Transgenic Tau Mouse Models – Tau[P301L] Mouse Model
Leverage InnoSer’s Tau[P301L] mouse model with progressive, well-characterized Tau pathology for mechanism-driven preclinical efficacy studies
Characteristics of the transgenic Tau[P301L] mouse model of Alzheimer’s disease
The transgenic Tau[P301L] mouse model is a commonly used research model used to evaluate preclinical efficacy of novel anti-tau therapeutics targeting primary tauopathies (Pick’s disease, corticobasal degeneration, progressive supranuclear palsy etc.,) as well as secondary tauopathies like Alzheimer’s disease. As described in the original publication (Terwel et al., 2005), the transgenic Tau[P301L] mice express under the control of mouse Thy-1 promoter human P301L mutation (tau-4R/2N-P301L).
The P301L mutation in the MAPT gene is a well-documented genetic cause of frontotemporal dementia and Parkinsonism linked to chromosome 17 (FTDP-17), in turn leading to development in tau pathology in preclinical mouse models.
Similar to the pathological phenotype of human tauopathies, the Tau[P301L] mouse model is characterized by progressive tau pathology including hyperphosphorylation, tau inclusions, neuronal loss and associated motor and cognitive deficits, highlighting its suitability for preclinical efficacy studies.
✓ Tau[P301L] mice show onset of tau pathology around 7-8 months of age, observed mainly in brain stem and spinal cord, and to lesser extent in midbrain and cerebral cortex with associated neuroinflammation (astrocytosis, microgliosis, neuronal loss)
✓ Tau[P301L] mice show progressive motor phenotype, correlating well with age-dependent hyperphosphorylation and conformational changes of parenchymal Tau
✓ Mice show age-dependent increase of CSF pan-Tau
Take advantage of InnoSer’s expertise, flexibility, and collaborative approach for your research. We support you in identifying new drug candidates, characterizing their pharmacological properties, and conducting rigorous safety and efficacy studies with state-of-the-art behavioral, bioanalytical, and histopathological readouts.
InnoSer has expertise in evaluating multiple Tau therapeutics, including;
Tau vaccines, small molecules, ASOs, anti Tau vaccines, Tau antibodies, immunotherapies.
Example data featuring the Tau[P301L] mouse model of Tauopathies
Western blot analysis of Sarkosyl-insoluble brainstem fractions from the Tau[P301L] mouse model reveals progressive accumulation of phosphorylated Tau species
(A) AT8 (pSer202/pThr205) and (B) AT100 (pThr212/pSer214) antibodies detect increased levels of pathological Tau in 7,5-month-old non-clasping, and especially in 9.3-month-old clasping mice. Data shown as mean ± SEM, N=15 per group.
Tau[P301L] mice show progressive age-related motor deficits
A) Latency to cross a 1-meter beam increases progressively with age in Tau[P301L] mice, indicating worsening motor coordination. (B) Clasping behavior, assessed via daily tail suspension test, shows a significant age-dependent increase in motor impairment. Statistical analysis: Two-way ANOVA — strain: P < 0.01; age: P < 0.001; significant interaction effect. Post-hoc Tukey test: 9-month-old mice significantly differ from all other age groups (P<0.01). Data are presented as mean ± SEM.
Your Alzheimer’s Disease Research Starts Here.
Explore our expertly curated comparison of available mouse models to make faster, data-driven decisions. View example study timeline, recommended readouts, and example data featuring validation datasets across the different mouse models.
Key readouts in the Tau[P301L] mouse model of primary and secondary tauopathies
Key publications in InnoSer’s Tau[P301S] mouse model
Original paper:
- Terwel et al., 2005: Changed conformation of mutant Tau-P301L underlies the moribund tauopathy, absent in progressive, nonlethal axonopathy of Tau-4R/2N transgenic mice. DOI: 10.1074/jbc.M409876200
- Chong et al., 2011: Synaptic dysfunction in hippocampus of transgenic mouse models of Alzheimer’s disease: A multi-electrode array study. DOI: 10.1016/j.nbd.2011.07.006
Therapeutic intervention papers:
- Bright et al. 2015: Human secreted tau increases amyloid-beta production. DOI: 10.1016/j.neurobiolaging.2014.09.007
- Hansen et al. 2016: The GLP-1 receptor agonist liraglutide reduces pathology-specific tau phosphorylation and improves motor function in a transgenic hTauP301L mouse model of tauopathy. DOI: 10.1016/j.brainres.2015.12.052
- Theunis et al. 2013: Efficacy and Safety of A Liposome-Based Vaccine against Protein Tau, Assessed in Tau.P301L Mice That Model Tauopathy. DOI: 10.1371/journal.pone.0072301
Pre-clinical data is listed in the iPierian patent WO 2014/028777
The People Behind Your Research
Sofie Carmans, PhD
Principal Scientist Neurology
Thomas Vogels, PhD
Principal Scientist Neurology
Frequently Asked Questions
How does the Tau[P301L] model compare to the Tau[P301S] mouse model?
