peak BMD has been extensively studied, the specific genetic polymorphisms influencing peak BMD and the genetic contribution to bone loss are largely unknown. We investigated the extent to which genes influence 5-year change in BMD and searched for specific chromosomal regions influencing peak BMD and change in BMD in 1047 Mexican Americans from 34 large, multigenerational families. Methods: BMD measurements of the hip, spine, and forearm were collected at baseline and follow-up (3-8 years later, mean = 5.6 years) by dual-energy x-ray absoptiometry, from which annual BMD change was calculated. Pedigree-based maximum likelihood methods modeling the variance decomposition of longitudinal and cross-sectional measurements of BMD were used to estimate heritability (h²) and perform genome-wide linkage analysis (using a 7.6 cM genetic map) for BMD change and peak BMD. The effects of several environmental covariates, notably sex, age, weight, change in weight, and menopause, were simultaneously modeled. Results: We determined that change in BMD varied over time and could be categorized into two heritable (h² = 31% to 44%) phases: early adult bone loss in participants <45 years of age and later bone loss in participants >45 years of age. A quantitative trait locus (QTL) influencing early bone loss was observed on chromosome 1q (LOD = 3.6) in the cohort <45 years; no specific chromosomal regions influencing change in BMD were observed in the cohort >45 years. By comparing cross-sectional genetic analyses at baseline and follow-up, we identified QTLs on chromosomes 6q and 13q with consistent effects on peak BMD of the hip and showed that QTLs influencing peak BMD did not overlap with QTLs influencing bone loss. Public health significance: This work demonstrated the importance of genes in the etiology of osteoporosis, a growing public health problem. Understanding the genetic determinants of bone strength could lead to new biological targets for the treatment of osteoporosis, and/or the identification of persons at risk who would benefit from preventative interventions.

Human Genetics

Identification and Functional Characterization of Estrogen Response Elements in the Human Herpesvirus 8 Genome

Shea, Patrick Ryan

26 September 2008

Interaction between viral infection and host genetic susceptibility has increasingly become recognized as an important factor in the etiology of human cancer. Epidemiologic studies suggest that prostate cancer is a complex disease involving host genetic factors and environmental exposures that modify risk. Here we report a novel interaction between infection with human herpesvirus 8 (HHV8) and the human estrogen receptor alpha XbaI polymorphism which is associated with an increased risk of prostate cancer (p=0.032; OR=3.10 95%CI (1.42-6.77)) in an Afrocaribbean population from Tobago. HHV-8 is the causative agent in Kaposis sarcoma (KS). Despite similar HHV-8 seroprevalences, KS lesions are much less common in females, suggesting that sex hormones influence KS pathology. The estrogen receptor (ER) is a ligand-dependant transcription factor that mediates the genomic effects of hormone signaling. Because of the suggested role of sex hormones in KS development and prostate cancer risk, we hypothesized that some HHV-8 genes might be activated by ER. We computationally scanned the HHV-8 genome for estrogen response elements (EREs). Our analysis identified high scoring EREs in the promoter regions of several genes in the HHV-8 genome, including the regulatory gene K8. Binding of ERs to HHV-8 EREs was confirmed by electrophoretic mobility shift assay and ELISA. To demonstrate that HHV-8 EREs were functional, promoter regions were cloned into reporter plasmids and luciferase expression measured with and without estradiol. Our results demonstrated increased reporter transcription in response to estrogens in cells expressing ERα. Further, we analyzed other gammaherpesviruses and identified several conserved EREs, including high-scoring EREs in the promoter of the EBV homolog of K8. These results indicate that estrogen may influence transcription from the HHV-8 genome, outside of the normal viral transcription pathway. Our findings may help to explain the differential risk of KS and could represent an important regulatory pathway in other gammaherpesviruses. Prostate cancer and KS present a tremendous burden on public health, not only in the US, but worldwide. Insights into the pathogenesis of these diseases may help us to understand their basic biology and provide potential screening and therapeutic targets.

