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. 2023 Sep 8:15:1194203.
doi: 10.3389/fnagi.2023.1194203. eCollection 2023.

BACE1 and SCD1 are associated with neurodegeneration

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BACE1 and SCD1 are associated with neurodegeneration

Ferley A Bedoya-Guzmán et al. Front Aging Neurosci. .

Abstract

Introduction: Proteolytic processing of amyloid protein precursor by β-site secretase enzyme (BACE1) is dependent on the cellular lipid composition and is affected by endomembrane trafficking in dementia and Alzheimer's disease (AD). Stearoyl-CoA desaturase 1 (SCD1) is responsible for the synthesis of fatty acid monounsaturation (MUFAs), whose accumulation is strongly associated with cognitive dysfunction.

Methods: In this study, we analyzed the relationship between BACE1 and SCD1 in vivo and in vitro neurodegenerative models and their association in familial AD (FAD), sporadic AD (SAD), and cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) using microscopy, biochemical, and mass SPECT approach.

Results: Our findings showed that BACE1 and SCD1 immunoreactivities were increased and colocalized in astrocytes of the hippocampus in a rat model of global cerebral ischemia (2-VO). A synergistic effect of double BACE1/SCD1 silencing on the recovery of motor and cognitive functions was obtained. This neuroprotective regulation involved the segregation of phospholipids (PLs) associated with polyunsaturated fatty acids in the hippocampus, cerebrospinal fluid, and serum. The double silencing in the sham and ischemic groups was stronger in the serum, inducing an inverse ratio between total phosphatydilcholine (PC) and lysophosphatidylcholine (LPC), represented mainly by the reduction of PC 38:4 and PC 36:4 and an increase in LPC 16:0 and LPC 18:0. Furthermore, PC 38:4 and PC:36:4 levels augmented in pathological conditions in in vitro AD models. BACE1 and SCD1 increases were confirmed in the hippocampus of FAD, SAD, and CADASIL.

Conclusion: Therefore, the findings suggest a novel convergence of BACE-1 and SCD1 in neurodegeneration, related to pro-inflammatory phospholipids.

Keywords: BACE1; PUFAs; SCD1; neurodegeneration; phospholipids; pro-inflammation.

Conflict of interest statement

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

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. 2023 Mar;33(2):e13119.
doi: 10.1111/bpa.13119. Epub 2022 Sep 21.

Gliovascular alterations in sporadic and familial Alzheimer's disease: APOE3 Christchurch homozygote glioprotection

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Gliovascular alterations in sporadic and familial Alzheimer's disease: APOE3 Christchurch homozygote glioprotection

Julián Henao-Restrepo et al. Brain Pathol. 2023 Mar.

Abstract

In response to brain insults, astrocytes become reactive, promoting protection and tissue repair. However, astroglial reactivity is typical of brain pathologies, including Alzheimer's disease (AD). Considering the heterogeneity of the reactive response, the role of astrocytes in the course of different forms of AD has been underestimated. Colombia has the largest human group known to have familial AD (FAD). This group carries the autosomal dominant and fully penetrant mutation E280A in PSEN1, which causes early-onset AD. Recently, our group identified an E280A carrier who did not develop FAD. The individual was homozygous for the Christchurch mutation R136S in APOE3 (APOEch). Remarkably, APOE is the main genetic risk factor for developing sporadic AD (SAD) and most of cerebral ApoE is produced by astroglia. Here, we characterized astrocyte properties related to reactivity, glutamate homeostasis, and structural integrity of the gliovascular unit (GVU), as factors that could underlie the pathogenesis or protection of AD. Specifically, through histological and 3D microscopy analyses of postmortem samples, we briefly describe the histopathology and cytoarchitecture of the frontal cortex of SAD, FAD, and APOEch, and demonstrate that, while astrodegeneration and vascular deterioration are prominent in SAD, FAD is characterized by hyperreactive-like glia, and APOEch displays the mildest astrocytic and vascular alterations despite having the highest burden of Aβ. Notably, astroglial, gliovascular, and vascular disturbances, as well as brain cell death, correlate with the specific astrocytic phenotypes identified in each condition. This study provides new insights into the potential relevance of the gliovasculature in the development and protection of AD. To our knowledge, this is the first study assessing the components of the GVU in human samples of SAD, FAD, and APOEch.

