Chance WT, Dayal R, Friend LA, Sheriff S (2003) Normalization of burn-induced hypermetabolism following 3rd ventricle injection of saporin-CRF conjugate. Neuroscience 2003 Abstracts 614.5. Society for Neuroscience, New Orleans, LA.
Summary: The development of hypermetabolism following major burn trauma presents significant problems for patient management and recovery. To better understand CNS mediation of burn-induced hypermetabolism, we disrupted CRF neurotransmission by injecting a conjugate of CRF to the ribosome toxin, saporin, into the 3rd ventricle of burned and control rats. Following anesthetization (ketamine/xylazine; 80/15 mg/kg), cannulae (24 ga) were implanted into the 3rd ventricle of 58 adult, male, SD rats. Two weeks later, these rats were anesthetized again and subjected either to a 25 sec, open-flame, full-thickness burn or sham-burn procedures. One week later, the rats were divided into groups to receive ivt injections of artificial CSF (5 ul), saporin (2.5 ug) or saporin-CRF (2.5 ug). Resting energy expenditure (REE) was determined by indirect calorimetry for 60 min on all rats 14 days post-burn. Burned rats treated with CSF exhibited significantly (p<0.01) increased REE (164 ± 4 vs 132 ± 7 kcal/kg/day). Although the saporin treatment had no effect in burned (175 ± 6 kcal/kg/day) or sham-burned (133 ± 10 kcal/kg/day) rats, REE was reduced (p<0.01)in the burned rats treated with the saporin-CRF conjugate (145 ± 6 kcal/kg/day). CRF-induced (1 ug) increase in REE was also prevented in saporin-CRF-treated sham-burned rats. Determination of hypothalamic CRF receptor mRNA by RT-PCR suggested that CRF-R2 expression was reduced in saporin-CRF-treated rats, while CRF-R1 expression was not affected. These results suggest that hypothalamic CRF activity is involved in the maintenance of burn-induced hypermetabolism, and the CRF-2 receptor is important for the expression of this increase in REE. Therefore, control of hypermetabolism may be possible using selective CRF-R2 antagonists.
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