Parental Exposure to Dim Light at Night Prior to Mating Alters Offspring Adaptive Immunity

The present study exposed adult Siberian hamsters to 9 weeks of nightly dim (5 lux) white light (dLAN) or a standard light/dark (DARK) cycle. Consistent with previous reportsexposure to nine weeks of dLAN increased body mass in adult male and female Siberian hamsters () (F= 6,< 0.05;). Overall, males weighed more than females (F= 32,< 0.001). ¹⁴ Table 1 Phodopus sungorus p p 1,42 1,42

Parents were paired in a full factorial fashion described in. Briefly, this pairing resulted in four groups described as father’s lighting conditions – mother’s lighting condition: DARK-DARK, DARK-dLAN, dLAN-DARK, and dLAN-dLAN. All animals were paired, mated, and transferred into standard light conditions with dark nights where they remained thereafter. All pups were thus gestated, born, and maintained in standard light-dark conditions. Parental exposure to dLAN did not affect offspring body mass (> 0.05;). At 8 weeks of age male offspring weighed more than female offspring (F= 28,< 0.001). Fig. 1 Table 1 p p 1,80

To assess cell-mediated immune function, we examined delayed type hypersensitivity (DTH) responses in adult offspring. DTH is an antigen specific T-cell mediated immune response, considered an index of effector T cell function and requires specific antigen memory. Inflammation occurs at the site of a second antigenic challenge, reproduced in the lab by application of 2–4-dinitro-1-fluorobenzene (DNFB), as a result of invading monocytes and lymphocytes infiltrating the dermis and epidermis. This swelling reaction is positively correlated with T-cell mediated immune response. DNFB-challenge induced a swelling reaction in the left pinna of all experimental groups (F= 236,< 0.001;). Males displayed a more pronounced swelling reaction to antigenic challenge (F= 29,< 0.001), as a result males and females were analyzed separately. ^{15 16} Fig. 2A,E 4,289 4,289 p p

Four months following DTH testing, hamsters were tested for antibody response to a presumably novel antigen, keyhole limpet hemocyanin (KLH), a respiratory protein of giant keyhole limpet. KLH produces an antigenic response without a febrile response. Titers of anti-KLH antibodies serve as a measure of humoral immune response. Exposure to KLH induced production of anti-KLH IgG production over time (F= 157.14,< 0.001). Maternal exposure to dLAN enhanced production of anti-KLH IgG over time (F= 3.19,< 0.05;). Paternal exposure to dLAN did not affect antibody production (> 0.05). Offspring sex and maternal lighting condition interacted at 21 days post-injection (X= 11.82,< 0.01;), such that female offspring of dLAN-mothers increased anti-KLH IgG relative to both males and females of DARK-mothers (Dunn’s,< 0.05). ¹⁷ Fig. 3A Fig. 3B 2,107 2,107 p p p p p 2

Exposure to light at night alters endocrine function, and elimination of nightly melatonin secretion is the most pronounced endocrine effect of light at night. Melatonin is a potent immunomodulator and enhances immune responses by stimulating bone marrow proliferation, antigen presentation, and release of certain cytokines, namely IL-2 and IFN-γ. The majority of immune cells and organs express melatonin receptors. Melatonin increases MT1 activity in the thymus and the spleen and enhances DTH response in Syrian hamsters. We therefore evaluated MT1 as a potential mediator of decreased adaptive immune response in offspring. Splenic MT1 expression varied over the course of the day such that MT1 expression was increased during the day relative to nighttime (U = 533.00,< 0.05;). Paternal exposure to dLAN decreased splenic MT1 expression in offspring relative to their counterparts, whose fathers were housed in dark nights (U = 345.00,< 0.001;). Maternal exposure to dLAN increased daytime MT1 expression relative to offspring of DARK-mothers at nighttime (X= 8.01,< 0.05;). Maternal and paternal lighting conditions interacted (U = 19.16,< 0.001;), such that offspring of dLAN-DARK and dLAN-dLAN parentage expressed less than those with only a mother in dLAN (DARK-dLAN) (Dunn’s,< 0.05). ^{13 18 19 20 21} Fig. 4A Fig. 4C Fig. 4D Fig. 4B p p p p p 2

