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β-Lapachone attenuates cognitive impairment and neuroinflammation in beta-amyloid induced mouse model of Alzheimer's disease.

Β-Lapachone 减轻 β-淀粉样蛋白诱导的阿尔茨海默病小鼠模型的认知障碍和神经炎症。

  • 影响因子:3.32
  • DOI:10.1016/j.intimp.2020.106300
  • 作者列表:"Mokarizadeh N","Karimi P","Erfani M","Sadigh-Eteghad S","Fathi Maroufi N","Rashtchizadeh N
  • 发表时间:2020-02-15
Abstract

:Oxidative stress and neuroinflammation are critically involved in amyloid beta (Aβ) induced cognitive impairments. β-Lapachone (β-LAP) is a natural activator of NAD(P)H quinone oxidoreductase 1 (NQO1) which has antioxidant and anti-inflammatory properties.This study investigated the effect of β-LAP administration on Aβ-induced memory deficit, oxidative stress, neuroinflammation, and apoptosis cell death in the hippocampus. Forty BALB/c mice were allocated into control, sham, β-LAP (βL), Aβ, and Aβ + βL groups. Intracerebroventricular injection of Aβ1-42 was used to induce Alzheimer's disease (AD) model. Mice in the βL and Aβ + βL groups were treated with β-LAP (10 mg/kg, i.p) for 4 days. Results revealed that β-LAP attenuated memory impairment in the Aβ-received mice, as measured in the novel object recognition (NOR) and Barnes maze tests. Moreover, Aβ resulted in inflammasome activation evident by enhanced caspase-1 immunoreactivity and interleukin-1 beta (IL-1β) protein levels. However, β-LAP could markedly reduce reactive oxygen species (ROS) production and down-regulate mRNA expression of NLRP3 inflammasome and protein levels of cleaved caspase 1 and IL-1β. Additionally, β-LAP-treated mice showed increased SIRT1 levels and NAD+/NADH ratio in the hippocampus. These results were followed by fewer number of TUNEL-positive cell, reduced hippocampal atrophy and neuronal loss in the hippocampal dentate gyrus (DG). These results indicated that the protective effect of β-LAP against AD-associated cognitive deficits is partially through its strong antioxidant and anti-inflammatory actions.

摘要

: 氧化应激和神经炎症与 β 淀粉样蛋白 (a β) 诱导的认知障碍密切相关。Β-Lapachone (β-LAP) 是 NAD (P) H 醌氧化还原酶 1 (NQO1) 的天然激活剂,具有抗氧化和抗炎特性。本研究探讨了 β-LAP 给药对 a β 诱导的海马记忆缺陷、氧化应激、神经炎症和凋亡细胞死亡的影响。将 40 只 BALB/c 小鼠分为对照组、假手术组、 β-LAP (β l) 组、 a β 组和 a β + β l 组。采用侧脑室注射 a β 1-42 诱导阿尔茨海默病 (AD) 模型。Β l 和 a β + β l 组小鼠用 β-LAP (10 mg/kg,i.p) 治疗 4 天。结果显示,β-LAP 减弱了 a β 接受小鼠的记忆障碍,如在新型物体识别 (NOR) 和 Barnes 迷宫测试中测量的。此外,a β 导致炎症小体激活,明显增强 caspase-1 免疫反应性和 interleukin-1 β (il-1 β) 蛋白水平。然而,β-LAP 可显著减少活性氧 (ROS) 的产生,下调 NLRP3 炎性体的 mRNA 表达和 cleaved caspase 1 和 il-1 β 的蛋白水平。此外,β-LAP 处理的小鼠表现出海马 SIRT1 水平和 NAD +/NADH 比值增加。这些结果随后是 TUNEL 阳性细胞数量减少,海马萎缩减少和海马齿状回 (DG) 神经元丢失。这些结果表明,β-LAP 对 AD 相关认知缺陷的保护作用部分是通过其强大的抗氧化和抗炎作用实现的。

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发表时间:2020-01-03
DOI:10.1016/j.nbd.2019.104725
作者列表:["Aimé P","Karuppagounder SS","Rao A","Chen Y","Burke RE","Ratan RR","Greene LA"]

METHODS::Identifying disease-causing pathways and drugs that target them in Parkinson's disease (PD) has remained challenging. We uncovered a PD-relevant pathway in which the stress-regulated heterodimeric transcription complex CHOP/ATF4 induces the neuron prodeath protein Trib3 that in turn depletes the neuronal survival protein Parkin. Here we sought to determine whether the drug adaptaquin, which inhibits ATF4-dependent transcription, could suppress Trib3 induction and neuronal death in cellular and animal models of PD. Neuronal PC12 cells and ventral midbrain dopaminergic neurons were assessed in vitro for survival, transcription factor levels and Trib3 or Parkin expression after exposure to 6-hydroxydopamine or 1-methyl-4-phenylpyridinium with or without adaptaquin co-treatment. 6-hydroxydopamine injection into the medial forebrain bundle was used to examine the effects of systemic adaptaquin on signaling, substantia nigra dopaminergic neuron survival and striatal projections as well as motor behavior. In both culture and animal models, adaptaquin suppressed elevation of ATF4 and/or CHOP and induction of Trib3 in response to 1-methyl-4-phenylpyridinium and/or 6-hydroxydopamine. In culture, adaptaquin preserved Parkin levels, provided neuroprotection and preserved morphology. In the mouse model, adaptaquin treatment enhanced survival of dopaminergic neurons and substantially protected their striatal projections. It also significantly enhanced retention of nigrostriatal function. These findings define a novel pharmacological approach involving the drug adaptaquin, a selective modulator of hypoxic adaptation, for suppressing Parkin loss and neurodegeneration in toxin models of PD. As adaptaquin possesses an oxyquinoline backbone with known safety in humans, these findings provide a firm rationale for advancing it towards clinical evaluation in PD.