Keywords: APOEch; astrocytes; familial Alzheimer's disease; gliovascular unit; microglia; sporadic Alzheimer's disease.

Conflict of interest statement

The authors declare that this research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

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. 2023 Aug;26(8):680-695.
doi: 10.1080/1028415X.2022.2078173. Epub 2022 Aug 30.

Obesity induces extracellular vesicle release from the endothelium as a contributor to brain damage after cerebral ischemia in rats

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Obesity induces extracellular vesicle release from the endothelium as a contributor to brain damage after cerebral ischemia in rats

P A Perez-Corredor et al. Nutr Neurosci. 2023 Aug.

Abstract

Objectives: Cerebral ischemia is the most common cause of disability, the second most common cause of dementia, and the fourth most common cause of death in the developed world [Sveinsson OA, Kjartansson O, Valdimarsson EM. Heilablóðþurrð/heiladrep: Faraldsfræði, orsakir og einkenni [Cerebral ischemia/infarction - epidemiology, causes and symptoms]. Laeknabladid. 2014 May;100(5):271-9. Icelandic. doi:10.17992/lbl.2014.05.543]. Obesity has been associated with worse outcomes after ischemia in rats, triggering proinflammatory cytokine production related to the brain microvasculature. The way obesity triggers these effects remains mostly unknown. Therefore, the aim of this study was to elucidate the cellular mechanisms of damage triggered by obesity in the context of cerebral ischemia.

Methods: We used a rat model of obesity induced by a 20% high fructose diet (HFD) and evaluated peripheral alterations in plasma (lipid and cytokine profiles). Then, we performed cerebral ischemia surgery using two-vessel occlusion (2VO) and analyzed neurological/motor performance and glial activation. Next, we treated endothelial cell line cultures with glutamate in vitro to simulate an excitotoxic environment, and we added 20% plasma from obese rats. Subsequently, we isolated EVs released from endothelial cells and treated primary cultures of astrocytes with them.

Results: Rats fed a HFD had an increased BMI with dyslipidemia and high levels of proinflammatory cytokines. Glia from the obese rats exhibited altered morphology, suggesting hyperreactivity related to neurological and motor deficits. Plasma from obese rats induced activation of endothelial cells, increasing proinflammatory signals and releasing more EVs. Similarly, these EVs caused an increase in NF-κB and astrocyte cytotoxicity. Together, the results suggest that obesity activates proinflammatory signals in endothelial cells, resulting in the release of EVs that simultaneously contribute to astrocyte activation.

Keywords: Obesity; astrocytes; brain; cytokines; endothelium; extracellular vesicle; neurological disorder; proinflammation.

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. 2020 Aug 1;1866(8):165797.
doi: 10.1016/j.bbadis.2020.165797. Epub 2020 Apr 14.

Common disbalance in the brain parenchyma of dementias: Phospholipid profile analysis between CADASIL and sporadic Alzheimer's disease

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Free article

Common disbalance in the brain parenchyma of dementias: Phospholipid profile analysis between CADASIL and sporadic Alzheimer's disease

Angélica María Sabogal-Guáqueta et al. Biochim Biophys Acta Mol Basis Dis. .
Free article

