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1. What Threshold of Amyloid Reduction Is Necessary to Meaningfully Improve Cognitive Function in Transgenic Alzheimer’s Disease Mice?

   https://doi.org/10.3233/ADR-230174  

   Singh, Anita; Maker, Matthew; Prakash, Jayant; Tandon, Raghav; Mitchell, Cassie S. (February 2024, Journal of Alzheimer's Disease Reports)

   Background: Amyloid-β plaques (Aβ) are associated with Alzheimer’s disease (AD). Pooled assessment of amyloid reduction in transgenic AD mice is critical for expediting anti-amyloid AD therapeutic research. Objective: The mean threshold of Aβ reduction necessary to achieve cognitive improvement was measured via pooled assessment (n = 594 mice) of Morris water maze (MWM) escape latency of transgenic AD mice treated with substances intended to reduce Aβ via reduction of beta-secretase cleaving enzyme (BACE). Methods: Machine learning and statistical methods identified necessary amyloid reduction levels using mouse data (e.g., APP/PS1, LPS, Tg2576, 3xTg-AD, control, wild type, treated, untreated) curated from 22 published studies. Results: K-means clustering identified 4 clusters that primarily corresponded with level of Aβ: untreated transgenic AD control mice, wild type mice, and two clusters of transgenic AD mice treated with BACE inhibitors that had either an average 25% “medium reduction” of Aβ or 50% “high reduction” of Aβ compared to untreated control. A 25% Aβ reduction achieved a 28% cognitive improvement, and a 50% Aβ reduction resulted in a significant 32% improvement compared to untreated transgenic mice (p < 0.05). Comparatively, wild type mice had a mean 41% MWM latency improvement over untreated transgenic mice (p < 0.05). BACE reduction had a lesser impact on the ratio of Aβ42 to Aβ40. Supervised learning with an 80% –20% train-test split confirmed Aβ reduction was a key feature for predicting MWM escape latency (R2 = 0.8 to 0.95). Conclusions: Results suggest a 25% reduction in Aβ as a meaningful treatment threshold for improving transgenic AD mouse cognition. 

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2. Aggregate Trends of Apolipoprotein E on Cognition in Transgenic Alzheimer’s Disease Mice

   https://doi.org/10.3233/JAD-210492  

   Watson, Yassin; Nelson, Brenae; Kluesner, Jamie Hernandez; Tanzy, Caroline; Ramesh, Shreya; Patel, Zoey; Kluesner, Kaci Hernandez; Singh, Anita; Murthy, Vibha; Mitchell, Cassie S. (August 2021, Journal of Alzheimer's Disease)

   Background: Apolipoprotein E (APOE) genotypes typically increase risk of amyloid-β deposition and onset of clinical Alzheimer’s disease (AD). However, cognitive assessments in APOE transgenic AD mice have resulted in discord. Objective: Analysis of 31 peer-reviewed AD APOE mouse publications (n = 3,045 mice) uncovered aggregate trends between age, APOE genotype, gender, modulatory treatments, and cognition. Methods: T-tests with Bonferroni correction (significance = p < 0.002) compared age-normalized Morris water maze (MWM) escape latencies in wild type (WT), APOE2 knock-in (KI2), APOE3 knock-in (KI3), APOE4 knock-in (KI4), and APOE knock-out (KO) mice. Positive treatments (t+) to favorably modulate APOE to improve cognition, negative treatments (t–) to perturb etiology and diminish cognition, and untreated (t0) mice were compared. Machine learning with random forest modeling predicted MWM escape latency performance based on 12 features: mouse genotype (WT, KI2, KI3, KI4, KO), modulatory treatment (t+, t–, t0), mouse age, and mouse gender (male = g_m; female = g_f, mixed gender = g_mi). Results: KI3 mice performed significantly better in MWM, but KI4 and KO performed significantly worse than WT. KI2 performed similarly to WT. KI4 performed significantly worse compared to every other genotype. Positive treatments significantly improved cognition in WT, KI4, and KO compared to untreated. Interestingly, negative treatments in KI4 also significantly improved mean MWM escape latency. Random forest modeling resulted in the following feature importance for predicting superior MWM performance: [KI3, age, g_m, KI4, t0, t+, KO, WT, g_mi, t–, g_f, KI2] = [0.270, 0.094, 0.092, 0.088, 0.077, 0.074, 0.069, 0.061, 0.058, 0.054, 0.038, 0.023]. Conclusion: APOE3, age, and male gender was most important for predicting superior mouse cognitive performance. 

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3. Extracellular Tau Oligomers Damage the Axon Initial Segment by an Endogenous Tau‐Dependent Mechanism

   https://doi.org/10.1002/alz.078491  

   Best, Merci N; Lim, Yunu; Ferenc, Nina; Kim, Nayoung; Wang, Dora Bigler; Sharifi, Kamyar; Wasserman, Anna; McTavish, Sloane; Siller, Karsten; Jones, Marieke K; et al (December 2023, Alzheimer's & Dementia)

