Remote postconditioning. Brief renal ischemia and reperfusion applied before coronary artery reperfusion reduces myocardial infarct size via endogenous activation of adenosine receptors.

OBJECTIVES: A series of brief coronary artery reperfusions and reocclusions applied during the early minutes of coronary artery reflow ("postconditioning") attenuates reperfusion injury. However, it is not known whether brief ischemia-reperfusion applied to a distant organ at the onset of myocardial reperfusion (i.e. "remote postconditioning", remote PostC) reduces infarct size in the reperfused myocardium. In an in vivo anesthetized rat model of myocardial infarction induced by coronary artery occlusion and reperfusion, this study tested the hypothesis that remote postC induced by a single 5 minute episode of renal artery (RA) occlusion and reperfusion applied immediately before the onset of coronary artery reperfusion protects the myocardium from reperfusion injury by mechanisms involving endogenous adenosine receptor activation. METHODS: All rats were subjected to a total of 30 minutes of left coronary artery occlusion (LCAO) and 3 hours of reperfusion. The rats were randomized to one of six groups: 1) CONTROL: LCAO and reperfusion only with no other intervention; 2) Remote PostC: after 24 minutes of LCAO the RA was occluded for 5 minutes and released 1 min before coronary artery reperfusion; 3) Permanent RA occlusion: the RA was permanently occluded after 24 minutes LCAO continuing to the end of reperfusion; 4) Delayed Remote PostC: after 26 minutes LCAO the RA was occluded for 5 minutes, and its release was delayed until 1 min after coronary artery reperfusion; 5) CON + SPT: rats with LCAO and reperfusion received 10 mg/kg IV of the non-selective adenosine receptor antagonist 8-sulfophenyl theophylline [SPT] administered 5 minutes before coronary artery reperfusion; and 6) Remote PostC + SPT: after 24 minutes of LCAO the RA was occluded for 5 minutes and released 1 minute before coronary artery reperfusion in the presence of 10 mg/kg SPT given 5 min before coronary artery reperfusion. RESULTS: Myocardial infarct size (percentage necrosis/area at risk, mean +/- SEM) was reduced by 50% in Remote PostC (25 +/- 4%) compared to CONTROL (49 +/- 4%, p = 0.003), consistent with a reduction in plasma CK activity (44 +/- 5 vs. 67 +/- 6 U/ml, p = 0.023). In contrast, permanent RA occlusion before LCAO and reperfusion failed to reduce myocardial infarct size (47 +/- 5%) vs CONTROL. Delaying the release of the RA occlusion (delayed Remote PostC) abrogated the myocardial infarct reduction observed with Remote PostC (48 +/- 6%). SPT alone had no effect on infarct size (47 +/- 4% in CON + SPT vs. 49 +/- 4% in CON); however, Remote PostC+SPT abrogated the myocardial infarct size reduction in Remote PostC (50 +/- 3% in Remote PostC + SPT vs. 25 +/- 4% in Remote PostC). CONCLUSIONS: Remote renal postconditioning applied immediately before the onset of coronary artery reperfusion provides potent myocardial infarct size reduction likely exerted during the first minutes of coronary artery reperfusion. This inter-organ remote postconditioning phenomenon is likely mediated in part by release of adenosine by the ischemic-reperfused kidney and subsequent activation of adenosine receptors.

Postconditioning--A new link in nature's armor against myocardial ischemia-reperfusion injury.

