Project description:Cognitive resilience describes a subset of the elderly population that present no cognitive decline despite harboring Alzheimer’s disease (AD) neuropathologies. We used single nucleus RNA-sequencing to profile the hippocampal formation of cognitively resilient and susceptible AD-BXD strains.

Project description:Understanding the mechanisms involved in cognitive resilience in Alzheimer’s disease (AD) represents a promising strategy to identify novel treatments for dementia in AD. Previous findings from our group revealed that the study of aged-Tg2576 cognitive resilient individuals is a suitable tool for this purpose. Here, by performing a transcriptomic analysis of the prefrontal cortex of demented and resilient Tg2576 mice, we have been able to hypothesize that pathways involved in inflammation, amyloid degradation, memory function and neurotransmission may be playing a role on cognitive resilience in AD. Intriguingly, the results obtained in this study are suggestive of a reduction of the influx of peripheral immune cells into the brain on cognitive resilient subjects. Indeed, Cd4 mRNA expression is significantly reduced on Tg2576 mice with cognitive resilience and interestingly, we have found a negative correlation between CD4 mRNA levels in the periphery and the score in the Mini-Mental State Exam of AD patients. All of this, highlights the importance of understanding the role of the immune system on the development of neurodegenerative diseases and points out to the infiltration of CD4+ cells in the brain as a key player of cognitive dysfunction in AD.

Project description:Some individuals show a discrepancy between cognition and the amount of neuropathological changes characteristic for Alzheimer’s disease (AD). This phenomenon has been referred to as ‘resilience’. The molecular and cellular underpinnings of resilience remain poorly understood. To obtain an unbiased understanding of the molecular changes underlying resilience, we investigated global changes in gene expression in the superior frontal gyrus of a cohort of cognitively and pathologically well-defined AD patients, resilient individuals and age-matched controls (n=11-12 per group). 897 genes were significantly altered between AD and control, 1121 between resilient and control and 6 between resilient and AD. Gene set enrichment analysis (GSEA) revealed that the expression of metallothionein (MT) and of genes related to mitochondrial processes was higher in the resilient donors. Weighted gene co-expression network analysis (WGCNA) identified gene modules related to the unfolded protein response, mitochondrial processes and synaptic signaling to be differentially associated with resilience or dementia. As changes in MT, mitochondria, heat shock proteins and the unfolded protein response (UPR) were the most pronounced changes in the GSEA and/or WGCNA, immunohistochemistry was used to further validate these processes. MT was significantly increased in astrocytes in resilient individuals. A higher proportion of the mitochondrial gene MT-CO1 was detected outside the cell body versus inside the cell body in the resilient compared to the control group and there were higher levels of heat shock protein 70 (HSP70) and X-box-binding protein 1 spliced (XBP1s), two proteins related to heat shock proteins and the UPR, in the AD donors. Finally, we show evidence for putative sex-specific alterations in resilience, including gene expression differences related to autophagy in females compared to males. Taken together, these results show possible mechanisms involving MTs, mitochondrial processes and the UPR by which individuals might maintain cognition despite the presence of AD pathology.

Project description:Despite diverging levels of amyloid-β (Aβ) and TAU pathology, different mouse models, as well as sporadic AD patients show predictable patterns of episodic memory loss. MiRNA deregulation is well established in AD brain but it is unclear whether Aβ or Tau pathology drives those alterations and whether miRNA changes contribute to cognitive decline. Therefore miRNAseq was performed on the hippocampus of APPswe/PS1L166P and Thy-TAU22 mice and their respective wild-type littermates when they were cognitively intact (4 months) and impaired (10 months). We found 6 miRNAs that are commonly upregulated between APPtg and TAUtg mice, and four of these were also altered in AD patients. All 6 miRNAs are strongly enriched in neurons as verified by in situ hybridization.

