The Chiang Lab - Create. Innovate. Discover.

Who We Are

罢丑别鈥Chiang Laboratory, directed by鈥Dr. Austin W.T. Chiang, is part of the Immunology Center of Georgia at 麻豆官网首页入口. Our lab is dedicated to advancing the frontiers of鈥bioinformatics, AI/ML, and systems immunology, with a strong emphasis on translational research. 

Dr. Chiang is a鈥痗omputational biologist鈥痺ith expertise spanning biomedical informatics, multi-omics integration, and systems immunology. He received his Ph.D. from National Yang-Ming University in Biomedical Informatics and Systems Biology, and completed postdoctoral training at Academia Sinica and the University of California, San Diego. Before joining 麻豆官网首页入口 in 2023, he served as an Assistant Project Scientist at UC San Diego. 

Over the course of his career, Dr. Chiang has authored more than鈥50 scientific manuscripts, filed鈥痵ix patents, and collaborated widely with international leaders in immunology, systems biology, and biotechnology. His research bridges鈥痜undamental discovery science鈥痺ith鈥痑pplied biomedical innovation, particularly in the areas of immune regulation, therapeutic protein engineering, and computational drug discovery. 

 

Dr. Autin Chiang

 

Austin W.T. Chiang, PhD
Assistant Professor
Immunology Center of Georgia

 

Jump to: What We Study  Research Team Current Research Interests Publications

Contact Us

The Hedrick Lab

Health Sciences Campus

lhedrick@augusta.edu

What We Study

The overarching mission of our lab is to understand how the immune system functions across different diseases and to leverage鈥痗omputational and experimental strategies鈥痜or new therapeutic insights. We combine鈥痵ingle-cell multi-omics, AI-based predictive modeling, and systems biology frameworks鈥痶o investigate immune regulation, disease pathogenesis, and biomanufacturing. 

Our research focuses on: 

  • Cardiovascular Immunology: Dissecting how immune tolerance breaks down in atherosclerosis and coronary artery disease, and identifying immune subsets that drive chronic vascular inflammation. 
  • Vaccine and Infection Biology: Investigating mechanisms of鈥Staphylococcus aureus-mediated vaccine interference and identifying new pathways for effective vaccine development. 
  • Allergy and Autoimmunity: Studying eosinophilic esophagitis, systemic lupus erythematosus, and sarcoidosis to define molecular drivers of disease progression and therapeutic resistance. 
  • AI in Drug Discovery: Using advanced machine learning to develop predictive models for therapeutic design, early diagnostics, and vaccine strategies. 
  • Biomanufacturing and Glycobiology: Engineering mammalian cells and glycosylation pathways to improve therapeutic protein production and quality. 

Research Team

The Chiang Lab is a鈥痬ultidisciplinary and collaborative environment鈥痶hat blends computational biology with experimental immunology. 

  • Principal Investigator: 
    • Dr. Austin W.T. Chiang鈥 Assistant Professor, Immunology Center of Georgia, 麻豆官网首页入口 University. 
  • Postdoctoral Fellows: Conducting advanced research in T cell biology and single cell multi-omics integration. 
  • Graduate Students and Trainees: Pursuing projects in systems immunology, bioinformatics pipeline development, and human immunological disease modeling. 
  • Research Staff and Collaborators: Supporting immunological data analysis, big data analysis, and biomanufacturing initiatives. 

We foster an environment of鈥痠nnovation, mentorship, and collaboration, and maintain active partnerships with researchers across the United States and internationally.

Current Research Interests

Immune Regulation in Cardiovascular Disease 

  • Single-cell analysis of T cell subsets in coronary artery disease. 
  • Mechanistic studies of immune tolerance and vascular inflammation. 

Vaccine Failure and Pathogen Immunity 

  • 贰濒耻肠颈诲补迟颈苍驳鈥S. aureus-driven pathways that impair vaccine efficacy. 
  • Identifying molecular targets for next-generation vaccine design for human immunological diseases. 

Allergic and Autoimmune Disorders 

  • Molecular profiling of human immunological diseases to uncover diagnostic biomarkers and therapeutic targets. 
  • driving chronic immune activation. 

 

Artificial Intelligence for Drug Discovery 

  • Development of computational classifiers and predictive models for complex diseases such as CVD and cancer. 
  • AI-driven analysis of transcriptomics, lipidomics, and glycomics datasets to accelerate drug discovery. 

Systems Biology of Biomanufacturing 

  • Engineering Chinese Hamster Ovary (CHO) cells for higher-yield, higher-quality therapeutic proteins. 
  • Systems-level analysis of glycosylation and secretory pathways for improved protein therapeutics. 

 

Publications

 

  • Roy, P., Bellapu, A., Suthahar, S.S.A., Oliaeimotlagh, M., Lyu, Q., Parashar, S., Makings, J., Wu, R., Kumar, S., Mehta, M.,鈥Chiang, A.W.T., Sette, A., McNamara, C.A., Ley, K.鈥Loss of effector Treg signature in APOB-reactive CD4 T cells in patients with coronary artery disease.鈥Nat Cardiovasc Res.鈥2025. 
  • Jumabay, M., Abud, E.M., Okamoto, K., Dutta, P.,鈥Chiang, A.W.T., et al.鈥Eosinophilic Esophagitis Drives Tissue Fibroblast Regenerative Programs Towards Pathologic Dysfunction.鈥J Allergy Clin Immunol.鈥2025. 
  • Tsai, C.M., Hajam, I.A., Caldera, J.R.,鈥Chiang, A.W.T., et al.鈥Pathobiont-driven antibody sialylation through IL-10 undermines vaccination.鈥J Clin Invest.鈥2024. 
  • Pessentheiner, A.R., Spann, N.J., Autran, C.A., Ramms, B.,鈥Chiang, A.W.T., et al.鈥The Human Milk Oligosaccharide 3-Sialyllactose Promotes Inflammation Resolution and Reduces Atherosclerosis Development in Mice.鈥JCI Insight.鈥2024. 
  • Kulakova, L., Li, K.H.,鈥Chiang, A.W.T., et al.鈥Glycoengineering of the hepatitis C virus E2 glycoprotein improves biochemical properties and enhances immunogenicity.鈥NPJ Vaccines.鈥2025. 

 

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