Lipocalin 2 modulates the cellular response to amyloid beta

Mesquita, Sandro Dá; Ferreira, Ana Catarina; Falcão, Ana Mendanha; Sousa, João Carlos; Oliveira, Tiago Gil; Correia-Neves, Margarida; Sousa, Nuno; Marques, Fernanda; Palha, Joana Almeida

doi:10.1038/cdd.2014.68

Cited by 65 publications

(91 citation statements)

References 55 publications

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“…Robust increased NGAL protein levels were found in AD post-mortem human brain tissue [184], a mouse model for MS [186], and mouse model for cerebral ischemia [187]. Increased NGAL protein levels are detrimental to neuronal health [188] and sensitize neurons and other brain cell types to cell death upon exposure to Aβ and oxidative stress [184,189,190]. In addition, NGAL was shown to further promote pro-inflammatory reactions, and to stimulate classical inflammatory activation of microglia and astrocytes [191,192].…”

Section: Tnfr1-possible Downstream Targets In Neurodegenerationmentioning

confidence: 99%

Targeting of Tumor Necrosis Factor Alpha Receptors as a Therapeutic Strategy for Neurodegenerative Disorders

et al. 2015

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Numerous studies have revealed the pleiotropic functions of tumor necrosis factor alpha (TNF-α), and have linked it with several neurodegenerative disorders. This review describes the signaling pathways induced by TNF-α via its two receptors (TNFR1 and TNFR2), and their functions in neurodegenerative processes as in Alzheimer's disease (AD), Parkinson's disease (PD), multiple sclerosis (MS), and ischemic stroke. It has become clear that TNF-α may exert divergent actions in neurodegenerative disorders, including neurodegenerative and neuroprotective effects, which appear to depend on its signaling via either TNFR1 or TNFR2. Specific targeting of these receptors is a promising therapeutic strategy for many disorders.

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Section: Tnfr1-possible Downstream Targets In Neurodegenerationmentioning

confidence: 99%

Targeting of Tumor Necrosis Factor Alpha Receptors as a Therapeutic Strategy for Neurodegenerative Disorders

et al. 2015

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“…Altogether, these might aggravate the pro-inflammatory profile and overall CNS pathology in AD (Medeiros and LaFerla, 2013;Sofroniew and Vinters, 2010). Of note, as referred before, LCN2 was shown to be overproduced also by astrocytes, in vitro, in response to Aβ peptides (Mesquita et al, 2014) and to be increased in the brain of AD patients (Naude et al, 2012). Moreover, it was recently shown that increased levels of LCN2…”

Section: Microgliamentioning

confidence: 93%

“…of AD. Of note, it was shown that AD patients present altered levels of LCN2 in the CSF (Naude et al, 2012), and that LCN2 is involved in the in vitro pro-inflammatory response to increased level of Aβ peptides, displaying a detrimental effect on brain cell survival (Mesquita et al, 2014). Considering this new evidence, it will be important to further elucidate the role of LCN2 in the context of an in vivo model of AD.…”

Section: The Inflammatory Response At the Bbbmentioning

confidence: 96%

“…Particularly in AD, the BCSFB suffers alterations not only due to increased levels of toxic Aβ(Chalbot et al, 2011;Vargas et al, 2010), but also promoted by different blood-born inflammatory molecules and immune cells(Baruch et al, 2015;Schwartz and Baruch, 2014b).Altogether, this altered inflammatory profile at the BCSFB impacts on the CSF-ISF nexus and, consequently, on brain homeostasis and on neurodegeneration(Baruch and Schwartz, 2013;Chalbot et al, 2011;Iliff et al, 2012). Moreover, aging-associated alterations in the secretion of inflammatory molecules by the cells that compose the CP tissue, either by the epithelial or the stromal cells, is viewed as a critical turning point for deficits in brain cell function and plasticity, and were shown to affect processes like glial activation, neurogenesis and cell survival(Baruch et al, 2014;Baruch et al, 2013;Kunis et al, 2013;Villeda et al, 2011).Regarding the inflammatory response in the context of AD-associated pathology, we recently found that the CP epithelial cells overexpress the gene encoding for lipocalin 2 (LCN2) upon stimulation with Aβ peptides(Mesquita et al, 2014). Of interest, LCN2 is involved in the innate immune response(Devireddy et al, 2005; Flo et al, 2004) and its up-regulation is indicative of a rapid pro-inflammatory profile build-up at the CP(Marques et al, 2008;Marques et al, 2009).…”

mentioning

confidence: 97%

“…Recent studies have highlighted the alterations observed at the level of the choroid plexus (CP), which forms the BCSFB, and their impact on brain function in aging and inAD (Baruch et al, 2014;Baruch et al, 2013; Baruch et al, 2015;Mesquita et al, 2014;Mesquita et al, 2015). The CP is formed by a monolayer of epithelial cells bound together by tight junctions, which are formed by claudins and occludins present in the lateral side of the apical membrane(Ek et al, 2003;Wolburg et al, 2001).…”

mentioning

confidence: 99%

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Insights on the pathophysiology of Alzheimer's disease: The crosstalk between amyloid pathology, neuroinflammation and the peripheral immune system

Mesquita

Ferreira

Sousa

et al. 2016

Neuroscience & Biobehavioral Reviews

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129

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Alzheimer's disease (AD) is the most common form of dementia, whose prevalence is growing along with the increased life expectancy. Although the accumulation and deposition of amyloid beta (Aβ) peptides in the brain is viewed as one of the pathological hallmarks of AD and underlies, at least in part, brain cell dysfunction and behavior alterations, the etiology of this neurodegenerative disease is still poorly understood. Noticeably, increased amyloid load is accompanied by marked inflammatory alterations, both at the level of the brain parenchyma and at the barriers of the brain. However, it is debatable whether the neuroinflammation observed in aging and in AD, together with alterations in the peripheral immune system, are responsible for increased amyloidogenesis, decreased clearance of Aβ out of the brain and/or the marked deficits in memory and cognition manifested by AD patients. Herein, we scrutinize some important traits of the pathophysiology of aging and AD, focusing on the interplay between the amyloidogenic pathway, neuroinflammation and the peripheral immune system.

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Iron Pathophysiology in Alzheimer’s Diseases

Wang

Fan

et al. 2019

Advances in Experimental Medicine and Biology

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Lipocalin 2 modulates the cellular response to amyloid beta

Cited by 65 publications

References 55 publications

Targeting of Tumor Necrosis Factor Alpha Receptors as a Therapeutic Strategy for Neurodegenerative Disorders

Targeting of Tumor Necrosis Factor Alpha Receptors as a Therapeutic Strategy for Neurodegenerative Disorders

Insights on the pathophysiology of Alzheimer's disease: The crosstalk between amyloid pathology, neuroinflammation and the peripheral immune system

Iron Pathophysiology in Alzheimer’s Diseases

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