Together, carrying allele G in the single nucleotide polymorphism (rs2070424 A/G) in SOD1, or allele C in the single nucleotide polymorphism (rs4880 T/C) in SOD2, enhances genetic susceptibility to Parkinson's disease.
Therefore, in order to investigate a possible interaction between oxidative stress and α-synuclein aggregation in vivo, a transgenic model of PD with haplodeficiency for SOD2 was generated on the basis of the well-characterized murine (Thy-1)-h[A30P]-α-synuclein transgenic line.
A significantly increased activities of SOD, Cu/ZnSOD, GST and reduced GR activity and an increase of MDA concentration were observed in the striatum of PD rats, comparing to the control group, combined with a significantly reduced activities of GR,SOD, Cu/ZnSOD and an increased GPX activity and MDA concentration in the hippocampus, a significantly lower GR, SOD, MnSOD, Cu/ZnSOD, and GST activities in the cerebral cortex.
These results indicate a novel pathway by which the P209A defect in the PINK1 kinase domain inhibits oxidative stress-induced HO-1 and SOD2 induction, which may accelerate the neurodegeneration in PD with PINK1 defect.
We investigated the possible interplay between DA and SOD2 in the pathogenesis of PD using enzymatic essays, site-specific mutagenesis, and optical and high-field-cw-EPR spectroscopies.
Moreover, among subjects exposed to pesticide, the combined MnSOD/NQO1 variant genotype was significantly associated with a 4.09-fold increased risk of PD (95%CI, 1.34-10.64, P=0.0052).
Moreover, among subjects exposed to pesticide, the combined MnSOD/NQO1 variant genotype was significantly associated with a 4.09-fold increased risk of PD (95%CI, 1.34-10.64, P=0.0052).
In addition, both alleles of the Ala9Val polymorphism in the MTS of MnSOD were equally distributed between German PD patients and controls excluding this gene variant as a risk factor for PD in Caucasian subjects.