Gene Expression in the Brain across the Hibernation Cycle

Abstract: The purpose of this study was to characterize changes in gene expression in the brain of a seasonal hibernator, the goldenmantled ground squirrel, Spermophilus lateralis, during the hibernation season. Very little information is available on molecular changes that correlate with hibernation state, and what has been done focused mainly on seasonal changes in peripheral tissues. We produced over 4000 reverse transcription-PCR products from euthermic and hibernating brain and compared them using differential disp… Show more

“…There might well be an interaction between the prostaglandin system found to be episodically regulated here, in the described case, and these inflammatory molecules, also in the CNS (35,39,40). Intriguingly, altered expression of PTGDS marks the hibernation cycle, and accumulation of prostaglandins during hibernation season has been described in hibernating animals (18,22). Based on our molecular data, we speculate that the rapid cycling syndrome in humans may reflect an evolutionary ancient behavioral program resembling the hibernation cycle (with periodic eating, high psychomotor activity and nesting behavior, alternating with episodes of rest and sleep) (41,42) that becomes pathologically re-activated by unknown triggers, thereby creating rapid cycling.…”

“…Prostaglandin synthesis plays a pivotal role in metabolic homeostasis, sleep regulation, adipogenesis, allergic response, and inflammation (18)(19)(20)(21)(22). Altered levels of prostaglandins have been detected in different body fluids in patients with major affective disorders (23)(24)(25)(26)(27)(28).…”

Episode-Specific Differential Gene Expression of Peripheral Blood Mononuclear Cells in Rapid Cycling Supports Novel Treatment Approaches

“…There might well be an interaction between the prostaglandin system found to be episodically regulated here, in the described case, and these inflammatory molecules, also in the CNS (35,39,40). Intriguingly, altered expression of PTGDS marks the hibernation cycle, and accumulation of prostaglandins during hibernation season has been described in hibernating animals (18,22). Based on our molecular data, we speculate that the rapid cycling syndrome in humans may reflect an evolutionary ancient behavioral program resembling the hibernation cycle (with periodic eating, high psychomotor activity and nesting behavior, alternating with episodes of rest and sleep) (41,42) that becomes pathologically re-activated by unknown triggers, thereby creating rapid cycling.…”

“…Prostaglandin synthesis plays a pivotal role in metabolic homeostasis, sleep regulation, adipogenesis, allergic response, and inflammation (18)(19)(20)(21)(22). Altered levels of prostaglandins have been detected in different body fluids in patients with major affective disorders (23)(24)(25)(26)(27)(28).…”

Episode-Specific Differential Gene Expression of Peripheral Blood Mononuclear Cells in Rapid Cycling Supports Novel Treatment Approaches

“…Since the entry of torpor is synchronized with the entry into sleep, the clock mechanism in SCN has been thought to be intimately associated with the induction of hibernation. A variety of evidence from divers hibernating species confirmed a relationship between SCN and hibernation mechanism (Satinoff, 1967;Kilduff et al, 1982;Kilduff et al, 1989;Dark et al, 1990;Kilduff et al, 1990;Bitting et al, 1994;Grahn et al, 1994;Ruby et al, 1996;Ruby et al, 1998;O'Hara et al, 1999). The contribution of SCN to circadian fluctuation of the body temperature is well documented in cenothermic animals and the existence of the circadian rhythmicity in body temperature was also reported in golden-mantled ground squirrels during the maintenance stage of hibernation (Grahn et al, 1994).…”

Arousal from hibernation and BAT thermogenesis against cold: central mechanism and molecular basis

“…These differentially expressed genes include α 2 -macroglobulin (Srere et al, 1995), the H3 histamine receptor (Sallmen et al, 2003), TBG (thyroxine binding globulin) (Epperson and Martin, 2002), and the 'early-intermediate' genes such as c-fos and c-jun (O'Hara et al, 1999). The role of these proteins in our model is unclear.…”

A simple molecular mathematical model of mammalian hibernation