Abstract
The Vitamin-A-metabolite retinoic acid (RA) acts as a master regulator of cellular programs. Mast cells (MCs) are primary effector cells of type-I-allergic reactions. We recently uncovered that human cutaneous MCs are enriched with RA network components over other skin cells. Yet, direct experimental evidence on the significance of the RA-MC axis is limited. Here, skin-derived cultured MCs were exposed to RA for seven days and investigated by flow-cytometry (BrdU incorporation, Annexin/PI, FcεRI), microscopy, RT-qPCR, histamine quantitation, protease activity, and degranulation assays. We found that while MC size and granularity remained unchanged, RA potently interfered with MC proliferation. Conversely, a modest survival-promoting effect from RA was noted. The granule constituents, histamine and tryptase, remained unaffected, while RA had a striking impact on MC chymase, whose expression dropped by gene and by peptidase activity. The newly uncovered MRGPRX2 performed similarly to chymase. Intriguingly, RA fostered allergic MC degranulation, in a way completely uncoupled from FcεRI expression, but it simultaneously restricted MRGPRX2-triggered histamine release in agreement with the reduced receptor expression. Vitamin-A-derived hormones thus re-shape skin-derived MCs numerically, phenotypically, and functionally. A general theme emerges, implying RA to skew MCs towards processes associated with (allergic) inflammation, while driving them away from the skin-imprinted MCTC (“MCs containing tryptase and chymase”) signature (chymase, MRGPRX2). Collectively, MCs are substantial targets of the skin retinoid network.
Highlights
Mast cells (MCs), unique elements of the human body [1,2], are of hematopoietic origin, but develop exclusively in target organs, such as the skin, and the intestinal or respiratory tracts, respectively [3,4,5]
Focusing on retinoic acid (RA)’s role in mitogenesis, MC signature characteristics and functional competence, we report that RA has a profound impact on skin-derived MCs, where it interferes with proliferation and selective attributes of the skin-dwelling MCTC subset, while simultaneously promoting allergic, yet suppressing pseudo-allergic (MRGPRX2-driven) MC degranulation
Even though classified as terminally differentiated cells, tissue MCs can re-enter the cell cycle if supported by sufficient amounts of stem cell factor (SCF), and this phenomenon accounts to MCs derived from human skin [30]
Summary
Mast cells (MCs), unique elements of the human body [1,2], are of hematopoietic origin, but develop exclusively in target organs, such as the skin, and the intestinal or respiratory tracts, respectively [3,4,5]. Skin MCs have not been in the focus of cutaneous RA research. This may reflect the fact that MC purification from skin is costly and laborious and the starting material not widely accessible to researchers. We have overcome this hurdle, and routinely purify MCs from human skin to homogeneity [1,13,25,26]
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