APA
Hernandez Ortega, Karina & Garcia Esparcia, Paula & Gil Alberdi, Laura & Lucas, Jose J. & Ferrer, Isidre .Altered Machinery of Protein Synthesis in Alzheimer's: From the Nucleolus to the Ribosome.
ISO 690
Hernandez Ortega, Karina & Garcia Esparcia, Paula & Gil Alberdi, Laura & Lucas, Jose J. & Ferrer, Isidre. Altered Machinery of Protein Synthesis in Alzheimer's: From the Nucleolus to the Ribosome.
https://hdl.handle.net/20.500.12080/25963
Résumé:
Ribosomes and protein synthesis have been reported to be altered in the cerebral cortex at
advanced stages of Alzheimer¿s disease (AD). Modifications in the hippocampus with
disease progression have not been assessed. Sixty-seven cases including middle-aged (MA)
and AD stages I¿VI were analyzed. Nucleolar chaperones nucleolin, nucleophosmin and
nucleoplasmin 3, and upstream binding transcription factor RNA polymerase I gene (UBTF)
mRNAs are abnormally regulated and their protein levels reduced in AD. Histone
modifications dimethylated histone H3K9 (H3K9me2) and acetylated histone H3K12
(H3K12ac) are decreased in CA1. Nuclear tau declines in CA1 and dentate gyrus (DG), and
practically disappears in neurons with neurofibrillary tangles. Subunit 28 ribosomal RNA
(28S rRNA) expression is altered in CA1 and DG in AD. Several genes encoding ribosomal
proteins are abnormally regulated and protein levels of translation initiation factors eIF2a,
eIF3h and eIF5, and elongation factor eEF2, are altered in the CA1 region in AD. These
findings show alterations in the protein synthesis machinery in AD involving the nucleolus,
nucleus and ribosomes in the hippocampus in AD some of them starting at first stages (I¿II)
preceding neuron loss. These changes may lie behind reduced numbers of dendritic branches
and reduced synapses of CA1 and DG neurons which cause hippocampal atrophy