Sjgren?s syndrome (SS) is a complex rheumatic disorder distinguished by autoimmune targeting of exocrine glands. Severe clinical manifestations may include debilitating dryness, pulmonary dysfunction, neuropathies, profound fatigue, and lymphoma. Salivary gland lesions involve activated ductal and acinar epithelial cells as well as irreversible immune-mediated tissue damage. Diagnosis and treatment of SS are notoriously difficult. Our group leads the international Sjgren?s Genetics Network (SGENE) comprised of 26 SS research groups dedicated to understanding the genetic architecture of SS. SGENE studies have identified 15 of the 16 SS risk loci thus far established in European-derived populations. SS risk loci coalesce in Type I and Type II interferon (IFN), NFkB signaling, antigen presentation, autoantibody production and lymphocyte trafficking pathways. Our genetic studies have provided strong evidence supporting a pathogenic role in SS from various innate and adaptive immune cell subsets, however, how these cell types are functionally affected by SS risk alleles remain poorly understood. Importantly, these studies also suggest new therapeutic targets, such as IL12 signaling, for which biologic therapies have been developed for related autoimmune diseases, but not previously considered in SS. Preliminary data in 2,809 SS cases suggest >40 additional candidate loci that warrant further study. Using insights from our genetic studies, we have developed a novel model of disease pathogenesis that differentiates 3 major patient subsets based on distinct molecular mechanisms. Our overall goals are to develop a more complete model of SS genetic determinants and to identify biomarkers that reflect the distinct molecular mechanisms represented in our disease model that could be developed into clinical tools for stratifying patients.
In Aim 1, we will greatly expand our current genome-wide association studies by leveraging our unique access to samples, laboratory and clinical data from well-characterized SGENE cohorts (>10,000 SS cases).
In Aim 2, we will test known SS risk variants for cell specific cis-regulatory effects on transcription in salivary gland tissues. Banked tissues obtained from minor labial gland biopsies from subjects (n=200) classified into the 3 major patient subsets defined in our proposed disease model, plus a subset of patients with lymphoma and controls will be evaluated. Spatial transcriptomic technologies will be utilized to generate gene expression data in which morphological context is retained at nearly single cell resolution.
In Aim 3, we will integrate genetic, transcriptomic and proteomic data to develop multidimensional panels of soluble immune mediators that can serve as peripheral biomarkers for these patient subgroups to facilitate patient stratification. These studies will expand our understanding of genetic contributors to SS, identify cell-specific functional effects on transcription, foster development of new clinical tools for more accurate diagnostics, and establish the feasibility of rapid clinical translation for therapeutic targeting in well-defined patient subsets using novel and existing biologics directed against pathways and cell types that drive this complex autoimmune disorder. !

Public Health Relevance

Sjgren?s syndrome (SS) is a complex autoimmune disorder, affects 2-3.1 million Americans, involves dysfunction of moisture-producing glands that is mediated by immune responses, and can result in irreversible tissue damage and serious complications such as neurological problems, lung disease and cancer. This project involves a large international group of SS experts collaborating to identify and characterize genetic risk factors that alter the function of various cell types in salivary glands and the immune system. This new knowledge is critical for identifying effective ways to subset patients based on different causes of SS, developing better clinical tools to diagnose patients earlier before tissue damage occurs, identifying patients at high risk for lymphoma and other poor outcomes, and helping to establish the feasibility of novel candidate therapies and repurposing existing drugs that may be effective in SS but have not yet been considered for clinical trials. !

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Research Project (R01)
Project #
1R01AR073855-01A1
Application #
10052910
Study Section
Genetics of Health and Disease Study Section (GHD)
Program Officer
Wang, Yan Z
Project Start
2020-09-07
Project End
2025-08-31
Budget Start
2020-09-07
Budget End
2021-08-31
Support Year
1
Fiscal Year
2020
Total Cost
Indirect Cost
Name
Oklahoma Medical Research Foundation
Department
Type
DUNS #
077333797
City
Oklahoma City
State
OK
Country
United States
Zip Code
73104