翻译标题与摘要 下载文献
影响因子:3.92
发表时间:2020-01-01
DOI:10.1111/bpa.12761
作者列表:["Sebastián-Serrano Á","Simón-García A","Belmonte-Alfaro A","Pose-Utrilla J","Santos-Galindo M","Del Puerto A","García-Guerra L","Hernández IH","Schiavo G","Campanero MR","Lucas JJ","Iglesias T"]

METHODS::Huntington's disease (HD) is an inherited progressive neurodegenerative disease characterized by brain atrophy particularly in the striatum that produces motor impairment, and cognitive and psychiatric disturbances. Multiple pathogenic mechanisms have been proposed including dysfunctions in neurotrophic support and calpain-overactivation, among others. Kinase D-interacting substrate of 220 kDa (Kidins220), also known as ankyrin repeat-rich membrane spanning (ARMS), is an essential mediator of neurotrophin signaling. In adult brain, Kidins220 presents two main isoforms that differ in their carboxy-terminal length and critical protein-protein interaction domains. These variants are generated through alternative terminal exon splicing of the conventional exon 32 (Kidins220-C32) and the recently identified exon 33 (Kidins220-C33). The lack of domains encoded by exon 32 involved in key neuronal functions, including those controlling neurotrophin pathways, pointed to Kidins220-C33 as a form detrimental for neurons. However, the functional role of Kidins220-C33 in neurodegeneration or other pathologies, including HD, has not been explored. In the present work, we discover an unexpected selective downregulation of Kidins220-C33, in the striatum of HD patients, as well as in the R6/1 HD mouse model starting at early symptomatic stages. These changes are C33-specific as Kidins220-C32 variant remains unchanged. We also find the early decrease in Kidins220-C33 levels takes place in neurons, suggesting an unanticipated neuroprotective role for this isoform. Finally, using ex vivo assays and primary neurons, we demonstrate that Kidins220-C33 is downregulated by mechanisms that depend on the activation of the protease calpain. Altogether, these results strongly suggest that calpain-mediated Kidins220-C33 proteolysis modulates onset and/or progression of HD.

翻译标题与摘要 下载文献
影响因子:3.66
发表时间:2020-01-24
DOI:10.3233/JAD-191069
作者列表:["Mendes FR","Leclerc JL","Liu L","Kamat PK","Naziripour A","Hernandez D","Li C","Ahmad AS","Doré S"]

METHODS:BACKGROUND:Neuroinflammation has been recognized as an important factor in the pathogenesis of Alzheimer's disease (AD). One of the most recognized pathways in mediating neuroinflammation is the prostaglandin E2-EP1 receptor pathway. OBJECTIVE:Here, we examined the efficacy of the selective EP1 antagonist ONO-8713 in limiting amyloid-β (Aβ), lesion volumes, and behavioral indexes in AD mouse models after ischemic stroke. METHODS:Transgenic APP/PS1, 3xTgAD, and wildtype (WT) mice were subjected to permanent distal middle cerebral artery occlusion (pdMCAO) and sham surgeries. Functional outcomes, memory, anatomical outcomes, and Aβ concentrations were assessed 14 days after surgery. RESULTS:pdMCAO resulted in significant deterioration in functional and anatomical outcomes in the transgenic mice compared with the WT mice. No relevant differences were observed in the behavioral tests when comparing the ONO-8713 and vehicle-treated groups. Significantly lower cavitation (p = 0.0373) and percent tissue loss (p = 0.0247) were observed in APP/PS1 + ONO-8713 mice compared with the WT + ONO-8713 mice. However, the percent tissue injury was significantly higher in APP/PS1 + ONO-8713 mice compared with WT + ONO-8713 group (p = 0.0373). Percent tissue loss was also significantly lower in the 3xTgAD + ONO-8713 mice than in the WT + ONO-8713 mice (p = 0.0185). ONO-8713 treatment also attenuated cortical microgliosis in APP/PS1 mice as compared with the vehicle (p = 0.0079); however, no differences were observed in astrogliosis across the groups. Finally, APP/PS1 mice presented characteristic Aβ load in the cortex while 3xTgAD mice exhibited very low Aβ levels. CONCLUSION:In conclusion, under the experimental conditions, EP1 receptor antagonist ONO-8713 showed modest benefits on anatomical outcomes after stroke, mainly in APP/PS1 mice.

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