Leptin modulates the late fever response to LPS in diet-induced obese animals.

Leptin is an important modulator of both inflammation and energy homeostasis, making it a key interface between the inflammatory response to pathogenic stimuli and the energy status of the host. In previous studies we demonstrated that sickness responses to systemic immune challenge, including fever, are significantly exacerbated in diet induced obese animals. To investigate whether this exacerbation is functionally linked to the obesity associated increase in circulating levels of leptin, a species-specific leptin antiserum (LAS) was used to neutralize endogenous leptin in diet-induced obese adult male Wistar rats treated with a single intraperitoneal (i.p.) injection of lipopolysaccharide (LPS) (100µg/kg). LAS significantly reduced the magnitude of the later phases of the fever response, and attenuated the circulating levels of IL-6, IL-1ra and bioactivity of leptin in the obese animals. In addition, the antiserum significantly attenuated the hypothalamic expression of IL-1ß, IκBα, COX2, SOCS3 and IL-6 in both lean and obese rats 10h after the LPS injection and NF-IL6 in the hypothalamus of obese rats only. The relatively late rise in brain IL-6 suggested a role in mediating the extended fever response in obese animals and we tested this by neutralizing brain IL-6 using an IL6-AS injected intracerebroventricularly (4µl, icv). The IL6-AS significantly but transiently (between 9h and 12h post LPS) reduced the late fever response of obese rats. These results demonstrate that leptin plays an important part in modulating the late portion of the fever response to LPS, likely through the induction of hypothalamic IL-6 in obese animals.

Diet-induced weight gain produces a graded increase in behavioral responses to an acute immune challenge.

Sickness behaviors and fever during infection constitute an adaptive and tightly regulated mechanism designed to efficiently clear the invading pathogen from the body. Recent literature has demonstrated that changes in energy status can profoundly affect the fever response to an acute immune challenge. The purpose of the present study was to investigate whether the exacerbating effect of diet induced obesity (DIO) on the LPS-induced fever response demonstrated previously would generalize to other sickness behaviors and, further, whether incremental changes in body weight would influence these responses. Results showed that DIO male Wistar rats exhibited a higher number of sickness symptoms for a longer period after lipopolysaccharide (LPS) injection (100µg/kg) than lean rats. Similarly, they showed a more prolonged fever and a delayed recovery from LPS-induced suppression of social interaction. No difference in locomotor activity was observed between obese and lean groups. Comparisons among groups that varied in body weight showed that an 11% increase in body weight was sufficient to increase the number and duration of sickness symptoms displayed after an LPS-injection and that the severity of sickness symptoms increased with increasing body weight. Together these data suggest that DIO can have profound effects on multiple behavioral responses to an acute immune challenge placing obese organisms at higher risk of the consequences of prolonged inflammation.

Changes in hypothalamically mediated acute-phase inflammatory responses to lipopolysaccharide in diet-induced obese rats.

Recent evidence suggests that inflammation may be a common underlying cause of many obesity-associated conditions. To test whether obesity changes the response to inflammation, we investigated its effects on the acute phase of the inflammatory response to an endogenous pathogen, lipopolysaccharide (LPS). Diet-induced obese male Wistar rats exhibited an increased and prolonged fever response to LPS (100 microg/kg) relative to lean rats. LPS-treated obese rats also showed a greater increase in circulating TNF-alpha, IL-6, and IL-1 receptor antagonist within the first 8 h after LPS injection. LPS induced an increase in circulating leptin only in obese rats with no effect in lean rats. Analysis of expression of pyrogenic signaling in the hypothalamus demonstrated that obese rats show a greater increase in IL-1beta peaking at 2 h after LPS injection and suppressor of cytokine signaling 3 and IL-6 peaking at the 8-h time point. LPS-treated obese rats showed a significantly higher expression of IL-1 receptor antagonist in white adipose tissue (WAT) than lean rats, and WAT from obese rats incubated in LPS-supplemented medium (100 ng/ml) secreted a significantly higher level of IL-6. Overall, these results suggest that diet-induced obesity induces changes in the inflammatory response rendering the obese rats more responsive to the effects of LPS. These data also support the hypothesis that qualitative changes in WAT associated with obesity may contribute to these effects.

Repeated exposure to stress across the childhood-adolescent period alters rats' anxiety- and depression-like behaviors in adulthood: The importance of stressor type and gender.

This research tests the hypothesis that specific forms of adversity in early life map onto behavioral signs analogous to depression versus anxiety in later life. Male and female rats were exposed to either severe sporadic stress or chronic mild stress during the childhood-adolescent period, and their behavior was tested in adulthood. Males in the severe sporadic stress group showed exaggerated anxiety-related behaviors, as indicated by increases in shock-probe burying and escape-like responses (jumps) from the open arms of the elevated plus-maze. Females exposed to severe sporadic stress displayed no change in burying behavior but did display increases in escape behavior. These same females also exhibited behaviors analogous to depression that manifested as decreased sucrose consumption. The chronic mild stress regime produced effects only in females, including reduced burying, decreased sucrose consumption, and an exaggerated corticosterone response to cold-water immersion stress. Findings reiterate the importance of early life experience to the development of adult psychopathologies and emphasize the need to consider both the type of early experience and gender differences in these analyses.