Human Genetics

Variance Component Score Statistics for QTL Mapping

Bhattacharjee, Samsiddhi

28 September 2008

Variance Components based models are commonly used for linkage and association mapping of quantitative traits. Score Tests based on these models are generally more robust to various modeling assumptions than the corresponding likelihood ratio tests. They are also computationally much simpler than the likelihood ratio tests, making them the natural choice for whole genome scans, which have become increasingly common with the emergence of high-throughput genotyping technologies. However the popularity of score statistics have been limited, due to several practical issues, such as lack of availability of software and guidelines for choice of score statistic variants. In this dissertation, we develop novel score statistics for both linkage and association mapping, elucidate the theoretical properties of these and of the existing variants, and also compare some of the existing and proposed score variants using simulation. Analytical arguments and simulation results are used to develop guidelines for choice of appropriate score variants under different practical situations. In this dissertation, we are primarily concerned with identifying robust and powerful score statistics for detecting genetic susceptibility loci for complex diseases by mapping underlying quantitative phenotypes. Unlike Mendelian disorders, complex diseases in humans typically have a large number of modest genetic effects, which cumulatively have a significant impact on the disease. The work in this dissertation is aimed at maximizing the power of genome scans to detect more of these small genetic effects. This is of considerable public health significance, as the identified genetic variants can be followed up to gain important insights into the etiology of the disease, which can further lead to development of screening tests and preventive and therapeutic interventions for complex diseases.

Human Genetics

The dopaminergic network and genetic susceptibility to schizophrenia

Talkowski, Michael E

28 September 2008

Background: Schizophrenia is a disabling illness with unknown pathogenesis. Estimates of heritability suggest a substantial genetic contribution; however genetic studies to date have been equivocal. Uncovering liability loci may therefore require analyses of functionally related genes. Rooted in this assumption, this dissertation describes a series of studies investigating a genetic epidemiological foundation for the commonly cited hypothesis suggesting dopaminergic dysfunction in schizophrenia pathogenesis, i.e. the 'dopamine hypothesis'. Studies: The initial study investigated DRD3 and identified novel associations across the gene. The second study considered a larger network of dopaminergic genes in two independent Caucasian samples, detecting replicated associations and epistatic interactions. This study proposed a risk model for schizophrenia centered on the dopamine transporter. Study #3 investigated a dopamine precursor, phenylalanine hydroxylase, in four independent samples, identifying a single SNP (rs1522305) that was significantly replicated in two samples. Study #4 was motivated by the hypothesis of a shared genetic etiology for schizophrenia and bipolar disorder. This study comprehensively evaluated the dopaminergic network, selecting 431 'tag' SNPs from 40 genes among large schizophrenia and bipolar cohorts contrasted with adult controls. Across all genes 60% of nominally significant schizophrenia risk factors were also associated with bipolar disorder. The results supported DRD3 variations as risk factors for both disorders, confirmed several previously reported associations, and proposed new targets for future research. Conclusion: These results suggest dopaminergic gene variations could play an etiological role in the pathogenesis of schizophrenia and possibly bipolar 1 disorder. Additional replicate studies are warranted. Public Health Significance: Schizophrenia (SZ) is devastating. When the Global Burden of Disease study calculated disability adjusted life years, weighted for the severity of disability, they determined active psychosis seen in schizophrenia produces disability equal to quadriplegia. Schizophrenia has been estimated to be among the top ten causes of disability worldwide. As schizophrenia is common (roughly 1% point prevalence worldwide), the economic burden to society is substantial. Pathogenesis is unknown and treatment is palliative. Therefore understanding the genetic etiology could facilitate development of promising therapeutics.

Human Genetics

Transcriptional Regulation Of MicroRNA Genes And The Regulatory Networks In Which They Participate

Corcoran, David Lee

28 September 2008

MicroRNA genes are short, non-coding RNAs that function as post-transcriptional gene regulators. Although they have been implicated in organismal development as well as a variety of human diseases, there is still surprisingly little known about their transcriptional regulation. The understanding of microRNA transcription is very important for determining their regulators as well as the specific role they may play in signaling cascades. This dissertation focused on the comparison of mammalian microRNA promoters and upstream sequences to those of known protein coding genes. This dissertation is also focused on determining potential regulatory networks that microRNA genes may participate in, particularly those networks involved in the TGFβ / SMAD signaling pathway. The comparison of intergenic microRNA upstream sequences to those of protein coding genes revealed that the former are up to twice as conserved as the latter, except in the first 500 base pairs where the conservation is similar. Further investigation of the upstream sequences by RNA Polymerase II ChIP-chip revealed the transcription start site for 35 primary-microRNA transcripts. The identification of features capable of distinguishing core promoter regions from background sequences using a support vector machine approach revealed that the transcription start site of primary-microRNA genes share the same sequence features as protein coding genes. These results suggest that in fact microRNA genes are transcribed by the same mechanism by which protein coding genes are transcribed. This information allowed us to then identify the regulatory elements of microRNA genes in the same manner in which we use for protein coding genes. Identification of a SMAD family transcription factor binding site upstream of the human let-7d microRNA revealed a feed-forward regulatory circuit involved in epithelial mesenchymal transition. This provided the first evidence of a direct link between a growth factor and the expression of a microRNA gene. The understanding of microRNA transcriptional regulation has great public health significance. The ability to understand how these post-transcriptional gene regulators function in cellular networks may provide new molecular targets for cures or therapies to a variety of human diseases.

