Your search keyword '"tauopathies"' showing total 1,785 results

1. Targeted downregulation of insulin signaling restricts human tau pathogenesis by reinstating the aberrant heterochromatin loss and mTOR/4EBP/S6K pathway in Drosophila

Author

Pragati and Sarkar, Surajit

Published

2025

2. Proteopathic seed amplification assays in easily accessible specimens for human synucleinopathies, tauopathies, and prionopathies: A scoping review

Author

Salciccia, Clara, Costanzo, Matteo, Ruocco, Giulia, Porreca, Flavia, Vivacqua, Giorgio, Fabbrini, Giovanni, Belvisi, Daniele, Ladogana, Anna, and Poleggi, Anna

Published

2025

3. Pragmatic algorithm for visual assessment of 4-Repeat tauopathies in [18F]PI-2620 PET Scans

Author

Bauer, Theresa, Brendel, Matthias, Zaganjori, Mirlind, Bernhardt, Alexander M., Jäck, Alexander, Stöcklein, Sophia, Scheifele, Maximilian, Levin, Johannes, van Eimeren, Thilo, Drzezga, Alexander, Sabri, Osama, Barthel, Henryk, Perneczky, Robert, Höglinger, Günter, Franzmeier, Nicolai, and Gnörich, Johannes

Published

2025

4. Searching for the cellular underpinnings of the selective vulnerability to tauopathic insults in Alzheimer’s disease

Author

Torok, Justin, Maia, Pedro D, Anand, Chaitali, and Raj, Ashish

Subjects

Biochemistry and Cell Biology, Biological Sciences, Aging, Genetics, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Alzheimer's Disease, Brain Disorders, Acquired Cognitive Impairment, Neurodegenerative, Dementia, Neurosciences, 2.1 Biological and endogenous factors, Neurological, Animals, Alzheimer Disease, Mice, tau Proteins, Tauopathies, Mice, Transgenic, Disease Models, Animal, Neurons, Hippocampus, Male, Humans, Biological sciences, Biomedical and clinical sciences

Abstract

Neurodegenerative diseases such as Alzheimer's disease exhibit pathological changes in the brain that proceed in a stereotyped and regionally specific fashion. However, the cellular underpinnings of regional vulnerability are poorly understood, in part because whole-brain maps of a comprehensive collection of cell types have been inaccessible. Here, we deployed a recent cell-type mapping pipeline, Matrix Inversion and Subset Selection (MISS), to determine the brain-wide distributions of pan-hippocampal and neocortical cells in the mouse, and then used these maps to identify general principles of cell-type-based selective vulnerability in PS19 mouse models. We found that hippocampal glutamatergic neurons as a whole were significantly positively associated with regional tau deposition, suggesting vulnerability, while cortical glutamatergic and GABAergic neurons were negatively associated. We also identified oligodendrocytes as the single-most strongly negatively associated cell type. Further, cell-type distributions were more predictive of end-time-point tau pathology than AD-risk-gene expression. Using gene ontology analysis, we found that the genes that are directly correlated to tau pathology are functionally distinct from those that constitutively embody the vulnerable cells. In short, we have elucidated cell-type correlates of tau deposition across mouse models of tauopathy, advancing our understanding of selective cellular vulnerability at a whole-brain level.

Published

2025

5. APOE Christchurch enhances a disease-associated microglial response to plaque but suppresses response to tau pathology

Author

Tran, Kristine M, Kwang, Nellie E, Butler, Claire A, Gomez-Arboledas, Angela, Kawauchi, Shimako, Mar, Cassandra, Chao, Donna, Barahona, Rocio A, Da Cunha, Celia, Tsourmas, Kate I, Shi, Zechuan, Wang, Shuling, Collins, Sherilyn, Walker, Amber, Shi, Kai-Xuan, Alcantara, Joshua A, Neumann, Jonathan, Duong, Duc M, Seyfried, Nicholas T, Tenner, Andrea J, LaFerla, Frank M, Hohsfield, Lindsay A, Swarup, Vivek, MacGregor, Grant R, and Green, Kim N

Subjects

Biochemistry and Cell Biology, Biological Sciences, Aging, Alzheimer's Disease, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Acquired Cognitive Impairment, Genetics, Neurodegenerative, Neurosciences, Dementia, Brain Disorders, 2.1 Biological and endogenous factors, Neurological, Animals, Microglia, Mice, Alzheimer Disease, Plaque, Amyloid, tau Proteins, Mice, Transgenic, Tauopathies, Disease Models, Animal, Apolipoproteins E, Humans, Brain, APOE Christchurch, PS19, 5xFAD, DAM, Amyloid, Tau, Resilience, Clinical Sciences, Neurology & Neurosurgery, Biochemistry and cell biology

Abstract

BackgroundApolipoprotein E ε4 (APOE4) is the strongest genetic risk factor for late-onset Alzheimer's disease (LOAD). A recent case report identified a rare variant in APOE, APOE3-R136S (Christchurch), proposed to confer resistance to autosomal dominant Alzheimer's Disease (AD). However, it remains unclear whether and how this variant exerts its protective effects.MethodsWe introduced the R136S variant into mouse Apoe (ApoeCh) and investigated its effect on the development of AD-related pathology using the 5xFAD model of amyloidosis and the PS19 model of tauopathy. We used immunohistochemical and biochemical analysis along with single-cell spatial omics and bulk proteomics to explore the impact of the ApoeCh variant on AD pathological development and the brain's response to plaques and tau.ResultsIn 5xFAD mice, ApoeCh enhances a Disease-Associated Microglia (DAM) phenotype in microglia surrounding plaques, and reduces plaque load, dystrophic neurites, and plasma neurofilament light chain. By contrast, in PS19 mice, ApoeCh suppresses the microglial and astrocytic responses to tau-laden neurons and does not reduce tau accumulation or phosphorylation, but partially rescues tau-induced synaptic and myelin loss. We compared how microglia responses differ between the two mouse models to elucidate the distinct DAM signatures induced by ApoeCh. We identified upregulation of antigen presentation-related genes in the DAM response in a PS19 compared to a 5xFAD background, suggesting a differential response to amyloid versus tau pathology that is modulated by the presence of ApoeCh. Bulk proteomics show upregulated mitochondrial protein abundance with ApoeCh in 5xFAD mice, but reductions in mitochondrial and translation associated proteins in PS19 mice.ConclusionsThese findings highlight the ability of the ApoeCh variant to modulate microglial responses based on the type of pathology, enhancing DAM reactivity in amyloid models and dampening neuroinflammation to promote protection in tau models. This suggests that the Christchurch variant's protective effects likely involve multiple mechanisms, including changes in receptor binding and microglial programming.

Published

2025

6. A Study of XPro1595 in Patients with Early Alzheimer's Disease with Biomarkers of Inflammation (MINDFuL)

Published

2025

7. A Study of Donanemab (LY3002813) in Participants With Early Symptomatic Alzheimer's Disease (TRAILBLAZER-ALZ 5)

Published

2025

8. RIPK1 expression and inhibition in tauopathies: implications for neuroinflammation and neuroprotection.

Author

Silva-Llanes, Ignacio, Madruga, Enrique, Martínez, Ana, and Lastres-Becker, Isabel

Subjects

PROGRESSIVE supranuclear palsy, ALZHEIMER'S disease, TAUOPATHIES, RECEPTOR-interacting proteins, NEURODEGENERATION

Abstract

Tauopathies are a group of neurodegenerative diseases characterized by the alteration/aggregation of TAU protein. One of the main challenges of these diseases is that they have neither biomarkers nor pharmacological targets to stop the neurodegenerative process. Apart from the neurodegenerative process, tauopathies are also characterized by a chronic low-grade neuroinflammation process, where the receptor-interacting protein kinase 1 (RIPK1) protein plays an essential role. Our research aimed to explore the role of RIPK1 in various tauopathies. We examined mouse models of frontotemporal dementia (FTD), as well as brain tissue samples from patients with progressive supranuclear palsy (PSP), a primary form of 4R tauopathy, and Alzheimer's disease (AD), which is considered a secondary tauopathy. Our findings show elevated levels of RIPK1 mRNA levels across various forms of tauopathies, in both mouse models and human tissue samples associated with primary and secondary TAU-related disorders. Furthermore, we investigated the potential of using a RIPK1 inhibitor, known as GSK2982772, in a mouse model as a novel treatment strategy for FTD. The data showed that GSK2982772 treatment effectively reduced the reactive astrocyte response triggered by TAUP301L overexpression. However, this RIPK1 inhibitor failed to protect against the neurodegeneration caused by elevated TAUP301L levels in the hippocampal region. These results suggest that although inhibiting RIPK1 activity may help reduce TAU-related astrogliosis in the brain, the complexity of the inflammatory pathways involved could explain the absence of neuroprotective effects against TAU-induced neurodegeneration. [ABSTRACT FROM AUTHOR]