Both Tau[P301S] (originally described by Allen et al., 2002) and Tau[P301L] (originally described by Terwell et al., 2005) mouse models feature pathogenic mutations in the human MAPT gene, which are associated with various forms of familial frontotemporal lobar degeneration (FTLD). However, they differ markedly in the development of tau disease pathophysiology and thus, experimental utility.
In the Tau[P301L] model, tau pathology develops more gradually, with more variable and later onset of neurofibrillary tangle–like pathology occurring around 7-8 months of age. In this model, tau pathology is limited to the brain stem (and spinal cord) with a decreasing extent in the midbrain and cerebral cortex. Although Tau[P301L] mice show progressive, age-dependent deficits in motor function (beam walk, clasping phenotype), these are present starting from 7 months of age, with robust, detectable deficits occurring at 9 months of age. This slower disease progression makes the Tau[P301L] model more suitable for longitudinal studies focused on disease evolution, chronic treatment paradigms, and mechanisms underlying progressive tau aggregation.
In contrast, InnoSer’s in-depth characterization of the Tau[P301S] model demonstrates early and robust tau-associated pathology, including pronounced tau hyperphosphorylation and accumulation of insoluble Tau species starting as early as 4.5 months of age and progressing rapidly until 6 months, when widespread and severe pathology is present. Tau pathology extends across cortex, hippocampus, and brainstem, and is accompanied by neuroinflammation and neuronal loss in the spinal cord (van Olst et al., 2020) and superficial layers of the cortex, also measured by the increased Neurofilament Light in plasma and CSF. Robust motor deficits confirmed by InnoSer’s team at 4.5 months of age, and cognitive deficits in Morris water maze performance and age-dependent hippocampal LTP impairment emerging from ~3.5 months of age. This rapid and consistent phenotype enables you to perform reproducible preclinical efficacy and target-engagement studies with short in vivo study timelines.
Taken together, InnoSer generally recommends running efficacy studies in the Tau[P301S] model due to its rapid, consistent and predictable tau pathology and behavioral phenotype, helping you obtain quick preclinical decisions.
The Tau[P301L] model may be better suited for studies requiring extended observation of tauopathy progression.
Has disease modification been demonstrated in the Tau[P301L] mouse model?
Yes, published research has shown that disease modification has been demonstrated in the Tau[P301S] mouse model in preclinical studies evaluating the efficacy of GLP-1 receptor agonist (Hansen et al., 2016), and anti-Tau vaccine (Theunis et al., 2013).
InnoSer’s Available Alzheimer’s Disease Model Types
Amyloid (APP/ AB) Transgenic Mouse Models
InnoSer offers preclinical research services with several different transgenic amyloid models, which recapitulate the plaque pathology of AD.
Transgenic Tau Mouse Models
InnoSer offers unique research services with several different transgenic tau models, which recapitulate the Tau neurofibrillary tangle pathology of AD.
Tau Seeding & Spreading Mouse Models
InnoSer uses an AD brain extract injection model, providing unique preclinical services with a translational model of Tau pathology seeding and spreading.
In Vitro Neurology Assays
Screen your lead candidate compounds using InnoSer’s in vitro neurology assays to progress to preclinical in vivo studies with confidence
InnoSer’s Available Alzheimer’s Disease Mouse Models
Transgenic PS19 Mouse Model
Leverage one of the most widely used mouse models in preclinical research to evaluate the efficacy of your compound targeting tau pathology
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APP[V717I] mouse model
Tau[P301S] Mouse Model
Leverage InnoSer’s proprietary Tau[P301S] mouse model with reproducible and aggressive Tau pathology for fast, decision-driven preclinical efficacy studies
![APP[V717I] x PS1[A246E] mouse model](https://www.innoserlaboratories.com/wp-content/uploads/2026/05/APPV717I-x-PS1A246E-mouse-model.png)
APP[V717I] x PS1[A246E] mouse model
Test the efficacy of therapies targeting amyloid-beta accumulation, neuroinflammation, and cognitive impairment in an early-onset amyloidosis transgenic APPxPS1 Alzheimer’s disease model
![Tau[P301L] Mouse Model](https://www.innoserlaboratories.com/wp-content/uploads/2026/05/TauP301L-Mouse-Model.png)
Tau[P301L] Mouse Model
Leverage InnoSer’s Tau[P301L] mouse model with progressive, well-characterized Tau pathology for mechanism-driven preclinical efficacy studies
Transgenic APP x PS1 ARTE10 mouse model
Advance your amyloid-lowering therapeutic program by leveraging the widespread amyloid-beta pathology of the ARTE10 mouse model for robust preclinical efficacy studies
![APP[V717I] x Tau[P301S] mouse model, european neurology CRO specialists](https://www.innoserlaboratories.com/wp-content/uploads/2026/05/APPV717I-x-TauP301S-mouse-model.png)
APP[V717I] x Tau[P301S] mouse model
Evaluate multi-target therapeutics in InnoSer’s combined APPxTau disease model
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