Most adult humans have been infected with Epstein-Barr virus (EBV), which is thought to contribute to the development of chronic fatigue syndrome. Stress is known to influence the immune system and can exacerbate the sickness response. Although a role for psychological stress in the sickness response, particularly in combination with EBV-encoded deoxyuridine triphosphate nucleotidohydrolase (dUTPase) has been established, and the role of physical stressors in these interactions remains unspecified. In this study, we seek to determine the interaction of chronic physical (swim) stress and EBV-encoded dUTPase injection. We hypothesize that a chronic physical stressor will exacerbate the sickness response following EBV-encoded dUTPase injection. To test this hypothesis mice receive daily injections of EBV-encoded dUTPase or vehicle and are subjected to 15 min of swim stress each day for 14 days or left unmanipulated. On the final evening of injections mice undergo behavioral testing. EBV-encoded dUTPase injection alone produces some sickness behaviors. The physical swimming stress does not alter the sickness response.
Chronic fatigue syndrome is characterized by extreme fatigue, muscle pain, swollen lymph nodes, loss of memory, sore throat, stress, and depression [
Acute psychological stress in particular exacerbates immune responses. For example, healthy medical students decrease cellular immunity on the last exam day compared to a month prior to the exams [
In contrast to psychological stress, physical stress is less widely studied. In moth larvae, non-lethal physical stress primes the immune system to increase the immune response following exposure to a microbial pathogen [
Given the effects of a psychological stressor (restraint) exacerbating the response to EBV-encoded dUTPase injections, we aim to determine if a chronic physical stressor produces similar outcomes. Physical stressors do not elicit the same physiological response as psychological stressors. Therefore, investigating the interaction of swimming (physical) stress with sickness behavior induced by EBV-encoded dUTPase is an important follow up to our results with psychological stress. We hypothesize that chronic swimming stress exacerbates sickness behavior elicited by EBV-encoded dUTPase.
The subcloning of the EBV (BLLF3 pET3A was kindly provided by Dr. Peter Sommer (Institut fur Mikrobiologic und Hygiene, Abteilung Virolgie)was conducted by PCR amplification using the forward (5’-CCGGTT- AAGCTTGGATCCATGGAGGCC TGTC-3’) and reverse (5’-GCGAATTCTCATTGACCCGACGA TCC-3’) primer sets (125 pmol of each), DNA (140 ng), high fidelity PCR supermix (Invitrogen, Gary Island, NY, USA) and the following PCR conditions: denaturation at 94˚C for 3’ (1 cycle) followed by 35 cycles of 94˚C for 30 seconds (sec.), 50˚C for 30 sec., 72˚C for 1’ and one cycle at 72˚C for 20’. The PCR product was purified using the QIAquick gel extraction kit (QIAGEN) and cloned into the protein expression vector pTrcHis Topo (Invitrogen, Gary Island, NY, USA). Twenty individual clones were isolated following transformation of E. coli Top 10 competent cells, DNA was then purified using the QIAPrep Spin Miniprep kit (QIAGEN, Valencia, CA, USA), screened by PCR for the presence of specific dUTPase genes and the sequence verified by DNA sequencing analysis. The pTrcHis dUTconstructs, containing the EBV-encoded dUTPase gene in the correct orientation and in frame, were used to transform E. coli BL21 (DE3) plyS competent cells for purification of recombinant proteins as described below.
The recombinant EBV-encoded dUTPase protein was purified using HisPurTM Spin columns (3 ml resin bed) as described by the manufacturer (Pierce, Rockford, IL, USA). Briefly, BL21(DE3) plyS containing a specific PTrcHisDUT construct was grown in LB medium containing chloramphenicol (25 μg/ml) and ampicillin (100 μg/ml) at 37˚C for 2.5 h IPTG (1 mM final concentration) was added and the culture was incubated an additional 2 h at 37˚C. Bacteria were collected from 1 - 2 liters of medium by low speed centrifugation and the bacterial pellet was resuspended in 50 ml of extraction buffer (50 mM sodium phosphate, 300 mM NaCl and 10 mM imidazole, pH 7.4). Bacteria were lysed by ultrasonication. The resulting homogenate was centrifuged (15,000 × g, 30 min at 4˚C), and the supernatant was applied to a HisPurTM spin column, which was equilibrated in extraction buffer. The column was washed three times with two-resin bed volumes of extraction buffer and the EBV- encoded dUTPase protein was eluted by washing the column four times with one resin-bed volume of 50 mM sodium phosphate, 300 mM NaCl and 150 mM imidazole, pH 7.4. Fractions were assayed for the EBV-encoded dUTPase activity as described previously [
Forty, six week old male CD-1 mice were purchased from Charles River, Inc. (Wilmington, MA, USA). Mice were group-housed, five per cage, in propylene cages (33 cm × 18 cm × 14 cm) at an ambient temperature of 22˚C ± 2˚C, relative humidity of 50% ± 10%. Animals were given ad libitum access to Harlan Teklad 8640 food (Madison, WI, USA) and filtered tap water. Mice were placed in a 12:12 light dark cycle and allowed to acclimate to the facility for at least one week.
One week after arrival mice had radiotelemetric transmitters (Mini Mitter, Respironics, Bend, OR, USA) implanted in the peritoneal cavity under isoflurane anesthesia. Mice were then moved to single-housing and were allowed to recover for one week. Home cages were placed on TR-4000 receiver boards connected to DP-24 Data Ports (Mini Mitter), that continuously collected temperature and activity data in 30 min bins. Activity represents beam breaks caused by motion and is therefore an overall index of locomotor activity and is not directly relatable to velocity or distance. These 30 min bins of activity and temperature data were extracted from the Vital View (Mini Mitter, Respironics, Bend, OR, USA) program at the conclusion of the experiment. Following one week of recovery, mice were injected in the right hindlimb muscle daily between 8:30 and 9:00 hours with 10 μg EBV-encoded dUTPase in saline or an equal volume of 0.9% saline. Mice were injected for 14 consecutive days.
