Endoplasmic reticulum stress: key promoter of rosacea pathogenesis

Autor(en): Melnik, Bodo C.
Stichwörter: ANTIMICROBIAL PEPTIDE EXPRESSION; AZELAIC ACID; cathelicidin; Dermatology; ER stress; ER-STRESS; INNATE IMMUNE-RESPONSES; NF-KAPPA-B; rosacea; TLR2; TOLL-LIKE RECEPTORS; TRANS-RETINOIC ACID; ULTRAVIOLET-LIGHT; UNFOLDED PROTEIN RESPONSE; UPR; vitamin D; VITAMIN-D-RECEPTOR
Erscheinungsdatum: 2014
Herausgeber: WILEY
Journal: EXPERIMENTAL DERMATOLOGY
Volumen: 23
Ausgabe: 12
Startseite: 868
Seitenende: 873
Zusammenfassung: 
Recent scientific interest in the pathogenesis of rosacea focuses on abnormally high facial skin levels of cathelicidin and the trypsin-like serine protease kallikrein 5 (KLK5) that cleaves the cathelicidin precursor protein into the bioactive fragment LL-37, which exerts crucial proinflammatory, angiogenic and antimicrobial activities. Furthermore, increased expression of toll-like receptor 2 (TLR2) has been identified in rosacea skin supporting the participation of the innate immune system. Notably, TLRs are expressed on sensory neurons and increase neuronal excitability linking TLR signalling to the transmission of neuroinflammatory responses. It is the intention of this viewpoint to present a unifying concept that links all known clinical trigger factors of rosacea such as UV irradiation, heat, skin irritants and special foods to one converging point: enhanced endoplasmic reticulum (ER) stress that activates the unfolded protein response (UPR). ER stress via upregulation of transcription factor ATF4 increases TLR2 expression, resulting in enhanced production of cathelicidin and KLK5 mediating downstream proinflammatory, angiogenic and antimicrobial signalling. The presented concept identifies rosacea trigger factors as environmental stressors that enhance the skin's ER stress response. Exaggerated cutaneous ER stress that stimulates the TLR2-driven inflammatory response may involve sebocytes, keratinocytes, monocyte-macrophages and sensory cutaneous neurons. Finally, all antirosacea drugs are proposed to attenuate the ER stress signalling cascade at some point. Overstimulated ER stress signalling may have evolutionarily evolved as a compensatory mechanism to balance impaired vitamin D-driven LL-37-mediated antimicrobial defenses due to lower exposure of UV-B irradiation of the northern Celtic population.
ISSN: 09066705
DOI: 10.1111/exd.12517

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