Alzheimer therapy with an antibody against N-terminal Abeta 4-X and pyroglutamate Abeta 3-X

Antonios, Gregory; Borgers, H; Richard, Bernhard Clemens; Brauß, Andreas; Meißner, Julius N.; Weggen, Sascha; Peña, Vladimir; Pillot, Thierry; Davies, Sarah L.; Bakrania, Preeti; Matthews, David J.; Brownlees, Janet; Bouter, Yvonne; Bayer, Thomas A.

doi:10.1038/srep17338

Cited by 38 publications

(82 citation statements)

References 42 publications

(73 reference statements)

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“…Otherwise, therapeutic intervention studies with a monoclonal antibody or with enriched housing conditions were able to reduce hippocampal neuron loss and showed a rescue of spatial reference memory deficits in homozygous Tg4-42 mice. These data would rather indicate that the observed phenotype of homozygous Tg4-42 mice is caused by the Aβ4-42 transgene 7,10 . Another conclusion from the current work is that it should be obligatory to analyse a possible treatment effect in more than one Alzheimer's disease mouse model.…”

Section: Discussionmentioning

confidence: 97%

“…Additionally, this increased physical activity caused decreased neuron loss which resulted in a higher number of CA1 pyramidal cells 7 . A weekly treatment with the full-length or Fab fragment of a monoclonal antibody directed against Aß4-42 also showed the ability to completely rescue spatial reference memory deficits and significantly stabilized neuron numbers in 6 month old homozygous Tg4-42 mice 10 .…”

mentioning

confidence: 93%

“…hippocampal neuron loss is only observed in a few models [4][5][6][7][8][9] . For this reason, we further characterized the previously described Tg4-42 mouse model, as it develops neuronal loss and therefore represents a promising model for the development of new drugs or drug efficacy studies 10 . Homozygous Tg4-42 mice are characterized by an age depended, massive CA1 pyramidal neuronal loss in the hippocampus.…”

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confidence: 99%

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Transgene integration causes RARB downregulation in homozygous Tg4–42 mice

Hinteregger

Loeffler

Flunkert

et al. 2020

Sci Rep

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Alzheimer's disease can be modelled by different transgenic mouse strains. To gain deeper insight into disease model mechanisms, the previously described Tg4-42 mouse was analysed for transgene integration. On RNA/DNA level the transgene integration resulted in more than 20 copy numbers and further caused a deletion of exon 2 of the retinoic acid receptor beta. These findings were also confirmed on protein level with highly decreased retinoic acid receptor beta protein levels in homozygous Tg4-42 mice and may have an impact on the previously described phenotype of homozygous Tg4-42 mice to be solely dependent on amyloid-ß 4-42 expression. Since hemizygous mice show no changes in RARB protein levels it can be concluded that the previously described phenotype of these mice should not be affected by the retinoic acid receptor beta gene knockout. In order to fully understand the results of transgenesis, it is extremely advisable to determine the genome integration site and the basic structure of the inserted transgenes. This can be carried out for instance by next-generation sequencing techniques. Our results thus suggest that a detailed characterization of new disease models using the latest genomics technologies prior to functional studies could be a valuable tool to avoid an unexpected genetic influence on the animals' phenotype that is not only based on the inserted transgene. This would also significantly improve the selection of mouse models that are best suited for therapeutic development and basic research.

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Section: Discussionmentioning

confidence: 97%

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confidence: 93%

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confidence: 99%

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Transgene integration causes RARB downregulation in homozygous Tg4–42 mice

Hinteregger

Loeffler

Flunkert

et al. 2020

Sci Rep

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“…Bayer and co‐workers have found that Aβ 4‐40 and Aβ 4‐42 possessed similar toxicity comparable to Aβ 1‐42 in vitro and in model mice . By utilizing a monoclonal antibody (NT4X) for Aβ 4‐ x , they confirmed the existence of Aβ 4‐ x in 5XFAD mice as well as the benefits of treating 5XFAD mice with NT4X . These results suggested that Aβ 4‐ x is worthy of a deep exploration for AD treatment.…”

