UNLABELLED: The excitotoxic action of homocysteine and related sulphur-containing metabolites was investigated in organotpyic cultures derived from rat brain cortex and hippocampus by inhibition experiments using antagonists selective for different glutamate receptor subtypes. In addition the direct interaction of these metabolites with glutamate receptors expressed in frog oocytes was tested by conventional two electrode voltage clamp techniques. CONCLUSION: Neurodegeneration and epilepsy observed in homocystinuria may be mediated by L-homocysteic and L-homocysteine sulphinic acid. Both metabolites exhibit excitotoxic potency by interaction with different glutamate receptor subtypes.
UNLABELLED: The excitotoxic action of homocysteine and related sulphur-containing metabolites was investigated in organotpyic cultures derived from rat brain cortex and hippocampus by inhibition experiments using antagonists selective for different glutamate receptor subtypes. In addition the direct interaction of these metabolites with glutamate receptors expressed in frog oocytes was tested by conventional two electrode voltage clamp techniques. CONCLUSION:Neurodegeneration and epilepsy observed in homocystinuria may be mediated by L-homocysteic and L-homocysteine sulphinic acid. Both metabolites exhibit excitotoxic potency by interaction with different glutamate receptor subtypes.
Authors: K Ullrich; B Flott-Rahmel; P Schluff; U Musshoff; A Das; T Lücke; R Steinfeld; E Christensen; C Jakobs; A Ludolph; A Neu; R Röper Journal: J Inherit Metab Dis Date: 1999-06 Impact factor: 4.982
Authors: Natalie M Frederick; Julie Bertho; Kishan K Patel; Geraldine T Petr; Ekaterina Bakradze; Sylvia B Smith; Paul A Rosenberg Journal: Neurochem Int Date: 2014-07-05 Impact factor: 3.921