Published

2025

9. Synaptic sabotage: How Tau and α-Synuclein undermine synaptic health.

Author

Uytterhoeven, Valerie, Verstreken, Patrik, and Nachman, Eliana

Subjects

*ALPHA-synuclein, *TAU proteins, *ALZHEIMER'S disease, *PARKINSON'S disease, *TAUOPATHIES

Abstract

Synaptic dysfunction is one of the earliest cellular defects observed in Alzheimer's disease (AD) and Parkinson's disease (PD), occurring before widespread protein aggregation, neuronal loss, and cognitive decline. While the field has focused on the aggregation of Tau and α-Synuclein (α-Syn), emerging evidence suggests that these proteins may drive presynaptic pathology even before their aggregation. Therefore, understanding the mechanisms by which Tau and α-Syn affect presynaptic terminals offers an opportunity for developing innovative therapeutics aimed at preserving synapses and potentially halting neurodegeneration. This review focuses on the molecular defects that converge on presynaptic dysfunction caused by Tau and α-Syn. Both proteins have physiological roles in synapses. However, during disease, they acquire abnormal functions due to aberrant interactions and mislocalization. We provide an overview of current research on different essential presynaptic pathways influenced by Tau and α-Syn. Finally, we highlight promising therapeutic targets aimed at maintaining synaptic function in both tauopathies and synucleinopathies. [ABSTRACT FROM AUTHOR]

Published

2025

10. Amyloid-β predominant Alzheimer's disease neuropathologic change.

Author

Kovacs, Gabor G, Katsumata, Yuriko, Wu, Xian, Aung, Khine Zin, Fardo, David W, Forrest, Shelley L, Consortium, Alzheimer's Disease Genetics, and Nelson, Peter T

Subjects

*ALZHEIMER'S disease, *TAU proteins, *NEUROFIBRILLARY tangles, *TAUOPATHIES, *APOLIPOPROTEIN E

Abstract

Different subsets of Alzheimer's disease neuropathologic change (ADNC), including the intriguing set of individuals with severe/widespread amyloid-β (Aβ) plaques but no/mild tau tangles [Aβ-predominant (AP)-ADNC], may have distinct genetic and clinical features. Analysing National Alzheimer's Coordinating Center data, we stratified 1187 participants into AP-ADNC (n = 95), low Braak primary age-related tauopathy (PART; n = 185), typical-ADNC (n = 832) and high-Braak PART (n = 75). AP-ADNC differed in some clinical features and genetic polymorphisms in the APOE , SNX1 , WNT3 / MAPT and IGH genes. We conclude that AP-ADNC differs from classical ADNC with implications for in vivo studies. [ABSTRACT FROM AUTHOR]

Published

2025

11. Hippocampal atrophy over two years in relation to tau, amyloid-β and memory in older adults.

Author

Aumont, Etienne, Bedard, Marc-André, Bussy, Aurélie, Arias, Jaime Fernandez, Tissot, Cecile, Hall, Brandon J., Therriault, Joseph, Rahmouni, Nesrine, Stevenson, Jenna, Servaes, Stijn, Macedo, Arthur C., Vitali, Paolo, Poltronetti, Nina Margherita, Fliaguine, Olga, Trudel, Lydia, Gauthier, Serge, Chakravarty, Mallar M., and Rosa-Neto, Pedro

Subjects

*HIPPOCAMPUS (Brain), *ALZHEIMER'S disease, *ENTORHINAL cortex, *CEREBRAL atrophy, *TAUOPATHIES

Abstract

In this longitudinal brain imaging study, we aimed to characterize hippocampal tau accumulation and subfield atrophy relative to cortical amyloid-β and memory performance. We measured tau-PET in regions associated with Braak stages I to VI, global amyloid-PET burden, hippocampal subfield volumes and memory assessments from 173 participants aged 55–85. Eighty-six of these participants were tested again two years later. Tau-PET change in the Braak II region, corresponding to the hippocampus and the entorhinal cortex, was significantly associated with the cornu ammonis 1 (CA1) atrophy and memory score. This CA1 atrophy did not significantly mediate the association between tau and memory, nor did global amyloid-PET burden correlate with tau-PET changes in the Braak II region. Longitudinal hippocampal tau accumulation is amyloid-β-independent and co-localized with subfield atrophy. As tau-associated memory decline seems to be independent from hippocampal atrophy, other mechanisms could contribute to the deficit. • Hippocampal and entorhinal tau accumulation is amyloid-β-independent. • Baseline tau load is not specific to local longitudinal hippocampal atrophy. • CA1 and subiculum atrophy mirror longitudinal hippocampal tau pathology. • Challenge the hippocampal volume's mediation of the tau-memory link. • Memory decline is tied to tau beyond hippocampal subfields atrophy. [ABSTRACT FROM AUTHOR]

Published

2025

12. Understanding retinal tau pathology through functional 2D and 3D iPSC-derived in vitro retinal models.

Author

Mautone, Lorenza, Cordella, Federica, Soloperto, Alessandro, Ghirga, Silvia, Di Gennaro, Giorgia, Gigante, Ylenia, and Di Angelantonio, Silvia

Subjects

*INDUCED pluripotent stem cells, *PLURIPOTENT stem cells, *STRESS granules, *LIFE sciences, *TAUOPATHIES

Abstract

The generation of retinal models from human induced pluripotent stem cells holds significant potential for advancing our understanding of retinal development, neurodegeneration, and the in vitro modeling of neurodegenerative disorders. The retina, as an accessible part of the central nervous system, offers a unique window into these processes, making it invaluable for both study and early diagnosis. This study investigates the impact of the Frontotemporal Dementia-linked IVS 10 + 16 MAPT mutation on retinal development and function using 2D and 3D retinal models derived from human induced pluripotent stem cells. Our findings reveal that the MAPT mutation leads to delayed retinal cell differentiation and maturation, with tau-mutant disease models exhibiting sustained higher expression of retinal progenitor cell markers and a reduced presence of post-mitotic neurons. Both 2D and 3D tau-mutant retinal models demonstrated an imbalance in tau isoforms, favoring 4R tau, along with increased tau phosphorylation, altered neurite morphology, and impaired cytoskeletal maturation. These changes are associated with impaired synaptic development, reduced neuronal connectivity, and enhanced cellular stress responses, including the increased formation of stress granules, markers of apoptosis and autophagy, and the presence of intracellular toxic tau aggregates. This study highlights the value of retinal models derived from human induced pluripotent stem cells in exploring the mechanisms underlying retinal pathology associated with tau mutations. These models offer essential insights into the development of therapeutic strategies for neurodegenerative diseases characterized by tau aggregation. [ABSTRACT FROM AUTHOR]

Published

2025

13. Tau oligomers impair memory and synaptic plasticity through the cellular prion protein.

Author

Balducci, Claudia, Orsini, Franca, Cerovic, Milica, Beeg, Marten, Rocutto, Beatrice, Dacomo, Letizia, Masone, Antonio, Busani, Eleonora, Raimondi, Ilaria, Lavigna, Giada, Chen, Po-Tao, Leva, Susanna, Colombo, Laura, Zucchelli, Chiara, Musco, Giovanna, Kanaan, Nicholas M., Gobbi, Marco, Chiesa, Roberto, Fioriti, Luana, and Forloni, Gianluigi

Subjects

*RECOGNITION (Psychology), *ALZHEIMER'S disease, *SURFACE plasmon resonance, *TAUOPATHIES, *MEDICAL sciences