Interactions of the endocrine and immune systems are crucial to proper immune function. Glucocorticoids suppress immune responses in order to prevent runaway inflammation, but excess glucocorticoid production can impair immune responses. Chronic elevation of cortisol upregulates expression of the glucocorticoid receptor (GR) on splenic cells. Long-term glucocorticoid signaling in the spleen was evaluated through glucocorticoid receptor gene expression as a mediator of altered immune responsiveness in offspring. Males had higher splenic GR expression than females (F= 14,< 0.001;). There was an interaction between sex and time of day (F= 14.95,< 0.05;) such that males decreased splenic GR at night, whereas females increased GR expression at night (Tukey’s,< 0.01). Paternal lighting condition interacted with offspring sex and time of day (F= 5.55,< 0.05;), such that paternal exposure to dLAN decreased GR expression in male offspring at night (Tukey’s,< 0.05), but did not affect female offspring (> 0.05). Maternal exposure to dLAN did not affect offspring splenic GR expression (> 0.05;). ^{22 23 24} Fig. 4E Fig. 4F Fig. 4G Fig. 4H 1,68 1,68 1,68 p p p p p p p

Global splenic methylation was assessed using a methylated DNA ELISA to investigate the role of CpG methylation in the inheritance of the transgenerational immune phenotype. Maternal and paternal (U = 360.00,< 0.05, and U = 155.00,< 0.001, respectively;) exposure to dLAN decreased methylation in the spleen. There was an interaction between maternal and paternal lighting conditions (X= 29.39,< 0.001) such that dLAN/dLAN offspring had less splenic methylation than any other group (Dunn’s,< 0.05;). Additionally, there was an interaction between paternal and maternal lighting conditions and offspring sex (X= 29.86,< 0.001;) such that dLAN-dLAN males reduced splenic methylation relative to DARK-DARK and DARK-dLAN male offspring. DARK-DARK females had higher splenic methylation than dLAN-dLAN females and dLAN-dLAN male offspring (Dunn’s,< 0.05). p p p p p p Fig. 5A and B Fig. 5C Fig. 5D 2 2

Alterations in DNA methyltransferase (DNMT) gene expression were investigated as a possible influence on changes in splenic methylation state. DNMT1 is responsible for maintaining DNA methylation at hemimethylated sites, whereas DNMT3a and 3b catalyzemethylation. Male offspring expressed increased DNMT1 and DNMT3a in the spleen relative to their female counterparts (F= 5.00,< 0.05 and F= 6.96,< 0.05:respectively). Maternal and paternal lighting conditions interacted in offspring splenic DNMT1 expression (F= 4.84,< 0.05,), but post hoc testing was unable to detect the source of these significant interactions. Paternal lighting condition, offspring sex, and time of day interacted for DNMT3a (F= 5.23,< 0.05;) such that male offspring from dLAN fathers had greater expression of DNMT3a during the day than both their counterparts at night and female offspring (Tukey’s,< 0.05). DNMT3b expression was not altered by offspring sex, parental lighting, or time of day (p > 0.05;). de novo p p p p p ^{25 26} Fig. 5E and G Fig. 5F Fig 5H Fig 5I and J 1,71 1,62 1,71 1,62

Hamsters were sensitized to a chemical antigenic challenge, 2-4-dinitro-1-fluorobenzene (DNFB; Sigma, St. Louis, MO). Animals were lightly anaesthetized with isoflurane vapor and an area of ~2 × 3 cm was shaved on the dorsum. Approximately 25 μL of DNFB [0.05% vol/vol in 4:1, acetone:olive oil vehicle] was applied to the shaved skin via pipette for the first two days (sensitization). Seven days later hamsters were challenged on the left pinna with 20 μL of DNFB [0.5% vol/vol in 4:1 acetone to olive oil vehicle], while the right pinna was treated with 20 μL vehicle alone. Pinna thickness was measured using a constant loading dial micrometer (Mitutoyo America, Aurora, IL) in order to determine baseline thickness and ensuing swelling. The thickness of both pinnae was measured every 24 h for the next 5 days by the same investigator (Y.M.C.) from 11.00 to 12.30 h.

