Prostaglandin E2 as a mediator of fever: synthesis and catabolism.
Prostaglandin (PG) E2 is a principal downstream mediator of fever. It is synthesized in three steps catalyzed by phospholipase (PL) A2, cyclooxygenase ( COX), and terminal PGE synthase (PGES), where each catalytic activity is represented by multiple enzymes and/or isoenzymes. Inactivation of PGE2 occurs primarily in the lungs and liver via carrier-mediated cellular uptake and enzymatic oxidation. The two principal carriers are PG transporter ( PGT) and multispecific organic anion transporter (MOAT); the two principal PGE2- inactivating enzymes are 15-hydroxy-PG dehydrogenase ( 15-PGDH) and carbonyl reductase ( CR). Our data [Ivanov A. I. et al. Am J Physiol Regul Integr Comp Physiol 283, R1104-R1117 (2002); ibid. 284, R698-R706 (2003)] are used to analyze the relationship between transcriptional regulation of PLA2, COX, PGES, PGT, MOAT, 15-PHDH, and CR, on one hand, and the triphasic febrile response of rats to lipopolysaccharide (LPS), on the other. It is concluded that LPS fever is accompanied by up-regulation of four PGE2-synthesizing enzymes [secretory (s) PLA2-IIA, cytosolic (c) PLA2-alpha, COX-2, and microsomal (m) PGES-1] and down-regulation of all PGE2 carriers and dehydrogenases studied ( PGT, MOAT, 15PGDH, and CR). It is further concluded that different febrile phases employ different mechanisms to mount an increase in the PGE2 level. Phase 1 involves transcriptional up-regulation of the couple COX-2 -->mPGES-1 in the liver and lungs. Phase 2 entails robust up-regulation of the major inflammatory triad sPLA2-IIA --> COX-2 -->mPGES-1 throughout the body. Phase 3 involves induction of cPLA2-alpha in the hypothalamus and further up-regulation of sPLA2-IIA and mPGES throughout the body. Importantly, Phase 3 occurs despite a drastic decrease in the expression of COX-1 and -2 in both the brain and periphery, thus suggesting that transcriptional up-regulation of COX-2 is not an obligatory mechanism of PGE2-dependent inflammatory responses at later stages. Of importance is also that LPS fever is accompanied by transcriptional down-regulation of PGE2 transporters and dehydrogenases: 15-PGDH in the lungs at Phase 1; 15-PGDH and CR in the lungs at Phase 2; and PGT, MOAT, 15-PGDH, and CR in the liver and lungs at Phase 3. The transcriptional down-regulation of proteins involved in PGE2 inactivation is a largely unrecognized mechanism of systemic inflammation. By increasing the blood-brain gradient of PGE2, this mechanism likely facilitates penetration of PGE2 into the brain. The high magnitude of up-regulation of mPGES and sPLA2-IIA (1,260 and 130 fold, respectively) and that of down-regulation of 15-PGES (30 fold) during LPS fever makes these enzymes attractive targets for anti-inflammatory therapy.[1]References
- Prostaglandin E2 as a mediator of fever: synthesis and catabolism. Ivanov, A.I., Romanovsky, A.A. Front. Biosci. (2004) [Pubmed]
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