Body weight was measured at the initiation and conclusion of the study. Food intake was measured daily starting two days before injections between 8:30 and 9:00 hours. Additionally, mice were given a 1:1 solution of water and sweetened condensed milk with 400 μg/mL of ferrous sulfate added daily for 3 h/day at the onset of the dark phase 18:00 hours [
Starting the first day of inoculation, mice were moved to a separate room and underwent a 15 min forced swim trial in ~17 cm of 21˚C ± 2˚C water. The forced swim trials occurred at random times during the light phase (6:00 - 18:00 h) for the remainder of injections. No swim mice remained in the home cages. The combination of swim stress and injection make a total of four experimental groups (n = 10/group,
Starting at the onset of the dark phase (18:00 h) on the 14th day mice were behaviorally tested under red light. The open field test is used to characterize anxiety in a novel environment and locomotor activity. Central tendency is the primary measure for anxiety, defined as the proportion of time spent in the center of the open field. Locomotor activity was measured separately as total crosses between the center and periphery during testing.
Saline (n) | EBV-dUTPase (n) | |
---|---|---|
No Swim | 10 | 10 |
Swim | 10 | 10 |
Mice were allowed to acclimate to the room for 20 min before testing. Mice were placed in a 40 cm × 40 cm clear acrylic chamber with the outside covered in cardboard to prevent mice from seeing the room. The center was defined as the central 28 cm × 28 cm. At the end of testing, mice were placed in a clean cage. Mice were recorded for 10 min during the open field and tapes were assessed by a condition blind observer using Observer software (Noldus Corp. Leesburg, VA) for time in the center versus periphery and number of crosses between the two areas.
Five minutes after completion of the open field mice were tested on the elevated plus maze. The elevated plus maze measures anxiety-like behavior by examining time spent in the open arms versus time in the closed arms. Mice were placed in the center of the elevated plus maze. Mice were allowed to freely explore for 5 min and were recorded on video. Video was assessed by a condition blind observer using Observer software (Noldus Corp. Leesburg, VA) for time spent in the open arms.
Five minutes following the elevated plus maze mice were tested for depressive-like behavior using the tail suspension test, where more immobility equates to increased depressive-like behavior [
Main effects of restraint (no restraint versus restraint) and injection type (saline versus EBV-encoded dUTPase) and interactions between the two variables were assessed. Changes in body temperature for day 1 and changes averaged over all fourteen days were assessed with repeated measures ANOVAs. Activity on day 1 and averaged over the first seven, and fourteen days were assessed with repeated measures ANOVA. A univariate ANOVA was conducted on total food intake, total milk intake, change in body mass, percent of time in the center of the open field, and time in the open arm of the elevated plus maze. Due to unequal variance time frozen in the tail suspension test was log transformed to perform the univariate ANOVA. Statistics were performed using SPSS 19 for Windows (IBM, Armonk, New York, USA). Mean differences were considered statistically significant when p < 0.05. Significant differences were followed up with least significant differences post hoc tests.
Body temperature on day one increased during the active phase (lights off) compared to inactive phase (lights on) (F42,924 = 8.68, p < 0.01,
(lights off) compared to inactive phase (lights on) (F42,924 = 95.2, p < 0.01,
Activity increased during the active phase (lights off) compared to inactive phase (lights on) (F42,1344 = 17.7, p < 0.01,
Total food intake was not altered by EBV-encoded dUTPase injection (F1,36 = 0.19, p = 0.67,
Total milk intake was not altered by EBV-encoded dUTPase injection (F1,36 = 1.04, p = 0.31,
Change in body mass was not altered by EBV-encoded dUTPase injection (F1,36 = 0.16, p = 0.69,
Anxiety-like behavior was not altered by EBV-encoded dUTPase injection (F1,36 = 0.11, p = 0.74,
Anxiety-like behavior was not altered by EBV-encoded dUTPase injection (F1,36 = 0.23, p = 0.64,
Depressive-like behavior was not altered by EBV-encoded dUTPase injection (F1,36 = 1.34, p = 0.26,
Approximately 95% of the human adult population has been infected with EBV [
exacerbate the sickness response and EBV-encoded dUTPase can elicit a sickness response independent of viral replication [
Here we report that a chronic physical stressor, in this case a forced-swim procedure, does not modulate sickness responses to repeated treatment with the EBV-encoded dUTPase protein. These data are in contrast to our previous reports that chronic restraint stress exacerbates the sickness response induced by dUTPase. [
In conclusion, physical swim stress did not interact with EBV-encoded dUTPase injections. The effect of psychological restraint stress in combination with EBV injections was most pronounced with two weeks of concurrent treatment [
This research was supported by NIH Grant AI084898. TGA was supported by a NIDCR grant T32 DE014320 additional support for behavioral testing was provided by P30-NS045758. We thank Jamie Tussing for her excellent animal care and Juan Carlo Avalon and David Hammond for their technical assistance.
Taryn G.Aubrecht,Zachary M.Weil,Bachir AbiSalloum,Maria EugeniaAriza,MarshallWilliams,BrendaReader,RonaldGlaser,JohnSheridan,Randy J.Nelson, (2015) Chronic Physical Stress Does Not Interact with Epstein-Barr Virus (EBV)-Encoded Dutpase to Alter the Sickness Response. Journal of Behavioral and Brain Science,05,513-523. doi: 10.4236/jbbs.2015.511049
Epstein-Barr virus (EBV): deoxyuridine triphosphate nucleotidohydrolase (dUTPase)