Clonal Hematopoiesis in Giant Cell Arteritis

The goal of this clinical trial is to verify whether CHIP is correlated with the clinical, instrumental, and histological characteristics of GCA, and to characterize the pathogenetic effects of clonal hemopoiesis on vasculitis. The main objective of this study is to verify if clonal hematopoiesis of indeterminate potential (CHIP) affects GCA manifestations, course/response to therapies, and pathogenesis. Patients who are going to be diagnosed with GCA and for which a fast track is available for a rapid diagnostic work-up including pre-treatment temporal artery biopsy. Patients with CHIP will be identified and characterized by using whole exome sequencing from the peripheral blood samples. The presence and characteristics of CHIP will be correlated with baseline clinical, instrumental, and histologic GCA features.

GCA is the most frequent idiopathic vasculitis in the elderly, characterized by significant morbidity, with possible formation of aneurysms and arterial dissections and with possible evolution into ischemic tissue events, such as irreversible blindness or stroke. Arterial inflammation is maintained by a leukocyte infiltrate infiltrating the vessel wall through vasa vasorum, composed primarily of macrophages (sometimes structured into granulomas with multinucleated giant cells) and Cluster of Differentiation (CD) 4+ T cells, but also from Cluster of Differentiation (CD) 8+ and dendritic cells. However, there are heterogeneous clinical pictures, in correlation to the spatial distribution of arterial lesions, to the finding of arterial ischemia, aneurysms or any relapses. Even today, there is a need to understand the pathogenetic mechanisms underlying clinical and prognostic differences in GCA and to identify patients with different clinical outcomes and response to therapies in advance. Clonal hemopoiesis is instead characterized by the presence in the bloodstream of a hematopoietic clone with a selective advantage following somatic mutations, in the absence of other obvious hematological conditions: in fact, it cannot be detected by standard diagnostic tools, but requires a genetic assessment of blood mosaicism or the presence of known relevant mutations. Mutated leukocytes have a more intense inflammatory and atherogenic response with inflammatory stimuli, both infectious and non-infectious, favoring a proinflammatory microenvironment in elderly patients, underlying the concept of "age-related inflammation". One study identified CHIP in 33% of patients with GCA. The investigators hypothesize that specific mutations responsible for the hematopoietic clone could favor a proinflammatory dysregulation of leukocytes within vasculitic lesions, affecting the activity of arterial injury. The purpose of this study is to verify whether CHIP is correlated with the clinical, instrumental and histological characteristics of GCA, and to characterize the pathophysiologic effects of clonal hemopoiesis on vasculitis.