Abstract

Deposition of abnormally phosphorylated tau aggregates is a central event leading to neuronal dysfunction and death in Alzheimer's disease (AD) and other tauopathies. Among tau aggregates, oligomers (TauOs) are considered the most toxic. AD brains show significant increase in TauOs compared to healthy controls, their concentration correlating with the severity of cognitive deficits and disease progression. In vitro and in vivo neuronal TauO exposure leads to synaptic and cognitive dysfunction, but their mechanisms of action are unclear. Evidence suggests that the cellular prion protein (PrPC) may act as a mediator of TauO neurotoxicity, as previously proposed for β-amyloid and α-synuclein oligomers. To investigate whether PrPC mediates TauO detrimental activities, we compared their effects on memory and synaptic plasticity in wild type (WT) and PrPC knockout (Prnp0/0) mice. Intracerebroventricular injection of TauOs significantly impaired recognition memory in WT but not in Prnp0/0 mice. Similarly, TauOs inhibited long-term potentiation in acute hippocampal slices from WT but not Prnp0/0 mice. Surface plasmon resonance indicated a high-affinity binding between TauOs and PrPC with a KD of 20–50 nM. Immunofluorescence analysis of naïve and PrPC-overexpressing HEK293 cells exposed to TauOs showed a PrPC dose-dependent association of TauOs with cells over time, and their co-localization with PrPC on the plasma membrane and in intracellular compartments, suggesting PrPC-may play a role in TauO internalization. These findings support the concept that PrPC mediates the detrimental activities of TauOs through a direct interaction, suggesting that targeting this interaction might be a promising therapeutic strategy for AD and other tauopathies. [ABSTRACT FROM AUTHOR]

Published

2025

14. Functional classification of tauopathy strains reveals the role of protofilament core residues.

Author

Vaquer-Alicea, Jaime, Manon, Victor A., Bommareddy, Vaibhav, Kunach, Peter, Gupta, Ankit, Monistrol, Jim, Perez, Valerie A., Hung Tri Tran, Saez-Calveras, Nil, Siling Du, Batra, Sushobhna, Stoddard, Daniel, White III, Charles L., Joachimiak, Lukasz A., Shahmoradian, Sarah H., and Diamond, Marc I.

Subjects

*ALZHEIMER'S disease, *FLUORESCENT proteins, *TAUOPATHIES, *TAU proteins, *ANIMAL experimentation

Abstract

Distinct tau amyloid assemblies underlie diverse tauopathies but defy rapid classification. Cell and animal experiments indicate tau functions as a prion, as different strains propagated in cells cause unique, transmissible neuropathology after inoculation. Strain amplification requires compatibility of the monomer and amyloid template. We used cryo-electron microscopy to study one cell-based yellow fluorescent protein (YFP)-tagged strain, resolving its amyloid nature. We then used sequential alanine (Ala) substitution (scan) within tau repeat domain (RD) to measure incorporation to preexisting tau RD-YFP aggregates. This robustly discriminated strains, defining sequences critical for monomer incorporation. We then created 3R/4R or 4R wild-type RD (amino acids 246 to 408) biosensors. Ala scan of recombinant tau seeds with the Alzheimer's disease (AD) fold matched that of AD homogenate. We scanned 22 brain lysates comprising four tauopathies. This clustered cases by neuropathological syndrome, revealed the role of amino acids in protofilament folds, and allowed strain discrimination based on amino acid requirements for prion replication. [ABSTRACT FROM AUTHOR]

Published

2025

15. Microglial double stranded DNA accumulation induced by DNase II deficiency drives neuroinflammation and neurodegeneration.

Author

Li, Ling-jie, Liang, Shi-yu, Sun, Xiao-ying, Zhu, Jie, Niu, Xiao-yun, Du, Xiao-yu, Huang, Ya-ru, and Liu, Rui-tian

Subjects

*TYPE I interferons, *ALZHEIMER'S disease, *MEDICAL sciences, *TAUOPATHIES, *NEURODEGENERATION

Abstract

Background: Deoxyribonuclease 2 (DNase II) is pivotal in the clearance of cytoplasmic double stranded DNA (dsDNA). Its deficiency incurs DNA accumulation in cytoplasm, which is a hallmark of multiple neurodegenerative diseases. Our previous study showed that neuronal DNase II deficiency drove tau hyperphosphorylation and neurodegeneration (Li et al., Transl Neurodegener 13:39, 2024). Although it has been verified that DNase II participates in type I interferons (IFN-I) mediated autoinflammation and senescence in peripheral systems, the role of microglial DNase II in neuroinflammation and neurodegenerative diseases such as Alzheimer's disease (AD) is still unknown. Methods: The levels of microglial DNase II in triple transgenic AD mice (3xTg-AD) were measured by immunohistochemistry. The cognitive performance of microglial DNase II deficient WT and AD mice was determined using the Morris water maze test, Y-maze test, novel object recognition test and open filed test. To investigate the impact of microglial DNase II deficiency on microglial morphology, cyclic GMP-AMP synthase (cGAS)-stimulator of interferon genes (STING) pathway and IFN-I pathway, neuroinflammation, synapses loss, amyloid pathology and tauopathy, the levels of cGAS-STING and IFN-I pathway related protein, gliosis and proinflammatory cytokines, synaptic protein, complement protein, Aβ levels, phosphorylated tau in the brains of the microglial DNase II deficient WT and AD mice were evaluated by immunolabeling, immunoblotting, q-PCR or ELISA. Results: We found that the levels of DNase II were significantly decreased in the microglia of 3xTg-AD mice. Microglial DNase II deficiency altered microglial morphology and transcriptional signatures, activated the cGAS-STING and IFN-I pathway, initiated neuroinflammation, led to synapse loss via complement-dependent pathway, increased Aβ levels and tauopathy, and induced cognitive decline. Conclusions: Our study shows the effect of microglial DNase II deficiency and cytoplasmic accumulated dsDNA on neuroinflammation, and reveals the initiatory mechanism of AD pathology, suggesting that DNase II is a potential target for neurodegenerative diseases. [ABSTRACT FROM AUTHOR]

Published

2025

16. Brain-derived tau oligomer polymorphs: distinct aggregations, stability profiles, and biological activities.

Author

Lo Cascio, Filippa, Park, Suhyeorn, Sengupta, Urmi, Puangmalai, Nicha, Bhatt, Nemil, Shchankin, Nikita, Jerez, Cynthia, Moreno, Naomi, Bittar, Alice, Xavier, Rhea, Zhao, Yingxin, Wang, Cankun, Fu, Hongjun, Ma, Qin, Montalbano, Mauro, and Kayed, Rakez

Subjects

*LEWY body dementia, *PROGRESSIVE supranuclear palsy, *ALZHEIMER'S disease, *TAUOPATHIES, *MICROTUBULE-associated proteins, *TAU proteins

Abstract

Aggregation of microtubule-associated tau protein is a distinct hallmark of several neurodegenerative disorders such as Alzheimer's disease (AD), dementia with Lewy bodies (DLB), and progressive supranuclear palsy (PSP). Tau oligomers are suggested to be the primary neurotoxic species that initiate aggregation and propagate prion-like structures. Furthermore, different diseases are shown to have distinct structural characteristics of aggregated tau, denoted as polymorphs. Here, we investigate the structural and functional differences of amplified brain-derived tau oligomers (aBDTOs) from AD, DLB, and PSP. Our results indicate that the aBDTOs possess different structural and morphological features that impact neuronal function, gene regulation, and ultimately disease progression. The distinct tau oligomeric polymorphs may thus contribute to the development of clinical phenotypes and shape the progression of diseases. Our results can provide insight into developing personalized therapy to target a specific neurotoxic tau polymorph. Different aggregation characteristics and stability profiles of tau oligomeric polymorphs highlight the importance of studying the tau polymorphs to shed light on the functional differences and neuropathological heterogeneity in tauopathies. [ABSTRACT FROM AUTHOR]

Published

2025

17. Upregulated astrocyte HDAC7 induces Alzheimer-like tau pathologies via deacetylating transcription factor-EB and inhibiting lysosome biogenesis.

