Accelerated amyloid angiopathy and related vascular alterations in a mixed murine model of Alzheimer´s disease and type two diabetes

Vargas-Soria, Maria; Ramos-Rodríguez, Juan José; Marco, Angel Del; Hierro-Bujalance, Carmen; Carranza-Naval, Maria Jose; Calvo-Rodríguez, María; Veluw, Susanne J. van; Stitt, Alan W.; Simó, Rafael; Bacskai, Brian J.; Infante-Garcia, Carmen; García-Alloza, Mónica

doi:10.1186/s12987-022-00380-6

Cited by 6 publications

(7 citation statements)

References 79 publications

(142 reference statements)

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“…In fact, in our murine models of AD-T2D and AD-T1D, the levels of serum Aβ were reduced, indicating the inability to expel peptides from the CNS across the blood–brain barrier, while intracerebral soluble Aβ levels were increased [ 78 , 79 ]. In fact, the higher levels of soluble Aβ40 and 42 in the CNS observed in T1D and T2D are also in agreement with large synaptic loss and neuronal death observations [ 79 , 81 , 162 , 163 , 164 , 165 , 166 ]. It is feasible that the shift toward more toxic soluble species might contribute to the observed progressive synapse reduction in prediabetic and diabetic AD mice [ 50 , 167 ] and an in silico study [ 168 ].…”

Section: Link Between Diabetes Mellitus Alzheimer’s Disease and Vascu...supporting

confidence: 86%

“…It is feasible that the shift toward more toxic soluble species might contribute to the observed progressive synapse reduction in prediabetic and diabetic AD mice [ 50 , 167 ] and an in silico study [ 168 ]. In addition, prediabetes and T2D promote an increased accumulation of Aβ in the form of amyloid angiopathy (AAC) around blood vessels [ 81 ], which is associated with an increased risk of vascular rupture [ 169 ]. On the other hand, Aβ clearance might also be affected.…”

Section: Link Between Diabetes Mellitus Alzheimer’s Disease and Vascu...mentioning

confidence: 99%

“…Furthermore, the pathology of AD can cause vascular damage, such as when Aβ deposition induces inflammation and endothelial damage. The pathological process resulting from vascular damage is associated with alterations in functional markers, such as increased oxidative stress, elevated proinflammatory cytokines or increased activity of matrix metalloproteinases in vessel walls [ 80 , 81 ]. These processes have been linked to neuronal death [ 82 , 83 ] responsible for dementia.…”

Section: Introductionmentioning

confidence: 99%

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Physiological Mechanisms Inherent to Diabetes Involved in the Development of Dementia: Alzheimer’s Disease

Mohamed-Mohamed,

García-Morales,

Sánchez Lara

et al. 2023

Neurology International

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Type 2 diabetes mellitus (T2D) is a metabolic disease reaching pandemic levels worldwide. In parallel, Alzheimer’s disease (AD) and vascular dementia (VaD) are the two leading causes of dementia in an increasingly long-living Western society. Numerous epidemiological studies support the role of T2D as a risk factor for the development of dementia. However, few basic science studies have focused on the possible mechanisms involved in this relationship. On the other hand, this review of the literature also aims to explore the relationship between T2D, AD and VaD. The data found show that there are several alterations in the central nervous system that may be promoting the development of T2D. In addition, there are some mechanisms by which T2D may contribute to the development of neurodegenerative diseases such as AD or VaD.

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Section: Link Between Diabetes Mellitus Alzheimer’s Disease and Vascu...supporting

confidence: 86%

Section: Link Between Diabetes Mellitus Alzheimer’s Disease and Vascu...mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Physiological Mechanisms Inherent to Diabetes Involved in the Development of Dementia: Alzheimer’s Disease

Mohamed-Mohamed,

García-Morales,

Sánchez Lara

et al. 2023

Neurology International

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“…This deposition of Aβ in brain vessel walls is a common pathological finding in older people, it is the hallmark of CAA and has also been closely related with AD. In vivo multiphoton imaging in AD mice also showed that this vascular amyloid pathology occurs in an age‐dependent manner (Dong et al, 2010) and is further accelerated by the presence of diabetes (Vargas‐Soria et al, 2022). In fact, over 80–90% of AD patients present CAA (DeSimone et al, 2017a), which is indeed associated with the presence of the APOE‐ε4 allele, hypercholesterolemia and history of stroke (Brenowitz et al, 2015).…”

Section: Vascular Dysfunction In Admentioning

confidence: 99%

Oral anticoagulants: A plausible new treatment for Alzheimer's disease?

