Abstract
Functional circadian timekeeping is necessary for homeostatic control of the immune system and appropriate immune responsiveness. Disruption of natural light-dark cycles, through light at night (LAN), impairs innate and adaptive immune responses in nocturnal rodents. These altered immune responses are associated with disrupted endogenous gene transcriptional and endocrine cycles. However, few studies have addressed the multigenerational consequences of systemic circadian rhythm disruption. We hypothesized that parental exposure to dim LAN (dLAN) would alter innate immune and sickness responses to an endotoxin challenge in adult offspring gestated and reared in dark nights. Adult male and female Siberian hamsters were exposed to either dark nights (DARK) or dLAN (~5 lux) for 8 weeks, then paired, mated, and thereafter housed under dark nights. Maternal exposure to dLAN prior to conception impaired febrile responses and increased splenic il-1 production in response to LPS in male offspring. Paternal pre-conception dLAN dampened offspring tnf-α expression in the hypothalamus, reduced serum bactericidal capacity, and dark phase locomotor activity. These changes occurred despite offspring being conceived, gestated, and reared under standard dark night conditions. Overall, these data suggest that dLAN has intergenerational effects on innate immunity and sickness responses.
Highlights
The endogenous circadian system provides temporal organization of competing energetic and physiological processes to optimize survival and reproduction
Male offspring of sires exposed to preconception dim LAN (dLAN) reduced dark phase locomotor activity
Male offspring of sires exposed to dLAN decreased locomotor activity rhythm amplitude relative to males of dark nights (DARK)-DARK parents (F1,11 = 14.49, p < 0.01: Fig 1A)
Summary
The endogenous circadian system provides temporal organization of competing energetic and physiological processes to optimize survival and reproduction. One such circadian-regulated process is immune function. All immune cells and tissues possess intrinsic clocks. Clock genes have been implicated in direct and indirect regulation of immune cell survival and inflammatory responses. CLOCK protein up-regulates transcription of NF-κB-responsive genes during the inactive phase, whereas BMAL1 and CRY proteins limit NF-κB downstream transcription and activation during the active phase, respectively [1,2].
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