Trapping of Misdirected Dendritic Cells in the Granulomatous Lesions of Giant Cell Arteritis

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Trapping of Misdirected Dendritic Cells in the Granulomatous Lesions of Giant Cell Arteritis

Wei Ma Krupa^*, Misha Dewan, Myung-Shin Jeon^*, Paul J. Kurtin, Brian R. Younge^*, Jörg J. Goronzy^* and Cornelia M. Weyand^*

From the Departments of Medicine,^* Immunology, and Pathology, Mayo Clinic, Rochester, Minnesota

Immature dendritic cells (DCs) are scattered throughout peripheraltissues and act as sentinels that sample the antigenic environment.After activation, they modify their chemokine receptor profileand migrate toward lymphoid tissues. On arrival, they have maturedinto chemokine-producing DCs that express co-stimulatory moleculesand can prime naive T cells. Normal temporal arteries containimmature DCs that are located at the media-adventitia border.In temporal arteries affected by giant cell arteritis, DCs arehighly enriched and activated and have matured into fully differentiatedcells producing the chemokines, CCL18, CCL19, and CCL21. Inkeeping with their advanced maturation, DCs in the granulomatouslesions possess the chemokine receptor, CCR7. CCR7 binds CCL19and CCL21, causing the highly activated DCs to be trapped inthe peripheral tissue site. The co-stimulatory molecule, CD86,which is critical for DC/T-cell interaction, is expressed bya subset of DCs captured in the arterial wall. DC/T-cell interactiondoes not involve interleukin-12; transcripts for interleukin-12p40 are absent in the vasculitic infiltrates. We propose thatdifferentiation of DCs and the autocrine and paracrine actionsof chemokines in granulomatous lesions misdirect DCs away fromtheir usual journey to lymphoid organs and are critical in maintainingT-cell activation and granuloma formation in giant cell arteritis.

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