Abstract

Sporadic Alzheimer's disease (SAD) is the most common form of dementia, and cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) is the most frequent hereditary ischemic small vessel disease of the brain. Relevant biomarkers or specific metabolic signatures could provide powerful tools to manage these diseases. Therefore, the main goal of this study was to compare the postmortem frontal cortex gray matter, white matter and cerebrospinal fluid (CSF) between a cognitively healthy group and CADASIL and SAD groups. We evaluated 352 individual lipids, belonging to 13 lipid classes/subclasses, using mass spectrometry, and the lipid profiles were subjected to multivariate analysis to discriminate between the dementia groups (CADASIL and SAD) and healthy controls. The main lipid molecular species showing greater discrimination by partial least squares-discriminant analysis (PLS-DA) and a higher significance multivariate correlation (sMC) index were as follows: phosphatidylserine (PS) PS(44:7) and lysophosphatidylethanolamine (LPE) LPE(18:2) in gray matter (GM); phosphatidylethanolamine (PE) PE(32:2) and phosphatidylcholine PC PC(44:6) in white matter (WM), and ether PE (ePE) ePE(38:2) and ether PC (ePC) ePC(34:3) in CSF. Common phospholipid molecular species were obtained in both dementias, such as PS(44:7) and lyso PC (LPC) LPC(22:5) in GM, PE(32:2) in WM and phosphatidic acid (PA) PA(38:5) and PC(42:7) in CFS. Our exploratory study suggests that phospholipids (PLs) involved in neurotransmission alteration, connectivity impairment and inflammation response in GM, WM and CSF are a transversal phenomenon affecting dementias such as CADASIL and SAD independent of the etiopathogenesis, thus providing a possible common prodromal phospholipidic biomarker of dementia.

Keywords: Biomarkers; Cerebrospinal fluid; Dementia; Gray matter; Phospholipids; White matter.

Conflict of interest statement

Declaration of competing interest The authors declare that they have no competing interests.

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. 2019 Aug 15:857:172420.
doi: 10.1016/j.ejphar.2019.172420. Epub 2019 May 25.

Microglial-targeting induced by intranasal linalool during neurological protection postischemia

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Microglial-targeting induced by intranasal linalool during neurological protection postischemia

Angela María Barrera-Sandoval et al. Eur J Pharmacol. .

Abstract

Stroke is the second cause of death and first cause of physical disability around the world; it affects the brain parenchyma through oxygen deficiency and spreads excitotoxicity. The complexity of the disease has made it difficult to find effective therapies. It is necessary to identify new treatments that effectively act within the narrow therapeutic window but also offer long-term protection poststroke. Our previous work found that oral linalool reversed the hippocampal and peripheral pro-inflammatory phospholipidomic biomarkers in ischemic rats; based on these observations, the "proof of concept" was to demonstrate that intranasal administration of linalool has a faster delivery to the central nervous system to protect it after focal ischemia in Wistar rats. The ischemic animals treated with linalool (25 mg/kg) showed a decrease in infarct volume at 24 h and seven days, and the treated animals had better neurological and motor skills at both poststroke times. Additionally, one month after daily intranasal administration of linalool, the ischemic rats showed improved relearning performance in the Morris water maze test. They also exhibited a reduction in microgliosis and decreased COX2, IL-1Beta and Nrf2 markers in the cerebral cortex and hippocampus. In astrocyte and microglial cultures, linalool reduced pro-inflammation and had a potent effect on microglial cells, generating Nrf2 subcellular redistribution under glutamate excitotoxicity conditions. Together, our findings indicate an acute and chronic recovery after ischemia induced by a daily intranasal puff of linalool, which mainly acts on microglial populations with anti-inflammatory actions.

Keywords: Anti-inflammation; Intranasal; Linalool; Microglia; Neurological recovery; Nrf2; Stroke.

