Heme and Iron Metabolism: Role in Cerebral Hemorrhage

Wagner, Kenneth R.; Sharp, Frank R.; Ardizzone, Timothy D.; Lu, Aiming; Clark, Joseph F.

doi:10.1097/01.wcb.0000073905.87928.6d

Cited by 413 publications

(402 citation statements)

References 195 publications

(358 reference statements)

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“…10 It is well known that brain iron overload can stimulate free radical production and cause oxidative injury, including lipid peroxidation and DNA damage. 18,24,25 The current study shows that injection of lysed RBCs, but not packed RBCs, can mimic the acute ventricular enlargement induced by IVH. …”

Section: Discussionmentioning

confidence: 66%

Role of Red Blood Cell Lysis and Iron in Hydrocephalus after Intraventricular Hemorrhage

Gao

Hua

et al. 2014

J Cereb Blood Flow Metab

117

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Thrombin and iron are two major players in intracerebral hemorrhage-induced brain injury and our recent study found that thrombin contributes to hydrocephalus development in a rat model of intraventricular hemorrhage (IVH). This study investigated the role of red blood cell (RBC) lysis and iron in hydrocephalus after IVH. There were three parts to this study. First, male SpragueDawley rats received an injection of saline, packed, or lysed RBCs into the right lateral ventricle. Second, rats had an intraventricular injection of iron or saline. Third, the rats received intraventricular injection of lysed RBCs mixed with deferoxamine (0.5 mg in 5 mL saline) or saline. All rats underwent magnetic resonance imaging at 24 hours and were then euthanized for brain edema measurement, western blot analysis, or brain histology. We found that intraventricular injection of lysed RBCs, but not packed RBCs, resulted in ventricular enlargement and marked increases in brain heme oxygenase-1 and ferritin at 24 hours. Intraventricular injection of iron also resulted in ventricular enlargement and ventricular wall damage 24 hours later. Coinjection of deferoxamine reduced lysed RBC-induced ventricular enlargement (Po0.01). These results suggest that iron, a degradation product of hemoglobin, has an important role in hydrocephalus development after IVH.

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Section: Discussionmentioning

confidence: 66%

Role of Red Blood Cell Lysis and Iron in Hydrocephalus after Intraventricular Hemorrhage

Gao

Hua

et al. 2014

J Cereb Blood Flow Metab

117

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show abstract

“…Hemopexin, albumin, a-1-microglobulin, and reduced glutathione are the most well-known heme-binding molecules [15,141]. Hemopexin is an intravascular protein that binds free heme with a very high affinity and protects against heme toxicity in vitro [141][142][143].…”

Section: The Oxidant Potential Of Heme Is Neutralized By Multiple Hemmentioning

confidence: 99%

Heme: a versatile signaling molecule controlling the activities of diverse regulators ranging from transcription factors to MAP kinases

2006

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“…Heme oxygenase-2 is constitutively expressed in many cells including neurons and vascular endothelial cells (Govindaraju et al, 2005;Maines, 2000). Heme oxygenase-1 is the inducible heat-shock protein that is induced by heme, iron, heat shock, free radicals, and other stimuli in a variety of cells, including macrophages, brain microglia, and vascular smooth muscle cells (Foresti et al, 1999;Govindaraju et al, 2005;Maines, 2000;Sharp et al, 1999;Wagner et al, 2003). Injection of blood (Matz et al, 1996a, b, c), or injections of pure Hb into the subarachnoid space induces HO-1 in microglia throughout the brain (Turner et al, 1998).…”

Section: Heme Oxygenases and Bilirubin Productionmentioning

confidence: 99%

BilirubinOxidation Products (BOXes) and Their Role in Cerebral Vasospasm after Subarachnoid Hemorrhage

Clark

Sharp

2006

J Cereb Blood Flow Metab

108

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Many factors have been postulated to cause delayed subarachnoid hemorrhage (SAH)-induced vasospasm, including hemoglobin, nitric oxide, endothelin, and free radicals. We propose that free radicals (because of the high levels that are produced in the blood clots surrounding blood vessels after SAH) act on bilirubin, biliverdin, and possibly heme to produce BOXes (Bilirubin OXidized Products). Bilirubin oxidation products act on vascular smooth muscle cells to produce chronic vasoconstriction and vasospasm combined with a vasculopathy because of smooth muscle cell injury. This review summarizes recent evidence that BOXes play a role in SAH-induced vasospasm. The data supporting a role for BOXes includes (1) identification of molecules in cerebrospinal fluid (CSF) of patients with vasospasm after SAH that have structures consistent with BOXes; (2) BOXes are vasoactive in vitro and mimic the biochemical actions of CSF of patients with vasospasm; (3) BOXes are vasoactive in vivo, constricting rat cerebral vessels; and (4) there is a correlation between clinical occurrence of vasospasm and BOXes concentration in our preliminary study of patients with SAH. Since oxidation of bilirubin, biliverdin, and perhaps heme is proposed to produce BOXes that contribute to vasospasm, either blocking bilirubin formation, inactivating bilirubin or BOXes, or removing all of the blood clot before vasospasm are potential treatment targets.

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Heme and Iron Metabolism: Role in Cerebral Hemorrhage

Cited by 413 publications

References 195 publications

Role of Red Blood Cell Lysis and Iron in Hydrocephalus after Intraventricular Hemorrhage

Role of Red Blood Cell Lysis and Iron in Hydrocephalus after Intraventricular Hemorrhage

Heme: a versatile signaling molecule controlling the activities of diverse regulators ranging from transcription factors to MAP kinases

BilirubinOxidation Products (BOXes) and Their Role in Cerebral Vasospasm after Subarachnoid Hemorrhage

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