Toribio-Fernández

Ceron

Tristão‐Pereira

et al. 2023

British J Pharmacology

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Alzheimer's disease (AD) and cardiovascular disease (CVD) are strongly associated. Both are multifactorial disorders with long asymptomatic phases and similar risk factors. Indeed, CVD signatures such as cerebral microbleeds, micro‐infarcts, atherosclerosis, cerebral amyloid angiopathy and a procoagulant state are highly associated with AD. However, AD and CVD co‐development and the molecular mechanisms underlying such associations are not understood. Here, we review the evidence regarding the vascular component of AD and clinical studies using anticoagulants that specifically evaluated the development of AD and other dementias. Most studies reported a markedly decreased incidence of composite dementia in anticoagulated patients with atrial fibrillation, with the highest benefit for direct oral anticoagulants. However, sub‐analyses by differential dementia diagnosis were scarce and inconclusive. We finally discuss whether anticoagulation could be a plausible preventive/therapeutic approach for AD and, if so, which would be the best drug and strategy to maximize clinical benefit and minimize potential risks.

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“…Cerebrovascular health is essential for vascular clearance of Aβ and alterations in neurovascular function have been implicated in CAA [2]. Suppression of the ability of neural activity to increase cerebral blood ow (CBF) (functional hyperemia), a fundamental homeostatic response of the cerebral microcirculation [15], occurs early in patients with CAA [16][17][18], whereas Aβ-induced suppression of functional hyperemia and dysfunction of the endothelial regulation of CBF have been linked to CAA in mouse models [13,[19][20][21]. Aβ-induced vascular oxidative stress and the attendant neurovascular dysregulation and damage have emerged as key factors in CAA both in mouse models [19,20] and in humans [22].…”

mentioning

confidence: 99%

Border-associated macrophages promote cerebral amyloid angiopathy and cognitive impairment through vascular oxidative stress

Uekawa

Hattori

Ahn

et al. 2023

Preprint

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Background: Cerebral amyloid angiopathy (CAA) is a devastating condition common in patients with Alzheimer’s disease but also observed in the general population. Vascular oxidative stress and neurovascular dysfunction have been implicated in CAA but the cellular source of reactive oxygen species (ROS) and related signaling mechanisms remain unclear. We tested the hypothesis that brain border-associated macrophages (BAM), yolk sac-derived myeloid cells closely apposed to parenchymal and leptomeningeal blood vessels, are the source of radicals through the Aβ-binding innate immunity receptor CD36, leading to neurovascular dysfunction, CAA, and cognitive impairment. Methods: Tg2576 mice and WT littermates were transplanted with CD36-/- or CD36+/+ bone marrow at 12-month of age and tested at 15 months. This approach enables the repopulation of perivascular and leptomeningeal compartments with CD36-/- BAM. Neurovascular function was tested in anesthetized mice equipped with a cranial window in which cerebral blood flow was monitored by laser-Doppler flowmetry. Amyloid pathology and cognitive function were also examined. Results: The increase in blood flow evoked by whisker stimulation (functional hyperemia) or by endothelial and smooth muscle vasoactivity was markedly attenuated in WT®Tg2576 chimeras but was fully restored in CD36-/-®Tg2576 chimeras, in which BAM ROS production was suppressed. CAA-associated Aβ1-40, but not Aβ1-42, was reduced in CD36-/-®Tg2576 chimeras. Similarly, CAA, but not parenchymal plaques, was reduced in CD36-/-®Tg2576 chimeras. These beneficial vascular effects were associated with cognitive improvement. Finally, CD36-/- mice were able to more efficiently clear exogenous Aβ1-40 injected into the neocortex or the striatum. Conclusions: CD36 deletion in BAM suppresses ROS production and rescues the neurovascular dysfunction and damage induced by Aβ. CD36 deletion in BAM also reduced brain Aβ1-40 and ameliorated CAA without affecting parenchyma plaques. Lack of CD36 enhanced the vascular clearance of exogenous Aβ. Restoration of neurovascular function and attenuation of CAA resulted in a near complete rescue of cognitive function. Collectively, these data implicate CNS BAM in the pathogenesis of CAA and raise the possibility that targeting BAM CD36 is beneficial in CAA and other conditions associated with vascular Aβ deposition and damage.

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Accelerated amyloid angiopathy and related vascular alterations in a mixed murine model of Alzheimer´s disease and type two diabetes

Cited by 6 publications

References 79 publications

Physiological Mechanisms Inherent to Diabetes Involved in the Development of Dementia: Alzheimer’s Disease

Physiological Mechanisms Inherent to Diabetes Involved in the Development of Dementia: Alzheimer’s Disease

Oral anticoagulants: A plausible new treatment for Alzheimer's disease?

Border-associated macrophages promote cerebral amyloid angiopathy and cognitive impairment through vascular oxidative stress

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