Section: Introductionmentioning

confidence: 84%

Differential Modulation of the Aggregation of N‐Terminal Truncated Aβ using Cucurbiturils

Gao

Yang

Zhao

et al. 2018

Chemistry A European J

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Modulating the aggregation of Aβ has long been considered to be one of the potential methods to treat Alzheimer's disease (AD). It has been found that different Aβ species, including N-terminal truncated or/and modified Aβ, co-exist in the brain of AD patients. Yet, there is currently little detailed work about the specific modulation of these Aβ species which hinders us to understand their roles in patients' brain. Using thioflavin T (ThT) kinetics and transmission electron microscope, here we showed that cucurbit[7]uril and cucurbit[8]uril could inhibit the aggregation of both Aβ and Aβ through host-guest interactions. Chemical kinetics analysis suggested that this happened through inhibiting the elongation process by binding with fibril ends. In addition, cucurbiturils showed greater capability on the inhibition of Aβ than Aβ , which was possibly due to the N-terminal phenylalanine residue of Aβ . Our work provided new insights for the development of host-guest chemistry based inhibitors for the aggregation of different Aβ species.

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“…For example, in the field of AD, potential mechanisms of disease are still hotly debated with the relative contributions of amyloid plaques and neurofibrillary tangles or other pathways still uncertain (Ballatore, Lee, & Trojanowski, ; Selkoe & Hardy, ). Preclinical proof‐of‐concept testing for antibody‐based therapies largely addressed the plaque burden and molecular load of amyloid‐β within the brains of AD‐related mouse models (Bard et al, ), with some studies also showing therapeutic improvement in learning and memory performance tasks (Antonios et al, ; Dodart et al, ; Wang, Yu, Liu, Zhao, & Xu, ). However, some of the animal model data demonstrated that acute intervention led to changes in learning and memory performance without an appreciable effect on amyloid‐β burden (Dodart et al, ), thereby dissociating the relationship between a pathological hallmark implicated in AD and the expected behavioral improvement.…”

Section: Modeling Neurobehavioral Phenotypes In Genetic Modelsmentioning

confidence: 99%

Genetic rodent models of brain disorders: Perspectives on experimental approaches and therapeutic strategies

McGraw

Ward

Samaco

2017

American J of Med Genetics Pt C

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Neurobehavioral disorders comprised of neurodegenerative, neurodevelopmental and psychiatric disorders together represent leading causes of morbidity and mortality. Despite significant academic research and industry efforts to elucidate the disease mechanisms operative in these disorders and to develop mechanism-based therapies, our understanding remains incomplete and our access to tractable therapeutic interventions severely limited. The magnitude of these short-comings can be measured by the growing list of disappointing clinical trials based on initially promising compounds identified in genetic animal models. This review and commentary will explore why this may be so, focusing on the central role that genetic models of neurobehavioral disorders have come to occupy in current efforts to identify disease mechanisms and therapies. In particular, we will highlight the unique pitfalls and challenges that have hampered success in these models as compared to genetic models of non-neurological diseases as well as to symptom-based models of the early 20th century that led to the discovery of all major classes of psychoactive pharmaceutical compounds still used today. Using examples from specific genetic rodent models of human neurobehavioral disorders, we will highlight issues of reproducibility, construct validity, and translational relevance in the hopes that these examples will be instructive towards greater success in future endeavors. Lastly, we will champion a two-pronged approach towards identifying novel therapies for neurobehavioral disorders that makes greater use of the historically more successful symptom-based approaches in addition to more mechanism-based approaches.

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Alzheimer therapy with an antibody against N-terminal Abeta 4-X and pyroglutamate Abeta 3-X

Cited by 38 publications

References 42 publications

Transgene integration causes RARB downregulation in homozygous Tg4–42 mice

Transgene integration causes RARB downregulation in homozygous Tg4–42 mice

Differential Modulation of the Aggregation of N‐Terminal Truncated Aβ using Cucurbiturils

Genetic rodent models of brain disorders: Perspectives on experimental approaches and therapeutic strategies

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