OCIAD1 contributes to neurodegeneration in Alzheimer's disease by inducing mitochondria dysfunction, neuronal vulnerability and synaptic damages

Autor: Xuping Li, Matthew D. Cykowski, Stephen T. C. Wong, Tiancheng He, Weiming Xia, Lin Wang, Joshua Chakranarayan, Suzanne Zein-Eldin Powell, Timothy Liu, Hong Zhao, Andreana L. Rivera
Rok vydání: 2020
Předmět:
0301 basic medicine
Candidate gene
Research paper
enOD1
endogenous OCIAD1

SFG
superior frontal gyrus

VDAC1
Voltage Dependent Anion Channel 1

lcsh:Medicine
β-tub
β-tubulin

Hippocampus
Disease
Mitochondrion
Mice
MMSE
Minimal Mental State Examination

0302 clinical medicine
Hyperamyloidosis
OCIAD1
Olf
olfactory bulb

Membrane Potential
Mitochondrial

Neurons
lcsh:R5-920
Cell Death
Caspase 3
p53
tumor protein p53

SDHB
succinate dehydrogenase complex iron sulfur subunit B

Neurodegeneration
Brain
Cell Differentiation
General Medicine
Alzheimer's disease
Mitochondria
Up-Regulation
CTNNB1
β-catenin. CTX
cerebral cortex

HK1
hexokinase I. MCF
medial frontal cortex

Neoplasm Proteins
3. Good health
Proto-Oncogene Proteins c-bcl-2
HIP
hippocampus

Veh
vehicle

DNT
dystrophic neurite

Mid
midbrain

030220 oncology & carcinogenesis
HEK
human embryo kidney cell

lcsh:Medicine (General)
VCX
primary visual cortex

VDAC1
Protein Binding
Mice
Transgenic

c-CAS9
Cleaved caspase-9

APP
amyloid precursor protein (A4)

General Biochemistry
Genetics and Molecular Biology

Protein Aggregates
CER
cerebellum

03 medical and health sciences
Alzheimer Disease
medicine
Animals
Humans
c-PARP
cleaved PARP

c-CAS3
cleaved caspase-3

mit-OD1
mitochondrial OCIAD1

MG
MG-132

exOD1
exogenous OCIAD1

OD1
OCIAD1

Amyloid beta-Peptides
Glycogen Synthase Kinase 3 beta
PUMA
p53 upregulated modulator of apoptosis

business.industry
F-Box Proteins
lcsh:R
MTL
mesial temporal lobe

EC
endorhinal cortex

medicine.disease
PCC
posterior cingulate cortex

Enzyme Activation
030104 developmental biology
Superior frontal gyrus
Nerve Degeneration
Synapses
Commentary
SMAC
Second mitochondria-derived activator of caspase

Tumor Suppressor Protein p53
Mitochondrial dysfunction
business
Neuroscience
Zdroj: EBioMedicine
EBioMedicine, Vol 51, Iss, Pp-(2020)
ISSN: 2352-3964
DOI: 10.1016/j.ebiom.2019.11.030
Popis: Background: Hyperamyloidosis in the brain is known as the earliest neuropathological change and a unique etiological factor in Alzheimer's disease (AD), while progressive neurodegeneration in certain vulnerable brain regions forms the basis of clinical syndromes. It is not clear how early hyperamyloidosis is implicated in progressive neurodegeneration and what factors contribute to the selective brain vulnerability in AD. Methods: Bioinformatics and experimental neurobiology methods were integrated to identify novel factors involved in the hyperamyloidosis-induced brain vulnerability in AD. We first examined neurodegeneration-specific gene signatures from sporadic AD patients and synaptic protein changes in young transgenic AD mice. Then, we systematically assessed the association of a top candidate gene with AD and investigated its mechanistic role in neurodegeneration. Findings: We identified the ovary-orientated protein OCIAD1 (Ovarian-Carcinoma-Immunoreactive-Antigen-Domain-Containing-1) as a neurodegeneration-associated factor for AD. Higher levels of OCIAD1, found in vulnerable brain areas and dystrophic neurites, were correlated with disease severity. Multiple early AD pathological events, particularly Aβ/GSK-3β signaling, elevate OCIAD1, which in turn interacts with BCL-2 to impair mitochondrial function and facilitates mitochondria-associated neuronal injury. Notably, elevated OCIAD1 by Aβ increases cell susceptibility to other AD pathological challenges. Interpretation: Our findings suggest that OCIAD1 contributes to neurodegeneration in AD by impairing mitochondria function, and subsequently leading to neuronal vulnerability, and synaptic damages. Funding: Ting Tsung & Wei Fong Chao Foundation, John S Dunn Research Foundation, Cure Alzheimer's Fund, and NIH R01AG057635 to STCW. Keywords: OCIAD1, Neurodegeneration, Hyperamyloidosis, Mitochondrial dysfunction, Alzheimer's disease
Databáze: OpenAIRE