PPARγ-coactivator-1α Gene Transfer Reduces Neuronal Loss and Amyloid-β Generation by Reducing β-secretase in an Alzheimer's Disease Model

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2016 Oct 30

PMID 27791018

Citations 63

Authors

Loukia Katsouri

Yau M Lim

Katrin Blondrath

Ioanna Eleftheriadou

Laura Lombardero

Amy M Birch

Nazanin Mirzaei

Elaine E Irvine

Nicholas D Mazarakis

Magdalena Sastre

Affiliations

Soon will be listed here.

Abstract

Current therapies for Alzheimer's disease (AD) are symptomatic and do not target the underlying Aβ pathology and other important hallmarks including neuronal loss. PPARγ-coactivator-1α (PGC-1α) is a cofactor for transcription factors including the peroxisome proliferator-activated receptor-γ (PPARγ), and it is involved in the regulation of metabolic genes, oxidative phosphorylation, and mitochondrial biogenesis. We previously reported that PGC-1α also regulates the transcription of β-APP cleaving enzyme (BACE1), the main enzyme involved in Aβ generation, and its expression is decreased in AD patients. We aimed to explore the potential therapeutic effect of PGC-1α by generating a lentiviral vector to express human PGC-1α and target it by stereotaxic delivery to hippocampus and cortex of APP23 transgenic mice at the preclinical stage of the disease. Four months after injection, APP23 mice treated with hPGC-1α showed improved spatial and recognition memory concomitant with a significant reduction in Aβ deposition, associated with a decrease in BACE1 expression. hPGC-1α overexpression attenuated the levels of proinflammatory cytokines and microglial activation. This effect was accompanied by a marked preservation of pyramidal neurons in the CA3 area and increased expression of neurotrophic factors. The neuroprotective effects were secondary to a reduction in Aβ pathology and neuroinflammation, because wild-type mice receiving the same treatment were unaffected. These results suggest that the selective induction of PGC-1α gene in specific areas of the brain is effective in targeting AD-related neurodegeneration and holds potential as therapeutic intervention for this disease.

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