Author

Ye, Jinwang, Zhong, Suyue, Wan, Huali, Guo, Xing, Yao, Xuanbao, Liu, Qiong, Chen, Liming, Wang, Jian-Zhi, and Xiao, Shifeng

Subjects

*ALZHEIMER'S disease, *TAUOPATHIES, *HISTONE deacetylase, *NEUROGLIA, *PROTEOLYSIS, *TAU proteins

Abstract

Background: Astrocytes, the most abundant glial cell type in the brain, will convert into the reactive state in response to proteotoxic stress such as tau accumulation, a characteristic feature of Alzheimer's disease (AD) and other tauopathies. The formation of reactive astrocytes is partially attributed to the disruption of autophagy lysosomal signaling, and inhibiting of some histone deacetylases (HDACs) has been demonstrated to reduce the molecular and functional characteristics of reactive astrocytes. However, the precise role of autophagy lysosomal signaling in astrocytes that regulates tau pathology remains unclear. Methods: We investigated the expression of class IIa HDAC7 in astrocytes from AD patients and PS19 mice. PS19 mice were treated with AAVs expressing shRNA for HDAC7 with astrocyte-specific promoter and with a selective class IIa HDAC inhibitor, TMP195, and the effects on tau pathology, gliosis, synaptic plasticity and cognition-related behavioral performance were measured. Tau uptake and degradation assays in cultured astrocytes were utilized to investigate the role of HDAC7 on astrocyte-mediated tau clearance. Immunoprecipitation, immunofluorescence, western blotting, RT-qPCR, mass spectrometric, and luciferase reporter assay were used to identify HDAC7 substrates, modification site and related signaling pathways in astrocyte-tau clearance. We generated a new antibody to clarify the role of HDAC7-mediated signaling in AD patients and PS19 mice. Results: Here, we found that the level of histone deacetylase 7 (HDAC7) was remarkably increased in the astrocytes of AD patients and P301S tau transgenic (PS19) mice. Genetic or pharmacological inhibition of HDAC7 effectively enhanced astrocytic clearance of tau with improved cognitive functions in PS19 mice. HDAC7 could modulate astrocytic uptake and lysosomal degradation of tau proteins through a transcriptional factor EB (TFEB) acetylation-dependent manner. Specifically, deacetylation of TFEB at K310 site by HDAC7 prevented TFEB nuclear translocation with reduced lysosomal biogenesis and tau clearance in astrocytes, whereas inhibiting HDAC7 restored astrocytic TFEB acetylation level at K310 with improved tau pathology and cognitive functions in PS19 mice. Conclusions: Our findings suggest that upregulation of HDAC7 induces AD-like tau pathologies via deacetylating TFEB and inhibiting lysosomal biogenesis in astrocytes, and downregulating HDAC7-TFEB signaling is promising for arresting AD and other tauopathies. [ABSTRACT FROM AUTHOR]

Published

2025

18. Essential tremor with tau pathology features seeds indistinguishable in conformation from Alzheimer's disease and primary age-related tauopathy.

Author

Saez-Calveras, Nil, Vaquer-Alicea, Jaime, White III, Charles L., Tak, Yogesh, Cosentino, Stephanie, Faust, Phyllis L., Louis, Elan D., and Diamond, Marc I.

Subjects

*PROGRESSIVE supranuclear palsy, *CHRONIC traumatic encephalopathy, *ALZHEIMER'S disease, *AMINO acid sequence, *TAUOPATHIES

Abstract

Neurodegenerative tauopathies are characterized by the deposition of distinct fibrillar tau assemblies, whose rigid core structures correlate with defined neuropathological phenotypes. Essential tremor (ET) is a progressive neurological disorder that, in some cases, is associated with cognitive impairment and tau accumulation. In this study, we explored tau assembly conformation in ET patients with tau pathology using cytometry-based tau biosensor assays. These assays quantify the tau seeding activity present in brain homogenates by detecting the conversion of intracellular tau-fluorescent protein fusions from a soluble to an aggregated state. Pathogenic tau assemblies exhibit seeding barriers, where a specific assembly structure cannot serve as a template for a native monomer if the amino acid sequences are incompatible. We recently leveraged this species barrier to define tauopathies systematically by substituting alanine (Ala) into the tau monomer and measuring its incorporation into seeded aggregates within biosensor cells. This Ala scan precisely classified the conformation of tau seeds from various tauopathies. In this study, we analyzed 18 ET patient brains with tau pathology, detecting robust tau seeding activity in 9 (50%) of the cases, predominantly localized to the temporal pole and temporal cortex. We further examined 8 of these ET cases using the Ala scan and found that the amino acid requirements for tau monomer incorporation into aggregates seeded from ET brain homogenates were identical to those of Alzheimer's disease (AD) and primary age-related tauopathy (PART), and distinct from other tauopathies, such as corticobasal degeneration (CBD), chronic traumatic encephalopathy (CTE), and progressive supranuclear palsy (PSP). These findings indicate that in a pathologically confined subset of ET cases with significant tau pathology, tau assembly cores are identical to those seen in AD and PART. This could facilitate more precise diagnosis and targeted therapies for ET patients presenting with cognitive impairment. [ABSTRACT FROM AUTHOR]

Published

2025

19. VCP regulates early tau seed amplification via specific cofactors.

Author

Batra, Sushobhna, Vaquer-Alicea, Jaime, Valdez, Clarissa, Taylor, Skyler P., Manon, Victor A., Vega, Anthony R., Kashmer, Omar M., Kolay, Sourav, Lemoff, Andrew, Cairns, Nigel J., White III, Charles L., and Diamond, Marc I.

Subjects

*TAUOPATHIES, *CHEMICAL inhibitors, *MEDICAL sciences, *TAU proteins, *NEURODEGENERATION

Abstract

Background: Neurodegenerative tauopathies may progress based on seeding by pathological tau assemblies, whereby an aggregate is released from one cell, gains entry to an adjacent or connected cell, and serves as a specific template for its own replication in the cytoplasm. Seeding into the complex cytoplasmic milieu happens within hours, implying the existence of unknown factors that regulate this process. Methods: We used proximity labeling to identify proteins that control seed amplification within 5 h of seed exposure. We fused split-APEX2 to the C-terminus of tau repeat domain (RD) to reconstitute peroxidase activity 5 h after seeded intracellular tau aggregation. Valosin containing protein (VCP/p97) was the top hit. VCP harbors dominant mutations that underlie two neurodegenerative diseases, multisystem proteinopathy and vacuolar tauopathy, but its mechanistic role is unclear. We used immortalized cells and human neurons to study the effects of VCP on tau seeding. We exposed cells to fibrils or brain homogenates in cell culture media and measured effects on uptake and induction of intracellular tau aggregation following various genetic and pharmacological manipulations of VCP. Results: VCP knockdown reduced tau seeding. Chemical inhibitors had opposing effects on seeding in HEK293T tau biosensor cells and human neurons: ML-240 increased seeding efficiency, whereas NMS-873 decreased it. The inhibitors only functioned when administered within 8 h of seed exposure, indicating a role for VCP early in seed processing. We screened 30 VCP co-factors in HEK293T biosensor cells by genetic knockout or knockdown. Reduction of ATXN3, NSFL1C, UBE4B, NGLY1, and OTUB1 decreased tau seeding, as did NPLOC4, which also uniquely increased soluble tau levels. By contrast, reduction of FAF2 increased tau seeding. Conclusions: Divergent effects on tau seeding of chemical inhibitors and cofactor reduction indicate that VCP regulates this process. This is consistent with a cytoplasmic processing complex centered on VCP that directs seeds acutely towards degradation vs. amplification. [ABSTRACT FROM AUTHOR]

Published

2025

20. The MIR-NAT MAPT-AS1 does not regulate Tau expression in human neurons.

Author

Policarpo, Rafaela, Wolfs, Leen, Martínez-Montero, Saul, Vandermeulen, Lina, Royaux, Ines, Van Peer, Gert, Mestdagh, Pieter, De Strooper, Bart, Sierksma, Annerieke, and d'Ydewalle, Constantin

Subjects

*INDUCED pluripotent stem cells, *LINCRNA, *TAU proteins, *ALZHEIMER'S disease, *TAUOPATHIES

Abstract

The MAPT gene encodes Tau protein, a member of the large family of microtubule-associated proteins. Tau forms large insoluble aggregates that are toxic to neurons in several neurological disorders, and neurofibrillary Tau tangles represent a key pathological hallmark of Alzheimer's disease (AD) and other tauopathies. Lowering Tau expression levels constitutes a potential treatment for AD but the mechanisms that regulate Tau expression at the transcriptional or translational level are not well understood. Natural antisense transcripts (NATs) are a particular class of long non-coding RNAs (lncRNAs) that can regulate expression of their overlapping protein-coding genes at the epigenetic, transcriptional, or translational level. We and others identified a long non-coding RNA associated with the MAPT gene, named MAPT antisense 1 (MAPT-AS1). We confirmed that MAPT-AS1 is expressed in neurons in human post mortem brain tissue. To study the role of MAPT-AS1 on MAPT expression regulation, we modulated the expression of this lncRNA in human neuroblastoma cell lines and in human induced pluripotent stem cell (iPSC) derived neurons. In contrast to previous reports, we observed no changes on MAPT mRNA or Tau protein levels upon modulation of MAPT-AS1 levels in these cellular models. Our data suggest that MAPT-AS1 does not regulate Tau expression levels in human neurons in vitro. Thus, MAPT-AS1 does not represent a valuable therapeutic target to lower Tau expression in patients affected by tauopathies including AD. [ABSTRACT FROM AUTHOR]

Published

2025

21. The role of Aha1 in cancer and neurodegeneration.

Author

Blagg, Brian S.J. and Catalfano, Kevin C.