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. 2018 Nov;1864(11):3696-3707.
doi: 10.1016/j.bbadis.2018.08.028. Epub 2018 Aug 24.

cPLA2 and desaturases underlie the tau hyperphosphorylation offset induced by BACE knock-down in neuronal primary cultures

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Free article

cPLA2 and desaturases underlie the tau hyperphosphorylation offset induced by BACE knock-down in neuronal primary cultures

Javier G Villamil-Ortiz et al. Biochim Biophys Acta Mol Basis Dis. 2018 Nov.
Free article

Abstract

Inflammation has been suggested to play early and perhaps causative roles in Alzheimer's disease (AD) pathogenesis possibly in part by the overactivation of the aspartic acid protease named β-site amyloid precursor protein (APP) cleaving enzyme 1 (BACE1), which is responsible for the β-amyloid cascade. We have described that BACE1 is involved in the lysophosphatidylethanolamine (LPE) (18:1/20:4/22:6) upregulation associated with tauopathy and inflammation signaling (cPLA2/arachidonic acid/COX2) in a triple transgenic model of Alzheimer's disease, where BACE1 silencing reversed the imbalanced profile and produced cognitive function improvement. In this study, we analyze the role of cPLA2 and desaturases (SCD1, FAD6) in the BACE1 knockdown-induced protective action under a glutamate excitotoxicity model. Glutamate (125 μM) produced hyperphosphorylation of tau in cortical primary cultures along with increased apoptotic nuclei, LDH release, and cPLA2 expression, which were all reversed by BACE1-KD. This beneficial effect was reinforced by the silencing of cPLA2 but attenuated by the reduction in SCD1 and partially attenuated by the reduction in FAD6. Inversely, overexpression SCD1 and FAD6 recovered the neuroprotective effect produced by BACE1-KD, which was not achieved by the overexpression of each desaturase alone. These findings suggest that the hyperphosphorylation of tau and the creation of a pro-inflammatory cell environment are blocked in a desaturase-dependent manner by targeting BACE1.

Keywords: BACE1; Desaturases; Excitotoxicity; Hyperphosphorylated tau; Inflammation; cPLA2.

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. 2018;61(1):209-219.
doi: 10.3233/JAD-170554.

Differential Pattern of Phospholipid Profile in the Temporal Cortex from E280A-Familiar and Sporadic Alzheimer's Disease Brains

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Differential Pattern of Phospholipid Profile in the Temporal Cortex from E280A-Familiar and Sporadic Alzheimer's Disease Brains

Javier Gustavo Villamil-Ortiz et al. J Alzheimers Dis. 2018.

Abstract

Lipids are considered important factors in the pathogenesis of Alzheimer's disease (AD). In this study, we realized a comparative analysis of the phospholipid profile and phospholipid composition of the temporal cortex from E280A-familiar AD (FAD), sporadic AD (SAD), and healthy human brains. Findings showed a significant decrease of lysophosphatidylcholine and phosphatidylethanolamine formed by low levels of polyunsaturated fatty acids (20 : 4, 22 : 6) in AD brains. However, phosphatidylethanolamine-ceramide and phosphoglycerol were significantly increased in SAD, conformed by high levels of (18 : 0/18 : 1) and (30/32/36 : 0/1/2), respectively. Together, the findings suggest a deficiency in lysophosphacholine and phosphatidylethanolamine, and alteration in the balance between poly- and unsaturated fatty acids in both types of AD, and a differential pattern of phospholipid profile and fatty acid composition between E280A FAD and SAD human brains.

Keywords: Alzheimer’s disease; fatty acids; phospholipids; polyunsaturated fatty acids; temporal cortex.

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Review
. 2017 Apr 3:10:88.
doi: 10.3389/fnmol.2017.00088. eCollection 2017.

The Role of Astrocytes in Neuroprotection after Brain Stroke: Potential in Cell Therapy

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Review

The Role of Astrocytes in Neuroprotection after Brain Stroke: Potential in Cell Therapy

Andrea Becerra-Calixto et al. Front Mol Neurosci. .

