Teresa A. Fralix scite author profile

Magnetization transfer between macromolecules and water can be a significant factor contributing to tissue water 1H relaxation. Using saturation transfer techniques, the degree of magnetization transfer between the macromolecular matrix and bulk water 1H can be directly measured and magnetization transfer contrast (MTC) can be generated in MR images. A significant degree of MTC has been observed in tissues with high plasma membrane content such as kidney and brain. The purpose of this study was to establish whether lipid bilayers, as models for cell membranes, could exchange magnetization with the water solvent and whether this effect could contribute to MTC observed in intact tissues. Magnetization transfer was measured in aqueous dispersions of egg phosphatidylcholine (EPC) in the presence and absence of cholesterol. It was found that neither EPC bilayers nor cholesterol by themselves significantly exchanged magnetization with bulk water 1H. However, as the concentration of cholesterol was increased, the pseudo-first-order magnetization exchange rate increased to a maximum value of approximately 1 s-1. The cholesterol-induced 1H magnetization exchange may be related either to longer correlation times of the lipid or to an increase in the number of water molecules associated with the bilayer. These results indicate that EPC-cholesterol bilayers exchange 1H magnetization with bulk water. These results are consistent with lipid bilayer contributions to bulk water relaxation and MTC in intact biological tissues.

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Role of Lipoxygenase Metabolites in Ischemic Preconditioning

Murphy

Glasgow

Fralix

et al. 1995

Circulation Research

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Preconditioning with brief intermittent periods of ischemia before a sustained period of ischemia has been shown to reduce infarct size and improve recovery of function in rat hearts. The mediators of this protective response are unknown in rats. We tested the hypothesis that a lipoxygenase metabolite might be involved in preconditioning, since lipoxygenase metabolites such as 12-hydroperoxyeicosatetraenoic acid have been shown to increase K+ channel activity and to decrease Ca2+ channel activity, which could have a protective effect on ischemic injury. In support of this hypothesis, we report that the lipoxygenase inhibitors nordihydroguaiaretic acid (NDGA, 5 mumol/L) and eicosatetraynoic acid (7 mumol/L) added just before and during preconditioning blocked the protective effects of preconditioning on recovery of function during reflow after 30 minutes of global ischemia. In addition, these lipoxygenase inhibitors partially blocked the ability of preconditioning to attenuate the rise in cytosolic free calcium during sustained ischemia. We also investigated the effects of preconditioning on eicosanoid metabolism by using high-performance liquid chromatography and found that 12-hydroxyeicosatetraenoic acid (12-HETE), the stable product of the lipoxygenase pathway, was made during the preconditioning protocol and that 12-HETE accumulation was blocked by NDGA. Thus, there is a correlation between functional recovery after ischemia and stimulation of the lipoxygenase pathway of arachidonic acid metabolism before the sustained period of ischemia; inhibition of the lipoxygenase pathway eliminates the protective effect of preconditioning on recovery of function after ischemia.

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Teresa A. Fralix

Lipid bilayer and water proton magnetization transfer: Effect of cholesterol

Role of Lipoxygenase Metabolites in Ischemic Preconditioning

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