Subjects

MOLECULAR chaperones, SMALL molecules, DISEASE progression, TAUOPATHIES, CYSTIC fibrosis

Abstract

The 90 kDa Heat shock protein (Hsp90) is a family of ubiquitously expressed molecular chaperones responsible for the stabilization and maturation of >400 client proteins. Hsp90 exhibits dramatic conformational changes to accomplish this, which are regulated by partner proteins termed co-chaperones. One of these co-chaperones is called the activator or Hsp90 ATPase activity homolog 1 (Aha1) and is the most potent accelerator of Hsp90 ATPase activity. In conditions where Aha1 levels are dysregulated including cystic fibrosis, cancer and neurodegeneration, Hsp90 mediated client maturation is disrupted. Accumulating evidence has demonstrated that many disease states exhibit large hetero-protein complexes with Hsp90 as the center. Many of these include Aha1, where increased Aha1 levels drive disease states forward. One strategy to block these effects is to design small molecule disruptors of the Hsp90/Aha1 complex. Studies have demonstrated that current Hsp90/Aha1 small molecule disruptors are effective in both models for cancer and neurodegeration. Hsp90/Aha1 is associated with increased Hsp90 ATPase activity and associated client maturation drives cancer and neurodegenerative diseases. Disrupting Hsp90/Aha1 is a viable strategy to treat these diseases. [ABSTRACT FROM AUTHOR]

Published

2025

22. Resting-State EEG Alpha Rhythms Are Related to CSF Tau Biomarkers in Prodromal Alzheimer's Disease.

Author

Del Percio, Claudio, Lizio, Roberta, Lopez, Susanna, Noce, Giuseppe, Carpi, Matteo, Jakhar, Dharmendra, Soricelli, Andrea, Salvatore, Marco, Yener, Görsev, Güntekin, Bahar, Massa, Federico, Arnaldi, Dario, Famà, Francesco, Pardini, Matteo, Ferri, Raffaele, Carducci, Filippo, Lanuzza, Bartolo, Stocchi, Fabrizio, Vacca, Laura, and Coletti, Chiara

Subjects

*ALZHEIMER'S disease, *TAU proteins, *MAGNETIC induction tomography, *MILD cognitive impairment, *TAUOPATHIES, *CEREBROSPINAL fluid examination, *ALPHA rhythm

Abstract

Patients with mild cognitive impairment due to Alzheimer's disease (ADMCI) typically show abnormally high delta (<4 Hz) and low alpha (8–12 Hz) rhythms measured from resting-state eyes-closed electroencephalographic (rsEEG) activity. Here, we hypothesized that the abnormalities in rsEEG activity may be greater in ADMCI patients than in those with MCI not due to AD (noADMCI). Furthermore, they may be associated with the diagnostic cerebrospinal fluid (CSF) amyloid–tau biomarkers in ADMCI patients. An international database provided clinical–demographic–rsEEG datasets for cognitively unimpaired older (Healthy; N = 45), ADMCI (N = 70), and noADMCI (N = 45) participants. The rsEEG rhythms spanned individual delta, theta, and alpha frequency bands. The eLORETA freeware estimated cortical rsEEG sources. Posterior rsEEG alpha source activities were reduced in the ADMCI group compared not only to the Healthy group but also to the noADMCI group (p < 0.001). Negative associations between the CSF phospho-tau and total tau levels and posterior rsEEG alpha source activities were observed in the ADMCI group (p < 0.001), whereas those with CSF amyloid beta 42 levels were marginal. These results suggest that neurophysiological brain neural oscillatory synchronization mechanisms regulating cortical arousal and vigilance through rsEEG alpha rhythms are mainly affected by brain tauopathy in ADMCI patients. [ABSTRACT FROM AUTHOR]

Published

2025

23. Deciphering the Role of Adrenergic Receptors in Alzheimer's Disease: Paving the Way for Innovative Therapies.

Author

Miliotou, Androulla N., Kotsoni, Andria, and Zacharia, Lefteris C.

Subjects

*ADRENERGIC receptors, *ALZHEIMER'S disease, *ADRENERGIC beta blockers, *ADRENERGIC agonists, *TAUOPATHIES

Abstract

Neurodegenerative diseases are currently among the most devastating diseases with no effective disease-modifying drugs in the market, with Alzheimer's disease (AD) being the most prevalent. AD is a complex multifactorial neurodegenerative disorder characterized by progressive and severe cognitive impairment and memory loss. It is the most common cause of progressive memory loss (dementia) in the elderly, and to date, there is no effective treatment to cure or slow disease progression substantially. The role of adrenergic receptors in the pathogenesis of Alzheimer's disease and other tauopathies is poorly understood or investigated. Recently, some studies indicated a potential benefit of drugs acting on the adrenergic receptors for AD and dementias, although due to the heterogeneity of the drug classes used, the results on the whole remain inconclusive. The scope of this review article is to comprehensively review the literature on the possible role of adrenergic receptors in neurodegenerative diseases, stemming from the use of agonists and antagonists including antihypertensive and asthma drugs acting on the adrenergic receptors, but also from animal models and in vitro models where these receptors have been studied. Ultimately, we hope to obtain a better understanding of the role of these receptors, identify the gaps in knowledge, and explore the possibility of repurposing such drugs for AD, given their long history of use and safety. [ABSTRACT FROM AUTHOR]

Published

2025

24. Proteostasis as a fundamental principle of Tau immunotherapy.

Author

Cruz, Esteban, Nisbet, Rebecca M, Padmanabhan, Pranesh, Waardenberg, Ashley J van, Graham, Mark E, Nkajja, Godfrey, Tapaswi, Swara, Connor, Bradley J, Robinson, Phil, and Götz, Jürgen

Subjects

*TAU proteins, *ALZHEIMER'S disease, *TAUOPATHIES, *MICROTUBULE-associated proteins, *NEURODEGENERATION, *POST-translational modification

Abstract

The microtubule-associated protein Tau is a driver of neuronal dysfunction in Alzheimer's disease and other tauopathies. In this process, Tau initially undergoes subtle changes to its abundance, subcellular localization and a vast array of post-translational modifications including phosphorylation that progressively result in the protein's somatodendritic accumulation and dysregulation of multiple Tau-dependent cellular processes. Given the various loss- and gain-of-functions of Tau in disease and the brain-wide changes in the proteome that characterize tauopathies, we asked whether targeting Tau would restore the alterations in proteostasis observed in disease. Therefore, by phage display, we generated a novel pan-Tau antibody, RNJ1, that preferentially binds human Tau and neutralizes proteopathic seeding activity in multiple cell lines and benchmarked it against a clinically tested pan-Tau antibody, HJ8.5 (murine version of tilavonemab). We then evaluated both antibodies, alone and in combination, in the K3 tauopathy mouse model, showing reduced Tau pathology and improvements in neuronal function following 14 weekly treatments, without obtaining synergy for the combination. These effects were more pronounced in female mice. To investigate the molecular mechanisms contributing to improvements in neuronal function, we employed quantitative proteomics, phosphoproteomics and kinase prediction analysis to first establish alterations in K3 mice relative to wild-type controls at the proteome level. In female K3 mice, we found 342 differentially abundant proteins, which are predominantly involved in metabolic and microtubule-associated processes, strengthening previously reported findings of defects in several functional domains in multiple tauopathy models. We next asked whether antibody-mediated Tau target engagement indirectly affects levels of deregulated proteins in the K3 model. Importantly, both immunotherapies, in particular RNJ1, induced abundance shifts towards a restoration to wild-type levels (proteostasis). A total of 257 of 342 (∼75%) proteins altered in K3 were closer in abundance to wild-type levels after RNJ1 treatment, and 73% after HJ8.5 treatment. However, the magnitude of these changes was less pronounced than that observed with RNJ1. Furthermore, analysis of the phosphoproteome showed an even stronger restoration effect with RNJ1, with ∼82% of altered phosphopeptides in K3 showing a shift to wild-type levels, and 75% with HJ8.5. Gene set over-representation analysis further confirmed that proteins undergoing restoration are involved in biological pathways affected in K3 mice. Together, our study suggests that a Tau immunotherapy-induced restoration of proteostasis links target engagement and treatment efficacy. [ABSTRACT FROM AUTHOR]

