Exploring dual-lipopolysaccharide exposure on schizophrenia-like behavior and the kynurenine pathway in rodent models
Author: Zheng, Yiran
Date: 2023-12-18
Location: Lecture Hall Peter Reichard, Biomedicum, Karolinska Institutet, Solna.
Time: 09.00
Department: Inst för fysiologi och farmakologi / Dept of Physiology and Pharmacology
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Thesis (1.678Mb)
Abstract
Immune activation contributes to the pathophysiology of schizophrenia. The kynurenine pathway, serving as the primary route of tryptophan catabolism, has been posited as a potential link between immune activation and the manifestation of symptoms associated with schizophrenia. We previously demonstrated that the administration of dual-lipopolysaccharide (LPS) treatments induces the kynurenine pathway and elicits behavioral changes reminiscent of schizophrenia symptoms in mice. The dual-LPS treatment model may serve as a valuable tool for studying the effects of immune activation on the progression of schizophrenia. It is worth mentioning that rats and mice, which are frequently employed as laboratory animals in preclinical research, exhibit species-specific disparities in the kynurenine pathway metabolism.
The present thesis aims to further characterize the behavioral effects induced by dual-LPS treatment in both mice and rats and evaluate the feasibility of the dual-LPS treatment model as a schizophrenia-like animal model. Moreover, we aim to investigate the changes in the kynurenine pathway in rats following dual-LPS treatment and explore possible species differences by comparing kynurenine pathway metabolism under physiological conditions and after dual-LPS treatment in both rats and mice. Thus, mice and rats administered dual-LPS treatment were studied for behavioral abnormalities associated with schizophrenia and biochemical changes in the kynurenine pathway metabolism in both the brain and periphery.
Dual-LPS treatment induces behavioral changes associated with symptoms resembling schizophrenia in both rats and mice. In both species, dual-LPS treatment resulted in reduced spontaneous locomotion, heightened locomotion responsiveness to D-amphetamine, and the elicitation of anxiety-like behavior. In mice, dual-LPS treatment induced deficits in associative learning, while in rats, it was shown to impair recognition memory.
Under basal physiological conditions, mice and rats exhibited distinct kynurenine pathway metabolite profiles in the brain, plasma, and liver. Rats consistently displayed higher KYNA/3HK and QUIN/PIC ratios across all brain regions, indicating a predominance of the neuroprotective branch in rats compared to mice under normal physiological conditions.
In both mice and rats, dual-LPS treatment induced the kynurenine pathway, leading to elevated brain KYNA levels. Following dual-LPS treatment, species-specific changes were observed in brain, plasma, and liver tissues, with the most significant difference being the robust induction of QUIN in the mouse brain but not in the rat brain following dual-LPS treatment. Additionally, brain region-specific responses were observed in both species. Our radiochemical detection data confirmed that dual-LPS treatment alters the local kynurenine pathway metabolism in the brain, augmenting the de novo production of brain KYNA and increasing the KYNA/3-HK ratio in the striatum.
The findings presented in this thesis further validate the utility of the dual-LPS model as a promising animal model of schizophrenia. Additionally, the results presented in the thesis comprehensively elucidate species-specific differences in kynurenine pathway metabolism under both physiological conditions and following dual-LPS treatment. These insights bear significant relevance for the selection of appropriate animal models when examining the kynurenine pathway, aiding in animal model selection for related research.
The present thesis aims to further characterize the behavioral effects induced by dual-LPS treatment in both mice and rats and evaluate the feasibility of the dual-LPS treatment model as a schizophrenia-like animal model. Moreover, we aim to investigate the changes in the kynurenine pathway in rats following dual-LPS treatment and explore possible species differences by comparing kynurenine pathway metabolism under physiological conditions and after dual-LPS treatment in both rats and mice. Thus, mice and rats administered dual-LPS treatment were studied for behavioral abnormalities associated with schizophrenia and biochemical changes in the kynurenine pathway metabolism in both the brain and periphery.
Dual-LPS treatment induces behavioral changes associated with symptoms resembling schizophrenia in both rats and mice. In both species, dual-LPS treatment resulted in reduced spontaneous locomotion, heightened locomotion responsiveness to D-amphetamine, and the elicitation of anxiety-like behavior. In mice, dual-LPS treatment induced deficits in associative learning, while in rats, it was shown to impair recognition memory.
