The Li Gao Lab researches functional genomics, molecular genetics and epigenetics of complex cardiopulmonary and allergic diseases, with a focus on translational research applying fundamental genetic insight into the clinical setting. Current research includes implementation of high-throughput technologies in the fields of genome-wide association studies (GWAS), massively parallel sequencing, gene expression analysis, epigenetic mapping and integrative genomics in ongoing research of complex lung diseases and allergic diseases including asthma, atopic dermatitis (AD), pulmonary arterial hypertension, COPD, sepsis and acute lung injury/ARDS; and epigenetic contributions to pulmonary arterial hypertension associated with systemic sclerosis.

The research in the Sarbjit Saini Laboratory focuses on IgE receptor biology and IgE receptor-mediated activation of blood basophils and mast cells. We have examined the role of IgE receptor expression and activation in allergic airways disease, anaphylaxis and chronic urticaria. Our research has been supported by the NIH, American Lung Association and the AAAAI. Our current research interests have focused mechanisms of diease in allergic asthma, allergic rhinitis and also translational studies in chronic idiopathic urticaria.

Dr. Dispenza’s laboratory focuses on allergies and IgE-mediated allergic reactions including anaphylaxis.  Overall goals of the lab include understanding the mechanisms driving anaphylaxis severity and phenotypes, discovering new biomarkers for the accurate diagnosis of anaphylaxis, and developing novel strategies for the prevention of IgE-mediated reactions.  One major project focuses on the prevention of anaphylaxis, for which there are no known reliable preventative therapies.  They found that small molecule inhibitors of the enzyme Bruton’s tyrosine kinase (BTK), which is a key component of the IgE signaling pathway, completely suppress IgE-mediated human mast cell and basophil activation and significantly protect against death from severe anaphylaxis in humanized mice.  Further, in an investigator-initiated clinical trial, they demonstrated in an investigator-initiated trial that treatment with just 2 days of the oral BTK inhibitor acalabrutinib completely prevents clinical reactivity from eating peanut in the majority of peanut-allergic adults and markedly increases the tolerance level of the remainder.  These exciting data suggest that a long sought-after preventative therapy for anaphylaxis may finally be within reach.

Research in the Meredith McCormack Lab deals primarily with pulmonary diseases, such as asthma and chronic obstructive pulmonary disease (COPD), and the role of environmental exposures in lung diseases. We have researched the factors that contribute to inner-city asthma, with a focus on how particulate matter air pollution impacts pulmonary function. We are also part of the LIBERATE clinical study, which is focused on patients who experience difficulty breathing and have been diagnosed with severe emphysema. We also have a longstanding interest in the effects of race/ethnicity, poverty and urbanization on nutrition and food allergies.