Published

2025

25. Novel Role of Pin1-Cis P-Tau-ApoE Axis in the Pathogenesis of Preeclampsia and Its Connection with Dementia.

Author

Amabebe, Emmanuel, Huang, Zheping, Jash, Sukanta, Krishnan, Balaji, Cheng, Shibin, Nakashima, Akitoshi, Li, Yitong, Li, Zhixong, Wang, Ruizhi, Menon, Ramkumar, Zhou, Xiao Zhen, Lu, Kun Ping, and Sharma, Surendra

Subjects

ALZHEIMER'S disease, TAUOPATHIES, TAU proteins, APOLIPOPROTEIN E, NEURODEGENERATION

Abstract

Preeclampsia (preE) is a severe multisystem hypertensive syndrome of pregnancy associated with ischemia/hypoxia, angiogenic imbalance, apolipoprotein E (ApoE)-mediated dyslipidemia, placental insufficiency, and inflammation at the maternal–fetal interface. Our recent data further suggest that preE is associated with impaired autophagy, vascular dysfunction, and proteinopathy/tauopathy disorder, similar to neurodegenerative diseases such as Alzheimer's disease (AD), including the presence of the cis stereo-isoform of phosphorylated tau (cis P-tau), amyloid-β, and transthyretin in the placenta and circulation. This review provides an overview of the factors that may lead to the induction and accumulation of cis P-tau-like proteins by focusing on the inactivation of peptidyl-prolyl cis–trans isomerase (Pin1) that catalyzes the cis to trans isomerization of P-tau. We also highlighted the novel role of the Pin1-cis P-tau-ApoE axis in the development of preE, and propagation of cis P-tau-mediated abnormal protein aggregation (tauopathy) from the placenta to cerebral tissues later in life, leading to neurodegenerative conditions. In the case of preE, proteinopathy/tauopathy may interrupt trophoblast differentiation and induce cell death, similar to the events occurring in neurons. These events may eventually damage the endothelium and cause systemic features of disorders such as preE. Despite impressive research and therapeutic advances in both fields of preE and neurodegenerative diseases, further investigation of Pin1-cis P-tau and ApoE-related mechanistic underpinnings may unravel novel therapeutic options, and new transcriptional and proteomic markers. This review will also cover genetic polymorphisms in the ApoE alleles leading to dyslipidemia induction that may regulate the pathways causing preE or dementia-like features in the reproductive age or later in life, respectively. [ABSTRACT FROM AUTHOR]

Published

2025

26. Modifying reaction time tasks parameters in the automated IntelliCage identifies heightened impulsivity and impaired attention in the 3xTg-AD model of Alzheimer's disease.

Author

Judd, Jessica M., Winslow, Wendy, McDonough, Ian, Mistry, Faizan, and Velazquez, Ramon

Subjects

BIOLOGICAL models, TAU proteins, REPEATED measures design, TASK performance, ALZHEIMER'S disease, RESEARCH funding, PHOSPHORYLATION, T-test (Statistics), DATA analysis, PREFRONTAL cortex, ENZYME-linked immunosorbent assay, NEUROINFLAMMATION, DESCRIPTIVE statistics, IMPULSIVE personality, ATTENTION, MICE, TAUOPATHIES, ANIMAL behavior, ANIMAL experimentation, COGNITION disorders, THREONINE, ONE-way analysis of variance, STATISTICS, REACTION time, DATA analysis software, AMYLOID beta-protein precursor, SERINE, GENOTYPES

Abstract

Background: The 3xTg-AD transgenic mouse model of Alzheimer's disease (AD) is an important tool to investigate the relationship between development of pathological amyloid-β (Aβ) and tau, neuroinflammation, and cognitive impairments. Traditional behavioral tasks assessing aspects of learning and memory, such as mazes requiring spatial navigation, unfortunately suffer from several shortcomings, including the stress of human handling and not probing species-typical behavior. The automated IntelliCage system was developed to circumvent such issues by testing mice in a social environment while measuring multiple aspects of cognition. Water consumption can serve as a primary motivator for task engagement. Once animals adapt to the cage and can access water, mice can be subjected to operant tasks. Each of the four corners of a cage contains doors to manipulate access to water, visual LED cues, and a valve allowing administration of an air puff. Previously, we detected significant impairments in 3xTg-AD mice in the IntelliCage, however a high failure rate and genotypical differences in water motivation were observed. Methods: Here, we implemented an IntelliCage paradigm where mice underwent progressively more difficult reaction time tasks to assess attention and impulsivity, behaviors mediated by the prefrontal cortex. Mice were placed in the IntelliCage at 11.5 months of age, which corresponds with the presence of widespread pathology. Results: As the difficulty of the reaction time tasks increased, 3xTg-AD mice exhibited lower percent Correct Responses than NonTg. When implementing varying pre-cue durations, where animals are required to wait between the initiation of the trial and the LED turning on (which then requires a nose-poke to access water), 3xTg-AD mice prematurely nose-poked on trials requiring a longer delay before a second nose poke would allow water access, demonstrating heightened impulsivity. The presence of soluble and insoluble fractions of cortical Aβ40 and 42, and phosphorylated tau epitopes threonine 181 and serine 396 confirmed the presence of neuropathological hallmarks in 3xTg-AD mice. Conclusion: Together, this study describes a novel protocol that overcomes motivational differences and detects attention and impulsivity deficits in 3xTg-AD mice utilizing the IntelliCage. [ABSTRACT FROM AUTHOR]

Published

2025

27. Mitochondrial bioenergetics stimulates autophagy for pathological MAPT/Tau clearance in tauopathy neurons.

Author

Jia, Nuo, Ganesan, Dhasarathan, Guan, Hongyuan, Jeong, Yu Young, Han, Sinsuk, Rajapaksha, Gavesh, Nissenbaum, Marialaina, Kusnecov, Alexander W., and Cai, Qian

Subjects

FLUORESCENCE resonance energy transfer, CYTOCHROME oxidase, DORSAL root ganglia, TAU proteins, TAUOPATHIES

Abstract

Hyperphosphorylation and aggregation of MAPT (microtubule-associated protein tau) is a pathogenic hallmark of tauopathies and a defining feature of Alzheimer disease (AD). Pathological MAPT/tau is targeted by macroautophagy/autophagy for clearance after being sequestered within autophagosomes, but autophagy dysfunction is indicated in tauopathy. While mitochondrial bioenergetic deficits have been shown to precede MAPT/tau pathology in tauopathy brains, it is unclear whether energy metabolism deficiency is involved in the pathogenesis of autophagy defects. Here, we reveal that stimulation of anaplerotic metabolism restores defective oxidative phosphorylation (OXPHOS) in tauopathy neurons which, strikingly, leads to pronounced MAPT/tau clearance by boosting autophagy functionality through enhancements of mitochondrial biosynthesis and supply of phosphatidylethanolamine for autophagosome biogenesis. Furthermore, early anaplerotic stimulation of OXPHOS elevates autophagy activity and attenuates MAPT/tau pathology, thereby counteracting memory impairment in tauopathy mice. Taken together, our study sheds light on a pivotal role of mitochondrial bioenergetic deficiency in tauopathy-related autophagy defects and suggests a new therapeutic strategy to prevent the buildup of pathological MAPT/tau in AD and other tauopathy diseases. Abbreviation: AA: antimycin A; AD, Alzheimer disease; ATP, adenosine triphosphate; AV, autophagosome/autophagic vacuole; AZ, active zone; Baf-A1: bafilomycin A1; CHX, cycloheximide; COX, cytochrome c oxidase; DIV, days in vitro; DRG, dorsal root ganglion; ETN, ethanolamine; FRET, Förster/fluorescence resonance energy transfer; FTD, frontotemporal dementia; Gln, glutamine; HA: hydroxylamine; HsMAPT/Tau, human MAPT; IMM, inner mitochondrial membrane; LAMP1, lysosomal-associated membrane protein 1; LIs, lysosomal inhibitors; MDAV, mitochondria-derived autophagic vacuole; MmMAPT/Tau, murine MAPT; NFT, neurofibrillary tangle; OCR, oxygen consumption rate; Omy: oligomycin; OXPHOS, oxidative phosphorylation; PPARGC1A/PGC-1alpha: peroxisome proliferative activated receptor, gamma, coactivator 1 alpha; PE, phosphatidylethanolamine; phospho-MAPT/tau, hyperphosphorylated MAPT; PS, phosphatidylserine; PISD, phosphatidylserine decarboxylase;SQSTM1/p62, sequestosome 1; STX1, syntaxin 1; SYP, synaptophysin; Tg, transgenic; TCA, tricarboxylic acid; TEM, transmission electron microscopy. [ABSTRACT FROM AUTHOR]