Abstract

Astrocytes are commonly involved in negative responses through their hyperreactivity and glial scar formation in excitotoxic and/or mechanical injuries. But, astrocytes are also specialized glial cells of the nervous system that perform multiple homeostatic functions for the survival and maintenance of the neurovascular unit. Astrocytes have neuroprotective, angiogenic, immunomodulatory, neurogenic, and antioxidant properties and modulate synaptic function. This makes them excellent candidates as a source of neuroprotection and neurorestoration in tissues affected by ischemia/reperfusion, when some of their deregulated genes can be controlled. Therefore, this review analyzes pro-survival responses of astrocytes that would allow their use in cell therapy strategies.

Keywords: astrocytes; cell therapy; cerebral ischemia; excitotoxicity; neuroprotection.

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. 2016 Nov 11:10:260.
doi: 10.3389/fncel.2016.00260. eCollection 2016.

BACE1 RNAi Restores the Composition of Phosphatidylethanolamine-Derivates Related to Memory Improvement in Aged 3xTg-AD Mice

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BACE1 RNAi Restores the Composition of Phosphatidylethanolamine-Derivates Related to Memory Improvement in Aged 3xTg-AD Mice

Javier G Villamil-Ortiz et al. Front Cell Neurosci. .

Abstract

β-amyloid (Aβ) is produced by the β-secretase 1 (BACE1)-mediated enzymatic cleavage of the amyloid precursor protein through the amyloidogenic pathway, making BACE1 a therapeutic target against Alzheimer's disease (AD). Alterations in lipid metabolism are a risk factor for AD by an unknown mechanism. The objective of this study was to determine the effect of RNA interference against BACE1 (shBACEmiR) on the phospholipid profile in hippocampal CA1 area in aged 3xTg-AD mice after 6 and 12 months of treatment compared to aged PS1KI mice. The shBACEmiR treatment induced cognitive function recovery and restored mainly the fatty acid composition of lysophosphatidylethanolamine and etherphosphatidylethanolamine, reduced the cPLA2's phosphorylation, down-regulated the levels of arachidonic acid and COX2 in the hippocampi of 3xTg-AD mice. Together, our findings suggest, for the first time, that BACE1 silencing restores phospholipids composition which could favor the recovery of cellular homeostasis and cognitive function in the hippocampus of triple transgenic AD mice.

Keywords: Alzheimer’s disease; BACE1; RNA interference; cognitive function; hippocampus; phospholipids.

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. 2017 Jan;74(1):153-172.
doi: 10.1007/s00018-016-2333-8. Epub 2016 Aug 9.

CDK5 downregulation enhances synaptic plasticity

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CDK5 downregulation enhances synaptic plasticity

Rafael Andrés Posada-Duque et al. Cell Mol Life Sci. 2017 Jan.

Abstract

CDK5 is a serine/threonine kinase that is involved in the normal function of the adult brain and plays a role in neurotransmission and synaptic plasticity. However, its over-regulation has been associated with Tau hyperphosphorylation and cognitive deficits. Our previous studies have demonstrated that CDK5 targeting using shRNA-miR provides neuroprotection and prevents cognitive deficits. Dendritic spine morphogenesis and forms of long-term synaptic plasticity-such as long-term potentiation (LTP)-have been proposed as essential processes of neuroplasticity. However, whether CDK5 participates in these processes remains controversial and depends on the experimental model. Using wild-type mice that received injections of CDK5 shRNA-miR in CA1 showed an increased LTP and recovered the PPF in deficient LTP of APPswe/PS1Δ9 transgenic mice. On mature hippocampal neurons CDK5, shRNA-miR for 12 days induced increased dendritic protrusion morphogenesis, which was dependent on Rac activity. In addition, silencing of CDK5 increased BDNF expression, temporarily increased phosphorylation of CaMKII, ERK, and CREB; and facilitated calcium signaling in neurites. Together, our data suggest that CDK5 downregulation induces synaptic plasticity in mature neurons involving Ca2+ signaling and BDNF/CREB activation.

Keywords: BDNF/CREB; CDK5 RNAi; Calcium; Dendritic protrusion morphogenesis; LTP; Synaptic plasticity.

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