Reperfusion injury is a complex process involving several cell types (endothelial cells, neutrophils, and cardiomyocytes), soluble proinflammatory mediators, oxidants, ionic and metabolic dyshomeostasis, and cellular and molecular signals. These participants in the pathobiology of reperfusion injury are not mutually exclusive. Some of these events take place during the very early moments of reperfusion, while others, seemingly triggered in part by the early events, are activated within a later timeframe. Postconditioning is a series of brief mechanical interruptions of reperfusion following a specific prescribed algorithm applied at the very onset of reperfusion. This algorithm lasts only from 1 to 3 minutes depending on species. Although associated with re-occlusion of the coronary artery or re-imposition of hypoxia in cell culture, the reference to ischemia has been dropped. Postconditioning has been observed to reduce infarct size and apoptosis as the "end games" in myocardial therapeutics; salvage of infarct size was similar to that achieved by the gold standard of protection, ischemic preconditioning. The cardioprotection was also associated with a reduction in: endothelial cell activation and dysfunction, tissue superoxide anion generation, neutrophil activation and accumulation in reperfused myocardium, microvascular injury, tissue edema, intracellular and mitochondrial calcium accumulation. Postconditioning sets in motion triggers and signals that are functionally related to reduced cell death. Adenosine has been implicated in the cardioprotection of postconditioning, as has e-NOS, nitric oxide and guanylyl cyclase, opening of K(ATP) channels and closing of the mitochondrial permeability transition pore. Cardioprotection by postconditioning has also been associated with the activation of intracellular survival pathways such as ERK1/2 and PI3 kinase - Akt pathways. Other pathways have yet to be identified. Although many of the pathways involved in postconditioning have also been identified in ischemic preconditioning, some may not be involved in preconditioning (ERK1/2). The timing of action of these pathways and other mediators of protection in postconditioning differs from that of preconditioning. In contrast to preconditioning, which requires a foreknowledge of the ischemic event, postconditioning can be applied at the onset of reperfusion at the point of clinical service, i.e. angioplasty, cardiac surgery, transplantation.

Lipids closely associated with bone morphogenetic protein (BMP)--and induced heterotopic bone formation. With preliminary observations of deficiencies in lipid and osteoinduction in lathyrism in rats.

An extensive literature on bone morphogenetic protein (BMP) induced generation and regeneration shows general agreement about one observation. The incidence and quantity of bone were greatest when BMP was delivered with a carrier of various biologic and non biologic polymers. In the present research, neutral lipids either endogenous in demineralized bone matrix (DBM) or exogenous in orign were employed as a delivery system for induced heterotopic bone formation in the rectus muscle in rats. Total neutral lipids including cholesterol were measured by correlated gravimetric and Sudan Black B dye binding methods. The heterotopic bone was measured by computer assisted radiomorphometric and histologic methods. Bone formation was measured by total calcium, DNA-P, and alkaline phosphatase activity. Composites of BMP and neutral lipids, separable from phospholipids by extraction with absolute acetone, were consistently osteoinductive. A significant quantity of the total bone lipid was closely associated with and extractable from the bone matrix non-collagenous protein fraction which had high levels of BMP activity. Lathyritic matrix was very low both in dye binding and osteoinductive activity. These observations suggest the possibility that lipids may serve as a BMP carrier in the process of induced bone development.

Neutral lipids facilitate transfer of bone morphogenetic proteins and other noncollagenous proteins.

In the process of separation of bone morphogenetic proteins from bone matrix, lipids were found in unexpected amounts closely associated with noncollagenous proteins soluble in guanidine hydrochloride. Lipids representing 33.7-49.9% by weight were recovered with various solvents. Composites of noncollagenous proteins and lipids soluble in either chloroform- methanol or acetone implanted in the hindquarter muscles of mice induced the formation of large deposits of heterotopic bone. The protein-lipid aggregates formed microspherules which were stained by Sudan Black B. Implants of bone morphogenetic proteins and noncollagenous proteins-lipid microspherules stained with Sudan Black B induced bone development in the same manner as unstained delipidized bone morphogenetic proteins associated with noncollagenous proteins. Lipid-free osteocalcein, osteonectin, albumin and other bone matrix proteins did not induce bone formation or bind Sudan Black B. The more highly purified the noncollagenous proteins, with or without activity of bone morphogenetic proteins, the lower the level of binding with Sudan Black B. Acetone-soluble bone matrix lipids consisted chiefly of triglycerides, cholesterol and saturated short chain fatty acids, and included little or no phospholipids or monounsaturated fatty acids. Composites of recombinant bone morphogenetic proteins-2 and acetone-soluble lipids induced larger deposits of bone than implants of recombinant bone morphogenetic proteins-2 without acetone-soluble lipids. The hypothesis that an association of bone lipids with protein facilitates the local transport of bone morphogenetic proteins warrants further investigation.