Published

2025

28. Proteostasis restoration: a new metric for tau immunotherapy efficacy.

Author

Canet, Geoffrey and Planel, Emmanuel

Subjects

*TAU proteins, *ALZHEIMER'S disease, *TREATMENT effectiveness, *TAUOPATHIES, *SYNAPTIC vesicles, *IMMUNOTHERAPY

Published

2025

29. Apigenin-mediated MARK4 inhibition: a novel approach in advancing Alzheimer’s disease therapeutics

Author

Hussain, Afzal, Jairajpuri, Deeba Shamim, Anwar, Saleha, Choudhury, Arunabh, Hawwal, Mohammed F., Firdous, Anam, Alajmi, Mohamed F., and Hassan, Md. Imtaiyaz

Published

2025

30. New Biomarkers Identified for Early Detection of Alzheimer Disease.

Author

Jennings, Sydney

Subjects

ALZHEIMER'S disease, TAU proteins, TAUOPATHIES, EARLY diagnosis, ACADEMIC medical centers

Abstract

A recent study published in Nature Medicine has identified phospho-tau serine-262 and serine-356 as biomarkers for early detection of Alzheimer's disease. Researchers from the University of Pittsburgh and the University of Gothenburg found that changes in these amino acids occur before the formation of neurofibrillary tangles, a hallmark of advanced Alzheimer's disease. The study utilized advanced techniques to quantify soluble tau assemblies in postmortem brain tissue and developed a CSF biomarker test to distinguish these assemblies from other tau forms, potentially improving diagnostic accuracy and therapeutic interventions for Alzheimer's disease. [Extracted from the article]

Published

2025

31. Novel Biomarkers of FTD-ALS.

Subjects

*PROGRESSIVE supranuclear palsy, *AMYOTROPHIC lateral sclerosis, *NEURODEGENERATION, *ALZHEIMER'S disease, *TAUOPATHIES

Abstract

Two recent studies have developed and assessed fluid biomarkers for frontotemporal dementia and amyotrophic lateral sclerosis (FTD-ALS). One study identified increased levels of cryptic HDGFL2 in presymptomatic stages of FTD-ALS, suggesting potential predictive value. Another study found that plasma extracellular vesicle levels of TDP-43 and 3R/4R tau could distinguish between different neurodegenerative disorders with high diagnostic accuracy. These findings highlight recent advances in biomarker research that may improve clinical profiling of neurodegenerative disorders, particularly in patients with mixed pathologies. [Extracted from the article]

Published

2025

32. Targeting tau in Alzheimer's and beyond: Insights into pathology and therapeutic strategies.

Author

Singh, Sunidhi, Khan, Sumaiya, Shahid, Mohammad, Sardar, Meryam, Hassan, Md.Imtaiyaz, and Islam, Asimul

Subjects

*ALZHEIMER'S disease, *TAUOPATHIES, *TAU proteins, *PARKINSON'S disease, *POST-translational modification, *NEUROFIBRILLARY tangles

Abstract

Tauopathies encompass a group of approximately 20 neurodegenerative diseases characterized by the accumulation of the microtubule-associated protein tau in brain neurons. The pathogenesis of intracellular neurofibrillary tangles, a hallmark of tauopathies, is initiated by hyperphosphorylated tau protein isoforms that cause neuronal death and lead to diseases like Alzheimer's, Parkinson's disease, frontotemporal dementia, and other complex neurodegenerative diseases. Current applications of tau biomarkers, including imaging, cerebrospinal fluid, and blood-based assays, assist in the evaluation and diagnosis of tauopathies. Emerging research is providing various potential strategies to prevent cellular toxicity caused by tau aggregation such as: 1) suppressing toxic tau aggregation, 2) preventing post-translational modifications of tau, 3) stabilizing microtubules and 4) designing tau-directed immunogens. This review aims to discuss the role of tau in tauopathies along with neuropathological features of the different tauopathies and the new developments in treating tau aggregation with the therapeutics for treating and possibly preventing tauopathies. [Display omitted] • Tau phosphorylation dynamics in physiological and pathological conditions contribute to neurodegeneration in tauopathies. • Neurofibrillary tangles of tau protein drive the pathology of diverse neurodegenerative diseases. • Tau's role in AD, FTDP-17, PSP, CTE, PiD, and corticobasal degeneration highlights its clinical significance. • Therapeutic strategies target tau aggregation, microtubule stability, PTMs, and tau immunotherapies. [ABSTRACT FROM AUTHOR]

Published

2025

33. A novel phosphodiesterase 5 inhibitor, RF26, improves memory impairment and ameliorates tau aggregation and neuroinflammation in the P301S tauopathy mouse model of Alzheimer's disease.

Author

El-desouky, Sara, Abdel-Halim, Mohammad, Fathalla, Reem K., Abadi, Ashraf H., Piazza, Gary A., Salama, Mohamed, El-khodery, Sabry Ahmed, Youssef, Mohamed A., and Elfarrash, Sara

Subjects

*ALZHEIMER'S disease, *PHOSPHODIESTERASE inhibitors, *SECOND messengers (Biochemistry), *TAUOPATHIES, *PHOSPHODIESTERASE-5 inhibitors

Abstract

Phosphodiesterase-5 (PDE5) inhibitors are primarily used in the treatment of erectile dysfunction and pulmonary hypertension, but have also been reported to have a potential therapeutic effect for the treatment of Alzheimer's disease (AD). This is likely to be through stimulation of nitric oxide (NO)/cyclic guanosine monophosphate (cGMP) signaling by elevating cGMP, a secondary messenger involved in processes of neuroplasticity. In the present study, we evaluated the efficacy of a novel PDE5 inhibitor, RF26, using P301S tauopathy mice model. A body of experimental evidence suggests that the development of tau inclusions leads to the neurodegeneration observed in tauopathies, including AD, Frontotemporal dementia (FTD), Supranuclear palsy and others. RF26 successfully targeted NO/cGMP signaling pathway and showed a significant improvement of spatial memory task performance of P301S mice using Morris Water Maze and T-maze. Furthermore, RF26 -treated mice showed a significant reduction of phosphorylated tau load, gliosis and downregulated pro-inflammatory cytokines. The presented data support the efficacy of RF26 as a potent PDE5 inhibitor and calls for further investigation as a potential therapeutic drug for Alzheimer's and other tauopathy related neurological disorders. • The novel PDE5i - RF26- successfully targets NO/cGMP signaling pathway and improved spatial memory task performance of P301S mice. • RF26 treated mice showed a significant reduction of phosphorylated tau load. • RF26 treatment of P301S mice showed synaptic protein expression improvement. • RF26 treated mice demonstrated reduction of pro-inflammatory cytokines expression and gliosis. [ABSTRACT FROM AUTHOR]

Published

2025

34. Synthesis and preclinical evaluation of diarylamine derivative as Tau-PET radiotracer for Alzheimer's Disease.

Author

Liu, Tianqing, Ren, Chao, Guo, Wantong, Zhang, Xiaojun, Li, Yuying, Wang, Yan, Zhang, Qilei, Chen, Baian, Dai, Jiapei, Yan, Xiao-xin, Zhang, Jinming, Huo, Li, and Cui, Mengchao

Subjects

*ALZHEIMER'S disease, *MONOAMINE oxidase, *TAUOPATHIES, *POSITRON emission tomography, *LEAD compounds, *RADIOACTIVE tracers

Abstract

The presence of aggregated Tau in the brain is a dominant pathological hallmark of Tauopathies, particularly in Alzheimer's disease (AD). Therefore, developing ligands that can specifically and sensitively bind to Tau aggregates is essential for diagnosing and monitoring therapeutic interventions. In this study, we further investigated the structural optimization of the diarylamine skeleton, which exhibited promising binding characteristics and biological properties. We supplementarily explored the effects of the number and position of nitrogen atoms, types of heteroatoms and aromatic moieties, and radioactive positions on affinity for Tau. Through a structure-activity relationship (SAR) analysis based on 125I-labeled diarylamine derivatives, [125I] A6 was identified as a lead compound due to its desirable binding properties and ability to penetrate the brain, making it suitable for conversion into a18F-labeled PET tracer. Satisfactorily, [18F] FA1 fulfilled critical requirements as a Tau radiotracer, demonstrating high specificity and selectivity for Tau, a clean off-target profile against Aβ plaques and monoamine oxidase B (MAO-B), and favorable in vivo brain kinetics, as confirmed by dynamic PET studies in rodents and non-human primates. [Display omitted] • Specific Tau-PET probes aid in accurate diagnosis and understanding of AD pathogenesis. • Further medicinal optimization of diarylamine skeleton was performed by 19 125I-labeled probes. • [18F] FA1 exhibited high affinity and specificity to Tau, and good in vivo properties in monkey. • Discovery of [18F] FA1 expanded the potential of diarylamine skeleton as Tau-PET imaging agents. [ABSTRACT FROM AUTHOR]

Published

2025

35. Protein tau phosphorylation in the proline rich region and its implication in the progression of Alzheimer's disease.