Human Genetics

CANDIDATE GENE ASSOCIATION STUDY OF BASELINE AND LONGITUDINAL BONE-QUALITY TRAITS IN A HEALTHY OLDER POPULATION

Mukherjee, Ankur

29 January 2009

Motivation: Areal bone mineral density (BMD) is one of the major risk factors for osteoporosis, a public health concern in the US and other countries. The goal of our study was to identify genes that influenced areal BMD in a population of older, originally healthy, African American and Caucasian American individuals. Methods: We used three genetic association methods (single SNP-single trait, single SNP-multiple trait, multiple SNP-single trait) to test for association between measures of BMD at three time points (2 years apart) and genotype data on 1439 single nucleotide polymorphisms (SNPs) in 138 candidate genes. We first developed a model to determine the genetic (SNP) coverage of our candidate genes, and then we assessed possible population within our populations, two factors that influence the power of association studies. We also investigated the effect of covariates on BMD traits using both cross-sectional as well as longitudinal methods, and used the BMD residuals from these analyses in our association studies. Results: The SNP coverage of our candidate genes was reasonable, 52.99% compared to the theroetical HAPMAP coverage of 55.8%. We also classified our Caucasian American and African Americans based on genetic ancestry and controlled for subtle substructure. We detected several associations between candidate genes and BMD traits in all the four groups, but the most significant and consistent result was obtained in Caucasian American males. Five SNPs in the GNRHR locus were significantly associated with hip BMD trait using both the single SNP association approaches, as well as the pathway based analysis. These results need to be followed up in additional populations. Public Health Significance: As the world population ages, the cost, rate of mortality and morbidity of osteoporosis is also increasing. Identification of genes that influence risk of developing osteoporosis may help identify people at risk, as well as facilitate development of drugs and other measures to mitigate the effects of this disease.

Human Genetics

FUNCTIONAL CHARACTERIZATION OF APOLIPOPROTEIN H POLYMORPHISMS AND THEIR RELATION TO SYSTEMIC LUPUS ERYTHEMATOSUS

Suresh, Sangita

29 January 2009

Sequence variation in gene promoters is often associated with disease risk. In this study, a 1,418 bp sequence of the 5'-flanking region of the APOH (encoding for β₂-glycoprotein I) has been functionally characterized by in vitro analysis. Associations of APOH promoter SNPs with systemic lupus erythematosus (SLE) risk and related phenotypes along with their effect on human plasma β₂GPI levels were examined. Transient transfections, dual-luciferase reporter gene assays were performed in COS-1 and HepG2 cells. HepG2 nuclear extracts was used for electrophoretic mobility shift assay (EMSA). A case-control design and genotyped 345 SLE women and 454 healthy control women for 12 APOH promoter single nucleotide polymorphisms (SNPs) (-1284C>G, -1219G>A, -1190G>C, -1076G>A, -1055T>G, -759A>G, - 700C>A, -643T>C, -627A>C, -581A>C, -363C>T -38G>A, and -32C>A). Haplotype analyses were performed using EH (Estimate Haplotype-frequencies) and Haploview programs. Deletion analysis localized the core promoter of APOH ∼160 bp upstream of ATG codon with the presence of critical cis-acting elements between -166 and -65. Functional relevance for three SNPs (-1219G>A, -643T>C and -32C>A) that resulted in lower promoter activity (51%, 40% and 37%, respectively) as compared to the wild-type alleles in COS-1 cells. EMSA demonstrated HepG2 nuclear protein(s) bind to the elements located in the regions of the three SNPs. Overall haplotype distribution of the APOH promoter SNPs was significantly different between cases and controls (P = 0.009). The -643C allele was found to be protective against carotid plaque formation (adjusted OR = 0.37, P = 0.013) among SLE patients. Three-site haplotype analysis revealed one haplotype carrying -32A to be significantly associated with decreased plasma β₂GPI levels (P < 0.001) and another haplotype harboring the minor allele for -1219A showed a significant albeit less pronounced association (P = 0.046). Our data indicate that APOH promoter variants may be involved in the etiology of SLE, especially the risk for autoimmune-mediated cardiovascular disease. Public Health Significance: Cardiovascular disease is the leading cause of death in the U.S. and other developed nations. Understanding its pathogenesis will help in formulating newer therapeutic strategies and treatment that may decrease the adverse consequences of accelerated atherosclerosis in SLE patients.

