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An aging-susceptible circadian rhythm controls cutaneous antiviral immunity

Stephen J. Kirchner, Vivian Lei, Paul T Kim, Meera Patel, Jessica Shannon, David L. Corcoran, Dalton Hughes, Diana K Waters, Kafui Dzirasa, Detlev Erdmann, Jörn Coers, Amanda S. MacLeod, Jennifer Zhang

2023JCI Insight15 citationsDOIOpen Access PDF

Abstract

Aged skin is prone to viral infections, but the mechanisms responsible for this immunosenescent immune risk are unclear. We observed that aged murine and human skin expressed reduced levels of antiviral proteins (AVPs) and circadian regulators, including Bmal1 and Clock. Bmal1 and Clock were found to control rhythmic AVP expression in skin, and such circadian control of AVPs was diminished by disruption of immune cell IL-27 signaling and deletion of Bmal1/Clock genes in mouse skin, as well as siRNA-mediated knockdown of CLOCK in human primary keratinocytes. We found that treatment with the circadian-enhancing agents nobiletin and SR8278 reduced infection of herpes simplex virus 1 in epidermal explants and human keratinocytes in a BMAL1/CLOCK-dependent manner. Circadian-enhancing treatment also reversed susceptibility of aging murine skin and human primary keratinocytes to viral infection. These findings reveal an evolutionarily conserved and age-sensitive circadian regulation of cutaneous antiviral immunity, underscoring circadian restoration as an antiviral strategy in aging populations.

Topics & Concepts

Circadian rhythmCircadian clockBiologyImmune systemImmunityGene knockdownCell biologyImmunologyCLOCKMaster clockVirologyNeuroscienceCell cultureGeneticsElectronic circuitClock signalElectrical engineeringEngineeringCircadian rhythm and melatoninDermatology and Skin DiseasesSkin Protection and Aging
An aging-susceptible circadian rhythm controls cutaneous antiviral immunity | Litcius