Project description:Unravel the mechanisms underlying brain aging and Alzheimer´s disease (AD) has been difficult because of complexity of the networks that drive these aging-related changes. Analysis of the gene expression in the brain is a valuable tool to study the function of the brain under normal and pathological conditions. Gene microarray technology allows massively parallel analysis of most genes expressed in a tissue, and therefore is an important research tool that potentially can provide the investigative power needed to address the complexity of brain aging and neurodegenerative processes. One of the reasons that account for the resistance of AD pathogenesis to analysis is that clinically normal subjects may exhibit considerable AD pathology, blurring criteria for distinguishing subjects with normal aging or AD. Here, we analyzed hippocampal and cortex frontal gene expression from 32 subjects separated in individuals presenting, 1) both pathologic and clinical AD (definitive AD); 2) AD pathology and normal clinic (pathologic AD); 3) cognitive impairment, without AD pathology (others dementias); and 4) no cognitive impairment, without AD pathology (normal individuals). Our results show that based on gene expression profile these individuals we could verify similarity between the definitive AD group and the group that only had AD-type pathology (pathologic AD). Specimens of hippocampus and cortex frontal used in this study were obtained at autopsy from 32 subjects. Neuropathology, specifically NFT and NP, was assessed in accordance to the Braak staging and CERAD scores, respectively. Based on pathologic and clinic criteria, subjects were categorized into four groups: 1) nine subjects with AD neuropathologic (Braak = IV / V / VI and CERAD ≠ 0) presenting cognitive impairment (CDR ≥ 1), termed “definitive AD” (dAD); 2) five subjects with AD neuropathologic (Braak = IV / V / VI and CERAD ≠ 0) and without cognitive impairment (CDR = 0), termed “pathologic AD” (pAD); 3) nine subjects without AD neuropathologic (Braak = 0 / I / II and CERAD ≠ C) presenting cognitive impairment (CDR ≥ 1), termed “other dementias” (OD); 4) - nine subjects without AD neuropathologic (Braak = 0 / I / II and CERAD ≠ C) and without cognitive impairment (CDR = 0), termed “normal” (N). RNA isolation and Amplification. From total RNA, a two-round linear amplification procedure (T7-based protocol) was carried out for all samples and for a pool of RNAs obtained from 15 distinct human cell lines used as reference. Labeled cDNA was generated in a reverse transcriptase reaction using amplified RNA (aRNA). Equal amounts of test and reference cDNA reverse color Cy-labeled aRNA targets were competitively hybridized against the cDNA probes in a customized cDNA platform with 4,608 ORESTES representing human genes. Dye-swap was performed for each sample as control for dye bias and used as replicate.

Project description:Alzheimer's disease (AD) is the most common type of dementia. Extracellular amyloid β (Aβ) plaques and intracellular Tau-containing neurofibrillary tangles are major AD lesions that identify Alzheimer’s pathology and to neuronal loss. However, given that these structures are also seen in cognitively normal persons (healthy controls, HC) and in persons who have mild cognitive impairment (MCI), extensive efforts have been undertaken to identify other diagnostic or prognostic indicators. Here, we characterized the RNA contents of extracellular vesicles (EVs) in the plasma of age-matched individuals who are healthy or have MCI or AD. Using RNA sequencing analysis, we found that mitochondrial (mt)RNAs, including MT-ND1 through MT-ND6 and other protein-coding and noncoding mtRNAs, were strikingly elevated in MCI- and AD-associated plasma EVs compared with healthy control EVs. In cultured cells derived from astrocytes, microglia, and neurons, exposure to the toxic conditions in the AD environment (Aβ fibers and H2O2), EVs contained mitochondrial structures (as detected by electron microscopy) as well as mitochondrial RNAs. We propose that in the MCI and AD brain environment, toxicity causing mitochondrial damage results in the packaging of mitochondrial components for export in EVs, and further propose that mitochondrial RNAs in plasma EVs are robust diagnostic and prognostic markers in AD.

Project description:We found some novel miRNA that targets SIRT1 may contribute to the pathogenesis in AD mouse model. We first identified that SIRT1 is significantly reduced in Alzheimer patient`s precentral gyrus and 5XFAD mice. To determine whether the strategy of inhibiting some miRNA affects AD pathology, we synthesized antisense oligonucleotides of miRNA (miRNA ASO) and studied this sequence in the brain of 5XFAD through direct intracerebral ventricular injection using stereotaxic instrument. We identified miRNA ASO significantly reduced amyloid beta plaque and amyloid production enzyme. Importantly, the attenuation of amyloid beta plaques through miRNA ASO was caused by a phagocytic activity of glial cells, by which it can directly target CD36. miRNA ASO also decreases inflammatory responses. These results inhibit neuronal loss caused by amyloid beta and leading to improvement of cognitive impairment. These insights of miRNA ASO suggests as therapeutic scope against AD pathology.

Project description:Total RNA sequencing of cultured OM cells derived from patients with Alzheimer's disease (AD), individuals with mild cognitive impairment (MCI) and cognitively healthy controls.

Project description:Total RNA sequencing of cultured ONS cells derived from patients with Alzheimer's disease (AD), individuals with mild cognitive impairment (MCI) and cognitively healthy controls.

Project description:Total RNA sequencing of cultured OM cells derived from patients with Alzheimer's disease (AD), individuals with mild cognitive impairment (MCI) and cognitively healthy controls.