Dental metal-induced innate reactivity in keratinocytes
Date
2018-09-07Author
Rachmawati, Dessy
Buskermolen, Jeroen K.
Scheper, Rik J.
Gibbs, Susan
Blomberg, B. Mary E. von
Hoogstraten, Ingrid M.W. van
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Gold, nickel, copper and mercury, i.e. four metals frequently used in dental applications, were explored for their
capacity to induce innate immune activation in keratinocytes (KC). Due to their anatomical location the latter epithelial
cells are key in primary local irritative responses of skin and mucosa. Fresh foreskin-derived keratinocytes
and skin and gingiva KC cell lines were studied for IL-8 release as a most sensitive parameter for NF-kB activation.
First, we verified that viral-defense mediating TLR3 is a key innate immune receptor in both skin- and mucosa
derived keratinocytes. Second, we found that, in line with our earlier finding that ionized gold can mimic viral
dsRNA in triggering TLR3, gold is very effective in KC activation. It would appear that epithelial TLR3 can play a
key role in both skin- and mucosa localized irritation reactivities to gold. Subsequently we found that not only
gold, but also nickel, copper and mercury salts can activate innate immune reactivity in keratinocytes, although
the pathways involved remain unclear. Although current alloys have been optimized for minimal leakage of
metal ions, secondary factors such as mechanical friction and acidity may still facilitate such leakage. Subsequently,
these metal ions may create local irritation, itching and swelling by triggering innate immune reactions, potentially
also facilitating the development of metal specific adaptive immunity.
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- LSP-Jurnal Ilmiah Dosen [7301]