Mannitol at Clinical Concentrations Activates Multiple Signaling Pathways and Induces Apoptosis in Endothelial Cells

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Stroke. 1998;29:2631-2640

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(Stroke. 1998;29:2631-2640.)
© 1998 American Heart Association, Inc.

Original Contributions

Adel M. Malek, MD, PhD; Greg G. Goss, PhD; Lianwei Jiang, PhD; Seigo Izumo, MD Seth L. Alper, MD, PhD

From the Department of Neurosurgery, Brigham & Women's Hospital, Children's Hospital, and Harvard Medical School (A.M.M.), and the Molecular Medicine and Renal Units (G.G.G., L.J., S.L.A.) and Division of Cardiology (S.I.), Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, Mass.

Correspondence to Adel M. Malek, MD, PhD, UCSF Medical Center, Rm L352, Box 0628, 505 Parnassus Avenue, San Francisco, CA 94143. E-mail ammalek{at}bics.bwh.harvard.edu

Background and Purpose—Hyperosmotic mannitol therapy iswidely used in the clinical setting for acute and subacute reductionin brain edema, to decrease muscle damage in compartment syndrome,and to improve renal perfusion. Though beneficial rheologicaleffects commonly are attributed to mannitol, its direct effectson endothelial cells are poorly understood.

Methods—We studied the effect of hypertonic and hypotonicstress on bovine aortic endothelial (BAE) cells, using mannitol,urea, and sodium chloride and medium dilution in vitro.

Results—Exposure to incremental osmolar concentrationsof 300 mOsm of each osmotic agent increased apoptosis in BAEcells (mannitol ${cong}$ NaCl>urea). Induced programmed cell deathwas detected by DAPI staining of intact cell nuclei, and byTUNEL and DNA fragmentation ladder assays. Mannitol-inducedapoptosis exhibited dose dependence (42% of cells at 300 mOsm[P<0.0001] compared with 1.2% of control cells) and was alsoobserved in bovine smooth muscle cells. Mannitol-induced apoptosiswas attenuated ${approx}$ 50% in the presence of cycloheximide or actinomycinD. Hypertonic mannitol and NaCl, but not urea, increased tyrosine phosphorylationof the focal adhesion contact-associated proteins paxillin andFAK. Hypotonic medium, which did not lead to apoptosis, increasedprotein tyrosine phosphorylation of FAK but not of paxillin.Addition of mannitol or NaCl also produced sustained increasesin c-Jun NH2-terminal kinase (JNK) activity. In addition, hypertonicmannitol increased intracellular free [Ca²⁺] in a dose-dependent manner.Chelation of intracellular Ca²⁺ with quin2-AM (10 µmol/L)inhibited mannitol-induced apoptosis ${approx}$ 50%, as to a lesser extentdid inhibition of tyrosine kinase activity with herbimycin (1µmol/L).

Conclusions—We have shown that hypertonic mannitol exposure inducesendothelial cell apoptosis, accompanied by activation of tyrosineand stress kinases, phosphorylation of FAK and paxillin, andelevation of intracellular free [Ca²⁺]. The apoptosis is attenuatedby inhibition of transcription or translation, by inhibition oftyrosine kinases, or by intracellular Ca²⁺ buffering. Thesedata suggest that clinical use of the osmotic diuretic mannitolmay exert direct deleterious effects on vascular endothelium.

Editorial Comment

Chung Y. Hsu, MD, PhD, Guest Editor

Department of Neurology, Washington University School of Medicine, St Louis, Missouri

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				K. S. Kim, Y.-K. Hong, Y. A. Joe, Y. Lee, J.-Y. Shin, H.-E. Park, I.-H. Lee, S.-Y. Lee, D.-K. Kang, S.-I. Chang, et al. Anti-angiogenic Activity of the Recombinant Kringle Domain of Urokinase and Its Specific Entry into Endothelial Cells J. Biol. Chem., March 21, 2003; 278(13): 11449 - 11456. [Abstract] [Full Text] [PDF]

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