PLoS ONE (Jan 2020)

Conditional KCa3.1-transgene induction in murine skin produces pruritic eczematous dermatitis with severe epidermal hyperplasia and hyperkeratosis.

  • Javier Lozano-Gerona,
  • Aida Oliván-Viguera,
  • Pablo Delgado-Wicke,
  • Vikrant Singh,
  • Brandon M Brown,
  • Elena Tapia-Casellas,
  • Esther Pueyo,
  • Marta Sofía Valero,
  • Ángel-Luis Garcia-Otín,
  • Pilar Giraldo,
  • Edgar Abarca-Lachen,
  • Joaquín C Surra,
  • Jesús Osada,
  • Kirk L Hamilton,
  • Siba P Raychaudhuri,
  • Miguel Marigil,
  • Ángeles Juarranz,
  • Heike Wulff,
  • Hiroto Miura,
  • Yolanda Gilaberte,
  • Ralf Köhler

DOI
https://doi.org/10.1371/journal.pone.0222619
Journal volume & issue
Vol. 15, no. 3
p. e0222619

Abstract

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Ion channels have recently attracted attention as potential mediators of skin disease. Here, we explored the consequences of genetically encoded induction of the cell volume-regulating Ca2+-activated KCa3.1 channel (Kcnn4) for murine epidermal homeostasis. Doxycycline-treated mice harboring the KCa3.1+-transgene under the control of the reverse tetracycline-sensitive transactivator (rtTA) showed 800-fold channel overexpression above basal levels in the skin and solid KCa3.1-currents in keratinocytes. This overexpression resulted in epidermal spongiosis, progressive epidermal hyperplasia and hyperkeratosis, itch and ulcers. The condition was accompanied by production of the pro-proliferative and pro-inflammatory cytokines, IL-β1 (60-fold), IL-6 (33-fold), and TNFα (26-fold) in the skin. Treatment of mice with the KCa3.1-selective blocker, Senicapoc, significantly suppressed spongiosis and hyperplasia, as well as induction of IL-β1 (-88%) and IL-6 (-90%). In conclusion, KCa3.1-induction in the epidermis caused expression of pro-proliferative cytokines leading to spongiosis, hyperplasia and hyperkeratosis. This skin condition resembles pathological features of eczematous dermatitis and identifies KCa3.1 as a regulator of epidermal homeostasis and spongiosis, and as a potential therapeutic target.