TY - JOUR
T1 - The role of alpha-synuclein as ferrireductase in neurodegeneration associated with Parkinson’s disease
AU - Sian-Hulsmann, Jeswinder
AU - Riederer, Peter
PY - 2020/5
Y1 - 2020/5
N2 - Misfolding of the protein α-synuclein contributes to the formation of the intracellular inclusion, Lewy bodies. Although these structures are not exclusive to Parkinson’s disease, nevertheless, their presence in the substantia nigra is mandatory for the pathological diagnosis of the disorder. Therefore, there must be a focus on the pathological mechanisms responsible for Lewy body generation. Recent studies have suggested that α-synuclein has the potential to operate as the enzyme ferrireductase. Perhaps in the early diseased state, overexpression or mutation of alpha-synuclein/ferrireductase invokes the dyshomeostasis of iron (III)/(II) only, while in advanced stages, accumulation of iron in particular areas of the brain follows. Furthermore, the loss of an important iron chelator, neuromelanin (due to dopaminergic neuronal death), may then result in the release and increase in unbound free iron. Iron could generate reactive oxygen species, which could instigate a torrent of cellular deleterious processes. In addition, loss of energy supply may contribute to the alteration in activity of enzymes involved in the mitochondrial respiratory chain and would, therefore, confer a vulnerability to the dopaminergic neurons in the substantia nigra. Therefore, the ferrireductase alpha-synuclein may hold the key for major pathology of Parkinson’s disease. In conclusion, we hypothesize that environmentally or genetically overexpressed and/or mutated α-synuclein/ferrireductase causes iron dyshomeostasis without increase of free iron concentration in the early phases of PD, while increased iron concentration accompanied by iron dyshomeostasis is a marker for progressed PD stages. It is essential to elucidate these degenerative mechanisms, so as to provide effective therapeutic treatment to halt or delay the progression of the illness already in the early phase of PD. The development of iron chelators seems to be a reasonable approach.
AB - Misfolding of the protein α-synuclein contributes to the formation of the intracellular inclusion, Lewy bodies. Although these structures are not exclusive to Parkinson’s disease, nevertheless, their presence in the substantia nigra is mandatory for the pathological diagnosis of the disorder. Therefore, there must be a focus on the pathological mechanisms responsible for Lewy body generation. Recent studies have suggested that α-synuclein has the potential to operate as the enzyme ferrireductase. Perhaps in the early diseased state, overexpression or mutation of alpha-synuclein/ferrireductase invokes the dyshomeostasis of iron (III)/(II) only, while in advanced stages, accumulation of iron in particular areas of the brain follows. Furthermore, the loss of an important iron chelator, neuromelanin (due to dopaminergic neuronal death), may then result in the release and increase in unbound free iron. Iron could generate reactive oxygen species, which could instigate a torrent of cellular deleterious processes. In addition, loss of energy supply may contribute to the alteration in activity of enzymes involved in the mitochondrial respiratory chain and would, therefore, confer a vulnerability to the dopaminergic neurons in the substantia nigra. Therefore, the ferrireductase alpha-synuclein may hold the key for major pathology of Parkinson’s disease. In conclusion, we hypothesize that environmentally or genetically overexpressed and/or mutated α-synuclein/ferrireductase causes iron dyshomeostasis without increase of free iron concentration in the early phases of PD, while increased iron concentration accompanied by iron dyshomeostasis is a marker for progressed PD stages. It is essential to elucidate these degenerative mechanisms, so as to provide effective therapeutic treatment to halt or delay the progression of the illness already in the early phase of PD. The development of iron chelators seems to be a reasonable approach.
KW - Alpha-synuclein
KW - Ferrireductase
KW - Iron
KW - Mitochondriopathy
KW - Neuromelanin
KW - Oxidative stress
KW - Parkinson’s disease
U2 - 10.1007/s00702-020-02192-0
DO - 10.1007/s00702-020-02192-0
M3 - Journal article
C2 - 32318880
AN - SCOPUS:85084047307
SN - 0300-9564
VL - 127
SP - 749
EP - 754
JO - Journal of Neural Transmission
JF - Journal of Neural Transmission
IS - 5
ER -