Author

Merino-Serrais, Paula, Soria, José Miguel, Arrabal, Cristina Aguirre, Ortigado-López, Alfonso, Esparza, María Ángeles García, Muñoz, Alberto, Hernández, Félix, Ávila, Jesús, DeFelipe, Javier, and León-Espinosa, Gonzalo

Subjects

*PYRAMIDAL neurons, *TAU proteins, *ALZHEIMER'S disease, *TAUOPATHIES, *TRANSGENIC mice

Abstract

Tau has a wide variety of essential functions in the brain, but this protein also plays a determining role in the development of Alzheimer's disease (AD) and other neurodegenerative diseases called tauopathies. This is due to its abnormal aggregation and the subsequent formation of neurofibrillary tangles. Tau hyperphosphorylation appears to be a critical step in its transformation into an aggregated protein. However, the exact process, including the cellular events that trigger it, remains unclear. In this study, we employed immunocytochemistry assays on hippocampal sections from AD cases and from tauopathy cases (Braak stage III) with no evidence of cognitive decline, and the P301S mouse model to investigate the colocalization patterns of Tau phosphorylated (p) at specific residues (S202-T205, S214, and T231) within the proline-rich region. Our results show pyramidal neurons in the hippocampus of P301S mice in which Tau is intensely phosphorylated at residues S202 and T205 (recognized by the AT8 antibody), but with no detectable phosphorylation at S214 or T231. These non-colocalizing neurons displayed intensely labeled aggregated pTau deposits distributed through the soma and dendritic processes. However, most of the hippocampal pyramidal neurons are labeled with pTauS214 or pTauT231 antibodies and typically showed a homogeneous and diffuse pTau distribution (not aggregated). This different labeling likely reflects a Tau conformational step, potentially related to the transition from a diffuse tau phosphorylation phenotype (Type 2) into an NFT-like or Type 1 phenotype. We further observed that dendrites of CA3 pyramidal cells are intensely labeled with pTau214 in the stratum lucidum , but not with AT8 or pTauT231. By contrast, analysis of tissue from AD patients or other human tauopathy cases (Braak stage III) with no evidence of cognitive decline revealed extensive colocalization with both antibody combinations in CA1. The complete or mature tangle development may follow a different mechanism in the P301S mouse model or may require more time to achieve the maturity state found in AD cases. Further studies would be necessary to address this question. • Pyramidal neurons in the HC of P301S mice containing aggregated pTau (labeled with the AT8 antibody), are not recognized by other PRR-directed pTau antibodies (pTauS214 and pTauT231). • Apical dendrites of CA3 neurons in the P301S mice model are specifically and intensely labeled with the pTau214 antibody in the stratum lucidum. • The advanced state of NFT formation found in tauopathy human cases may not be achievable in P301S mice, irrespective of their age. • There is a total colocalization between S214/AT8 and T231/AT8 phospho Tau antibodies in human tauopathy cases in CA1, suggesting that the proline rich region 2 is hyperphosphorylated. [ABSTRACT FROM AUTHOR]

Published

2025

36. Deciphering the role of TYK2 in tau phosphorylation and pathology.

Author

Fröhlich A and Bowles KR

Abstract

Tau phosphorylation plays an essential role in regulating tau's microtubule-stabilizing function, but its hyperphosphorylation drives tauopathies such as Alzheimer's disease (AD). In a recent study, Kim and colleagues decipher that tyrosine kinase 2 (TYK2) phosphorylates tau at tyrosine 29, promoting its stabilization and aggregation by interfering with autophagic clearance, providing novel insights into tau pathology and potential therapeutic strategies., Competing Interests: Declaration of interests The authors declare no competing interests in relation to this work., (Copyright © 2025 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2025

37. A new paradigm for neurodegenerative diseases classification: A clinical perspective.

Author

Giannakis A and Konitsiotis S

Abstract

A vast progress has been made in the understanding of neurodegenerative diseases during the past few years. However, clinical diagnostic accuracy continues to be very low, despite the introduction of various diagnostic tools and repeated revisions of diagnostic criteria. For instance, patients with Alzheimer's disease (AD) may present with symptoms that overlap with other neurodegenerative conditions like dementia with Lewy bodies (DLB), making accurate diagnosis challenging. This diagnostic uncertainty can lead to delayed or incorrect treatment, significantly impacting patients' quality of life and prognosis. Thus, the definite diagnosis still relies on post-mortem pathological findings, placing a significant burden on both clinicians and researchers. As a growing body of evidence indicates, co-pathology seems to be the rule among neurodegenerative diseases. Additionally, a single pathological diagnosis, such as AD, can manifest in various clinical presentations, ranging from predominantly cognitive impairment to significant motor symptoms. Each of these presentations currently requires its own set of complicated diagnostic criteria. Perhaps, the time has come for a much-needed radical revision of existing clinical diagnostic criteria. Inclusion of patients do not neatly fit into existing diagnostic categories for neurodegenerative diseases, in future large-scale, longitudinal studies and/or clinical trials, and systematic assessment of their clinical features and disease progression using machine learning could generate valuable data on patients with mixed pathologies and improve our understanding of how to effectively treat these complex cases., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2025 Elsevier Ltd. All rights reserved.)

Published

2025

38. University of Ulsan Researcher Updates Current Study Findings on Alzheimer Disease (A Proposed Role for Lymphatic Supermicrosurgery in the Management of Alzheimer's Disease: A Primer for Reconstructive Microsurgeons).

Published

2025

39. Data on Alzheimer Disease Reported by Researchers at Hasanuddin University (Rapidly Separable-effervescent Microneedles Containing Crosslinked Pva/ Pvp Polymers for Sustained Transdermal Delivery of Rivastigmine Tartrate: a Promising Approach...).

Published

2025

40. A pathological phosphorylation pattern enhances taucooperativity on microtubules and facilitates tau filamentassembly.

Published

2025

41. A-beta-induced distress of astrocytes triggers Alzheimer disease pathology through non-canonical delta secretase activity.

Published

2025

42. Findings from Qiqihar Medical University Update Understanding of Alzheimer Disease (Neuroprotective Effect of Sinapic Acid In App/ps1 Mouse Model and Pc12 Cells of Alzheimer's Disease Via Activation of Pi3k/akt/gsk3b Signaling Pathways).

Published

2025

43. The Rainwater Charitable Foundation Unveils 2025 Rainwater Prize Winners, Honoring Researchers' Dedication to Primary Tauopathies and Neurodegenerative Diseases.

Published

2025

44. Research from Massachusetts General Hospital Provides New Study Findings on Alzheimer Disease (Rethinking the residual approach: leveraging statistical learning to operationalize cognitive resilience in Alzheimer's disease).

Published

2025

45. The gut-brain connection in Alzheimer's unveiled with X-rays.

Published

2025

46. A new approach to detecting Alzheimer's disease.

Published

2025

47. Cell-type specific profiling of human entorhinal cortex at the onset of Alzheimer's disease neuropathology (Updated February 3, 2025).

Published

2025

48. "Use Of Auranofin As An Inhibitor Of Atypical Protein Kinase C For Treatment Of Neurodegenerative Disorders" in Patent Application Approval Process (USPTO 20250032530).

Published

2025

49. Researchers' Work from Islamic University of Madinah Focuses on Alzheimer Disease (Novel Bis-thiazoles With Pyridine and 1,4-dihydropyridine Linkers As Potential Anti-alzheimer Agents).

Published

2025

50. Researchers from University of Antioquia Detail New Studies and Findings in the Area of Alzheimer Disease (Novel Multipotent Conjugate Bearing Tacrine and Donepezil Motifs With Dual Cholinergic Inhibition and Neuroprotective Properties...).

Published

2025