Human Genetics

ASSOCIATION OF PARAOXONASE-2 GENETIC VARIATION WITH SERUM PARAOXONASE ACTIVITY AND SYSTEMIC LUPUS ERYTHEMATOSUS

Dasgupta, Sudeshna

29 January 2009

SLE, a severe autoimmune disease is of major public health relevance since it predominantly affects women at child bearing age and even though immunosuppressives have increased the life span of SLE patients, lack of absolute cure is still troubling. Risk of premature coronary heart disease (CHD) is strikingly high in SLE women (35-44 years) than the general population. Low paraoxonase (PON) activity is associated with increased CHD as well as SLE risk. PON multigene (PON1, PON2 PON3) are anti-oxidants that cluster on chromosome 7q21-22 at 94.5- 94.6 Mb, in close vicinity to a linkage peak for SLE on 7q21.1 at 77.5Mb. PON1 (PON1/192, PON1/55) and PON3 (PON3/10340,PON3/2115) single nucleotide polymorphisms (SNPs) are the known significant modulators of PON/paraoxon activity. The purpose of this study was to determine the impact of PON2 tagSNPs with PON activity, SLE risk, lupus nephritis, parameters of LDL oxidation and subclinical carotid vascular disease measures. Nineteen PON2 tagSNPs were screened from HapMap and SeattleSNP databases in 489 SLE and 569 healthy control women from two recruitment sites (Pittsburgh and Chicago), using Pyrosequencing, RFLP or TaqMan allelic discrimination methods. Pairwise linkage disequilibrium (r2¡Ý 0.8) identified 15 tagSNPs that captured all the 19 PON2 variants in our sample. Although none of the PON2 tagSNPs revealed any obvious association with SLE risk, low PON/paraoxon activity was independently associated with SLE. Two PON2 variants [rs6954345(Ser311Cys) and rs987539] showed significant association with PON/paraoxon activity in Pittsburgh whites (cases+controls). Our data revealed few modest associations of PON2 variants with lupus nephritis (rs17876205, rs17876183, rs10261470, rs987539, rs9641164) in white (Pittsburgh+Chicago) SLE cases, parameters of LDL oxidation [PON2/rs11545941(Ala148Gly), rs13306702, rs2286233, rs10261470, rs17876205, rs4729189] in white (Pittsburgh) SLE cases and consistent association of PON2/rs11981433 and rs12704795 SNPs with carotid intima media thickness and plaque in white(Pittsburgh+Chicago) SLE cases. In conclusion, our data suggest that PON2 genetic variants have modest effect on serum PON activity, risk of lupus nephritis and subclinical carotid vascular disease measures in SLE patients.

Human Genetics

IMPROVING KNOWLEDGE, EVALUATING OPINIONS, AND ASCERTAINING THE ACCEPTANCE OF GENETIC COUNSELING FOR BIPOLAR DISORDER: ANALYSIS OF RESPONSES IN THE UNITED STATES AND INDIA.

Frace, Stefanie J

29 June 2009

Bipolar disorder (BPD) is a serious mood disorder that affects about 1% of the population of the United States. Twin, family, and adoption studies have shown evidence for a genetic component of BPD, but monozygotic twin concordance is less than one, indicating that BPD is a multifactorial disorder. First-degree relatives of an individual with BPD have approximately a 5-30% risk of developing BPD because of shared genes and environment. No strong susceptibility loci for BPD have been located, although some areas of interest are currently being evaluated. With increasing genetic information, demand for genetic counseling for BPD and other psychiatric disorders are increasing. This study used anonymous surveys for individuals with BPD and their first-degree relatives to assess knowledge, opinions, and acceptance of genetic counseling. The Health Belief Model was used to assess current health beliefs relating to BPD. Additionally, using a brief educational session, the effect of education on knowledge and health beliefs was assessed. A similar study was conducted by Dr. Triptish Bhatia in India and she has provided her unpublished results so that they could be included in this document for comparative purposes. Data show that the perceived severity of BPD and perceived barriers of testing were high in both populations. Data show that the perceived susceptibility, benefit, and knowledge of BPD in affected individuals were higher in the US population than in the Indian population. Ascertainment criteria and the evaluation procedures for the samples were different in both countries and they cannot be considered to be representative of the respective 'populations'. Results from this study can be applied to the creation of public health programs in which clients can learn more about their condition, how BPD is related to genomics and what the risk is to their offspring.

Human Genetics