   Abstract BackgroundNeuronal polarity and synaptic connectivity are compromised in Alzheimer’s disease (AD) and other tauopathies. The axon initial segment (AIS) is a key structure for regulating polarity and functions of neurons. It occupies the first 20‐60 µm of the axon, comprises a diffusion barrier that segregates axon‐enriched from somatodendritic‐enriched molecules, and has a high concentration of voltage‐gated ion channels that generate action potentials. Extracellular amyloid‐β oligomers compromise AIS integrity. However, effects on the AIS of toxic tau species, including extracellular oligomers (xcTauOs) that spread tau pathology from neuron to neuron by a prion‐like process, whereas unknown. Therefore, we wanted to test the hypothesis that AIS structure is sensitive to xcTauOs. MethodPrimary cortical neurons derived from either wild type (WT), or tau knockout (KO) mice were exposed to xcTauOs or vehicle. Quantitative western blotting and immunofluorescence microscopy with an antibody against the AIS‐enriched protein TRIM46 was used to monitor effects on the AIS. The same methods were also used to compare TRIM46 and two other AIS proteins, ankyrin‐G and neurofascin‐186 in human hippocampal tissue obtained from AD and age‐matched non‐AD donors. ResultIn cultured WT, but not TKO neurons, xcTauOs cause a trend toward AIS shortening and reduce the concentration of the resident AIS protein, TRIM46, without affecting total TRIM46 levels. Lentiviral‐driven human tau expression in tau KO neurons rescues TRIM46 sensitivity to xcTauOs. In human AD hippocampus, AIS length and TRIM46 concentration within the AIS are reduced in neurons containing neurofibrillary tangles (NFTs), without affecting the overall protein levels of multiple resident AIS proteins. ConclusionThese collective findings demonstrate that in cultured neurons, xcTauOs cause partial AIS damage by a mechanism dependent on intracellular tau, thereby raising the possibility that AIS reduction in AD is caused by xcTauOs working in concert with endogenous neuronal tau. 

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4. Overexpression of enhanced yellow fluorescent protein fused with Channelrhodopsin‐2 causes contractile dysfunction in skeletal muscle

   https://doi.org/10.1096/fj.202401664RR  

   Lamia, Syeda_N; Davis, Carol_S; Macpherson, Peter_C_D; Willingham, T_Brad; Zhang, Yingfan; Liu, Chengyu; Iannucci, Leanne; Ganji, Elahe; Harden, Desmond; Bhattacharya, Iman; et al (November 2024, The FASEB Journal)

   Abstract Skeletal muscle activation using optogenetics has emerged as a promising technique for inducing noninvasive muscle contraction and assessing muscle function both in vivo and in vitro. Transgenic mice overexpressing the optogenetic fusion protein, Channelrhodopsin 2‐EYFP (ChR2‐EYFP) in skeletal muscle are widely used; however, overexpression of fluorescent proteins can negatively impact the functionality of activable tissues. In this study, we characterized the contractile properties of ChR2‐EYFP skeletal muscle and introduced the ChR2‐only mouse model that expresses light‐responsive ChR2 without the fluorescent EYFP in their skeletal muscles. We found a significant reduction in the contractile ability of ChR2‐EYFP muscles compared with ChR2‐only and WT mice, observed under both electrical and optogenetic stimulation paradigms. Bulk RNAseq identified the downregulation of genes associated with transmembrane transport and metabolism in ChR2‐EYFP muscle, while the ChR2‐only muscle did not demonstrate any notable deviations from WT muscle. The RNAseq results were further corroborated by a reduced protein‐level expression of ion channel‐related HCN2 in ChR2‐EYFP muscles and gluconeogenesis‐modulating FBP2 in both ChR2‐EYFP and ChR2‐only muscles. Overall, this study reveals an intrinsic skeletal dysfunction in the widely used ChR2‐EYFP mice model and underscores the importance of considering alternative optogenetic models, such as the ChR2‐only, for future research in skeletal muscle optogenetics. 

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5. Role of Surfactant Protein D in Experimental Otitis Media

   https://doi.org/10.1159/000513605  

   Abdel-Razek, Osama; Liu, Tianyi; Chen, Xinghua; Wang, Qiushi; Vanga, Gautam; Wang, Guirong (September 2021, Journal of Innate Immunity)

   Surfactant protein D (SP-D) is a C-type collectin and plays an important role in innate immunity and homeostasis in the lung. This study studied SP-D role in the nontypeable Haemophilus influenzae (NTHi)-induced otitis media (OM) mouse model. Wild-type C57BL/6 (WT) and SP-D knockout (KO) mice were used in this study. Mice were injected in the middle ear (ME) with 5 μL of NTHi bacterial solution (3.5 × 10⁵ CFU/ear) or with the same volume of sterile saline (control). Mice were sacrificed at 3 time points, days 1, 3, and 7, after treatment. We found SP-D expression in the Eustachian tube (ET) and ME mucosa of WT mice but not in SP-D KO mice. After infection, SP-D KO mice showed more intense inflammatory changes evidenced by the increased mucosal thickness and inflammatory cell infiltration in the ME and ET compared to WT mice (p < 0.05). Increased bacterial colony-forming units and cytokine (IL-6 and IL-1β) levels in the ear washing fluid of infected SP-D KO mice were compared to infected WT mice. Molecular analysis revealed higher levels of NF-κB and NLRP3 activation in infected SP-D KO compared to WT mice (p < 0.05). In vitro studies demonstrated that SP-D significantly induced NTHi bacterial aggregation and enhanced bacterial phagocytosis by macrophages (p < 0.05). Furthermore, human ME epithelial cells showed a dose-dependent increased expression of NLRP3 and SP-D proteins after LPS treatment. We conclude that SP-D plays a critical role in innate immunity and disease resolution through enhancing host defense and regulating inflammatory NF-κB and NLRP3 activation in experimental OM mice. 

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