Michael Maywald scite author profile

The increase in brain iron associated with several neurodegenerative diseases may lead to an increased production of free radicals via the Fenton reaction. Intracellular iron is usually tightly regulated, being bound by ferritin in an insoluble ferrihydrite core. The neurotoxin 6‐hydroxydopamine (6‐OHDA) releases iron from the ferritin core by reducing it to the ferrous form. Iron release induced by 6‐OHDA and structurally related compounds and two other dopaminergic neurotoxins, 1‐methyl‐4‐phenylpyridinium iodide (MPP+) and 1‐trichloromethyl‐1,2,3,4‐tetrahydro‐β‐carboline (TaClo), were compared, to identify the structural characteristics important for such release. 1,2,4‐Trihydroxybenzene (THB) was most effective in releasing ferritin‐bound iron, followed by 6‐OHDA, dopamine, catechol, and hydroquinone. Resorcinol, MPP+, and TaClo were ineffective. The ability to release iron was associated with a low oxidation potential. It is proposed that a low oxidation potential and an ortho‐dihydroxyphenyl structure are important in the mechanism by which ferritin iron is mobilized. In the presence of ferritin, both 6‐OHDA and THB strongly stimulated lipid peroxidation, an effect abolished by the addition of the iron chelator deferoxamine. These results suggest that ferritin iron release contributes to free radical‐induced cell damage in vivo.

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Synthesis of Novel Enyne-Allenes, Their Thermal C²-C⁶ Cyclization, and the Importance of a Benzofulvene Biradical in the DNA Strand Cleavage¹

Schmittel¹,

Maywald²,

Strittmatter³

1997

Synlett

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Ring size effects in the C2–C6 biradical cyclisation of enyne–allenes and the relevance for neocarzinostatin

Schmittel

Steffen

Maywald

et al. 2001

J. Chem. Soc., Perkin Trans. 2

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Ring Strain Effects in Enyne-Allene Thermolysis: Switch from the Myers-Saito Reaction to the C2-C6 Biradical Cyclization

Schmittel

Steffen

Auer

et al. 1997

Tetrahedron Letters

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Electronic effects in the thermal C2–C6 biradical cyclisation of enyne-allenes

Schmittel

Maywald

2001

Chem. Commun.

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Michael Maywald

In Vitro Studies of Ferritin Iron Release and Neurotoxicity

Synthesis of Novel Enyne-Allenes, Their Thermal C²-C⁶ Cyclization, and the Importance of a Benzofulvene Biradical in the DNA Strand Cleavage¹

Ring size effects in the C2–C6 biradical cyclisation of enyne–allenes and the relevance for neocarzinostatin

Ring Strain Effects in Enyne-Allene Thermolysis: Switch from the Myers-Saito Reaction to the C2-C6 Biradical Cyclization

Electronic effects in the thermal C2–C6 biradical cyclisation of enyne-allenes

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Michael Maywald

In Vitro Studies of Ferritin Iron Release and Neurotoxicity

Synthesis of Novel Enyne-Allenes, Their Thermal C2-C6 Cyclization, and the Importance of a Benzofulvene Biradical in the DNA Strand Cleavage1

Ring size effects in the C2–C6 biradical cyclisation of enyne–allenes and the relevance for neocarzinostatin

Ring Strain Effects in Enyne-Allene Thermolysis: Switch from the Myers-Saito Reaction to the C2-C6 Biradical Cyclization

Electronic effects in the thermal C2–C6 biradical cyclisation of enyne-allenes

Contact Info

Product

Resources

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Synthesis of Novel Enyne-Allenes, Their Thermal C²-C⁶ Cyclization, and the Importance of a Benzofulvene Biradical in the DNA Strand Cleavage¹