SKINSTRUCT – Human skin structural cells instruct T cell tissue adaptation
Grantee: Georg Stary, Associate Professor, Medical University of Vienna
Amount: DKK 3,996,806
Grant category: Research Grants in open competition
Year: 2024
Geography: Austria
Georg Stary’s project aims to investigate interactions between T cells and structural cells, including keratinocytes, in the skin and how this cellular communication may affect the function of the T cells in dermatological diseases.
Human skin is protected by specialized T cells, called tissue-resident memory T cells (TRMs), which are needed to protect against infection at the site of pathogen encounter, but can also mediate inflammation in certain conditions. The exact regulation of TRMs in human skin is not well understood, hence TRM-targeted therapies are currently unavailable.
Georg Stary and his team have discovered that T cells communicate with structural cells of the skin via certain surface molecules and acquire a TRM phenotype after interaction with keratinocytes and fibroblasts. Some of the newly described molecules that instruct T cells to become TRM have not been implicated in the regulation of T cell tissue residency before.
Georg and his team aim to explore how structural cells of the skin instruct the maintenance of human TRM, and how this cellular crosstalk changes during inflammation. Based on preliminary data, they will unravel the function of certain co-receptors in TRM regulation using modern single-cell sequencing technologies on primary tissue from patients and ex-vivo co-culture systems with genetically engineered human cells. Based on this, they will subsequently test the therapeutic potential of targeting T cell-structural cell interactions in a humanized mouse model of TRM-mediated skin inflammation.
This study will not only inform about new mechanisms of human TRM instruction in health and disease and explore options for developing clinical applications targeting interactions with structural cells, but also form the basis for designing clinical studies to treat selected TRM-mediated diseases, such as graft-versus-host disease or psoriasis.