Hamsters were deeply anesthetized using isoflurane and blood was collected from the retro-orbital sinus into heparinized microcapillary tubes. Immediately following blood collection, hamsters were injected intraperitoneally with 150 μg of KLH (CalBiochem, LaJolla, CA) in 100 μL Freund’s incomplete adjuvant. Blood was then collected in a similar manner at 5, 10, and 15 days post injection. Blood samples were centrifuged at 4 °C, plasma was removed, and stored at −80 °C until ELISAs were performed.

Plasma samples were thawed, diluted in PBS-Tween (1:20; Sigma, St.Louis, MI), and plated on 96- well plates coated with KLH in duplicate. Positive and negative controls, from KLH exposed and naïve hamsters respectively, were also plated in duplicate. Plates were incubated at 37 °C for 1 h and washed with PBS-Tween, before addition of alkaline phosphatase conjugated anti-mouse IgG (1:500; MP Biochemicals, Aurora, OH). Plates were incubated once again at 37 °C for 1 h, washed with PBS-Tween, then treated withnitrophenyl phosphate for 20 min and read at 405 nm on a spectrophotometer. p-

Twenty-one days following KLH immunization, hamsters were anesthetized with isoflurane vapors and a blood sample was collected from the retro-orbital sinus. Hamsters were deeply anesthetized with isoflurance vapors and rapidly decapitated and tissues were removed and flash frozen on dry ice for subsequent qPCR analysis.

Total RNA from spleens was extracted using Trizol reagent (Qiagen). DNA was lysed using DNAse 1 Amplification grade (Invitrogen, Carlsbad, CA). RNA was reverse transcribed into cDNA using M-MLV Reverse Transcriptase enzyme (Invitrogen, Carlsbad, CA) according to the manufacturer’s instructions. Splenic GR, MT1, DNA Methyltransferase 1 (DNMT1), DNMT3a, and 3b expression were assessed, using primers previously described for Siberian hamster GR, MT1, and DNMTson an ABI 7500 Fast Real Time PCR system using SyBR Green PCR Master Mix. Cycling conditions were: 95 °C for 5 min, followed by 40 cycles of 95 °C for 15 sec and 60 °C for 1 min for GR and MT1, and 95 for 10 sec 60 C for 30 sec and 72 C for 30 sec for the DNMTs. ^{40 4 41 41}

Total DNA from spleens was isolated using a Genomic DNA Isolation Kit (Ab65358, Abcam, Cambridge, UK). Global DNA methylation status was quantified using a Colorimetric Methylated DNA Quantification Kit (, Abcam, Cambridge, UK) according to manufacturer instructions. Absolute quantities of methylated DNA were calculated using the provided formula 5-mC (ng) = (Sample OD- Negative Control OD)/(Slope x 2). Ab117128

Statistical analyses were conducted using SPSS Statistics v 22 (IBM; Armonk, NY). Comparisons of DTH swelling and KLH IgG responses between groups were assessed using repeated measures ANOVA. Two way ANOVAs, assessing the effects of parental lighting condition, offspring sex, and interactions, were run on all other data. Post hoc tests of statistically significant groups were performed using Tukey’s HSD test. If the data did not meet the assumptions of normality or equal variance, then nonparametric statistic were conducted. Differences between means were considered statistically significant when≤ 0.05 for all analyses. p