APA
Garcia Esparcia, Paula & Hernández Ortega, Karina & Koneti, Anusha & Gil Alberdi, Laura & Delgado Morales, Raul & Castaño, Ester & Carmona, Margarita & Ferrer, Isidre .Altered machinery of protein synthesis is region- and stage-dependent and is associated with ¿-synuclein oligomers in Parkinson's disease.
ISO 690
Garcia Esparcia, Paula & Hernández Ortega, Karina & Koneti, Anusha & Gil Alberdi, Laura & Delgado Morales, Raul & Castaño, Ester & Carmona, Margarita & Ferrer, Isidre. Altered machinery of protein synthesis is region- and stage-dependent and is associated with ¿-synuclein oligomers in Parkinson's disease.
https://hdl.handle.net/20.500.12080/25961
Résumé:
Introduction: Parkinson¿s disease (PD) is characterized by the accumulation of abnormal ¿-synuclein in selected
regions of the brain following a gradient of severity with disease progression. Whether this is accompanied by
globally altered protein synthesis is poorly documented. The present study was carried out in PD stages 1-6 of
Braak and middle-aged (MA) individuals without alterations in brain in the substantia nigra, frontal cortex area 8,
angular gyrus, precuneus and putamen.
Results: Reduced mRNA expression of nucleolar proteins nucleolin (NCL), nucleophosmin (NPM1), nucleoplasmin 3
(NPM3) and upstream binding transcription factor (UBF), decreased NPM1 but not NPM3 nucleolar protein
immunostaining in remaining neurons; diminished 18S rRNA, 28S rRNA; reduced expression of several mRNAs
encoding ribosomal protein (RP) subunits; and altered protein levels of initiation factor eIF3 and elongation factor
eEF2 of protein synthesis was found in the substantia nigra in PD along with disease progression. Although many
of these changes can be related to neuron loss in the substantia nigra, selective alteration of certain factors
indicates variable degree of vulnerability of mRNAs, rRNAs and proteins in degenerating sustantia nigra. NPM1
mRNA and 18S rRNA was increased in the frontal cortex area 8 at stage 5-6; modifications were less marked and
region-dependent in the angular gyrus and precuneus. Several RPs were abnormally regulated in the frontal cortex
area 8 and precuneus, but only one RP in the angular gyrus, in PD. Altered levels of eIF3 and eIF1, and decrease
eEF1A and eEF2 protein levels were observed in the frontal cortex in PD. No modifications were found in the
putamen at any time of the study except transient modifications in 28S rRNA and only one RP mRNA at stages 5-6.
These observations further indicate marked region-dependent and stage-dependent alterations in the cerebral
cortex in PD. Altered solubility and ¿-synuclein oligomer formation, assessed in total homogenate fractions blotted
with anti-¿-synuclein oligomer-specific antibody, was demonstrated in the substantia nigra and frontal cortex, but
not in the putamen, in PD. Dramatic increase in ¿-synuclein oligomers was also seen in fluorescent-activated cell
sorter (FACS)-isolated nuclei in the frontal cortex in PD Conclusions: Altered machinery of protein synthesis is altered in the substantia nigra and cerebral cortex in PD
being the frontal cortex area 8 more affected than the angular gyrus and precuneus; in contrast, pathways of
protein synthesis are apparently preserved in the putamen. This is associated with the presence of ¿-synuclein
oligomeric species in total homogenates; substantia nigra and frontal cortex are enriched, albeit with different band
patterns, in ¿-synuclein oligomeric species, whereas ¿-synuclein oligomers are not detected in the putamen.