Under basal physiological conditions, mice and rats exhibited distinct kynurenine pathway metabolite profiles in the brain, plasma, and liver. Rats consistently displayed higher KYNA/3HK and QUIN/PIC ratios across all brain regions, indicating a predominance of the neuroprotective branch in rats compared to mice under normal physiological conditions.
In both mice and rats, dual-LPS treatment induced the kynurenine pathway, leading to elevated brain KYNA levels. Following dual-LPS treatment, species-specific changes were observed in brain, plasma, and liver tissues, with the most significant difference being the robust induction of QUIN in the mouse brain but not in the rat brain following dual-LPS treatment. Additionally, brain region-specific responses were observed in both species. Our radiochemical detection data confirmed that dual-LPS treatment alters the local kynurenine pathway metabolism in the brain, augmenting the de novo production of brain KYNA and increasing the KYNA/3-HK ratio in the striatum.
The findings presented in this thesis further validate the utility of the dual-LPS model as a promising animal model of schizophrenia. Additionally, the results presented in the thesis comprehensively elucidate species-specific differences in kynurenine pathway metabolism under both physiological conditions and following dual-LPS treatment. These insights bear significant relevance for the selection of appropriate animal models when examining the kynurenine pathway, aiding in animal model selection for related research.
List of papers:
I. Maximilian Tufvesson-Alm, Sophie Imbeault, Xi-Cong Liu, Yiran Zheng, Anthi Faka, Doo-Sup Choi, Lilly Schwieler, Göran Engberg, Sophie Erhardt. Repeated administration of LPS exaggerates amphetamine-induced locomotor response and causes learning deficits in mice. Journal of Neuroimmunology. 2020, Volume 349, 588401.
Fulltext (DOI)
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II. Yi-Ran Zheng, Maximilian Tufvesson-Alm, Ada Trepci, Sophie Imbeault, Xue-Qi Li, Lilly Schwieler, Göran Engberg and Sophie Erhardt. Dual administration of lipopolysaccharide induces behavioral changes in rats relevant to psychotic disorders. Acta Neuropsychiatrica. 2023. [Accepted]
Fulltext (DOI)
Pubmed
View record in Web of Science®
III. Yi-Ran Zheng, Maximilian Tufvesson-Alm, Alex Klausing, Tonali BlancoAyala, Göran Engberg, Lilly Schwieler, Robert Schwarcz, Sophie Erhardt. Comparative analysis of dual-lipopolysaccharide treatment on the induction of the kynurenine pathway in male Sprague-Dawley rats and FVB/N mice. [Manuscript]
I. Maximilian Tufvesson-Alm, Sophie Imbeault, Xi-Cong Liu, Yiran Zheng, Anthi Faka, Doo-Sup Choi, Lilly Schwieler, Göran Engberg, Sophie Erhardt. Repeated administration of LPS exaggerates amphetamine-induced locomotor response and causes learning deficits in mice. Journal of Neuroimmunology. 2020, Volume 349, 588401.
Fulltext (DOI)
Pubmed
View record in Web of Science®
II. Yi-Ran Zheng, Maximilian Tufvesson-Alm, Ada Trepci, Sophie Imbeault, Xue-Qi Li, Lilly Schwieler, Göran Engberg and Sophie Erhardt. Dual administration of lipopolysaccharide induces behavioral changes in rats relevant to psychotic disorders. Acta Neuropsychiatrica. 2023. [Accepted]
Fulltext (DOI)
Pubmed
View record in Web of Science®
III. Yi-Ran Zheng, Maximilian Tufvesson-Alm, Alex Klausing, Tonali BlancoAyala, Göran Engberg, Lilly Schwieler, Robert Schwarcz, Sophie Erhardt. Comparative analysis of dual-lipopolysaccharide treatment on the induction of the kynurenine pathway in male Sprague-Dawley rats and FVB/N mice. [Manuscript]
Institution: Karolinska Institutet
Supervisor: Erhardt, Sophie
Co-supervisor: Schwieler, Lilly; Cervenka, Simon
Issue date: 2023-11-20
Rights:
Publication year: 2023
ISBN: 978-91-8017-210-3
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