Nikolić-Kokić, Aleksandra


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Authority Key	Name Variants
d0ebacc1-8ae7-4afd-af80-202bc51bb8c1	Nikolić-Kokić, Aleksandra (3)

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Molecular mechanisms of redox signalling in homeostasis: adaptation and pathology	Ministry of Education, Science and Technological Development, Republic of Serbia, Grant no. 451-03-68/2020-14/200161 (University of Belgrade, Faculty of Pharmacy)
TheSwedish Brain Foundation grant number FO2021-0314 to MIS andMMJ

Author's Bibliography

The humanised CYP2C19 transgenic mouse exhibits cerebellar atrophy and movement impairment reminiscent of ataxia

Milosavljević, Filip; Brusini, Irene; Atanasov, Andrea; Manojlović, Marina; Vučić, Marija; Oreščanin-Dušić, Zorana; Brkljačić, Jelena; Miljević, Čedo; Nikolić-Kokić, Aleksandra; Blagojević, Duško; Wang, Chunliang; Damberg, Peter; Pešić, Vesna; Tyndale, Rachel F.; Ingelman-Sundberg, Magnus; Jukić, Marin

(John Wiley and Sons Inc, 2023)

TY  - JOUR
AU  - Milosavljević, Filip
AU  - Brusini, Irene
AU  - Atanasov, Andrea
AU  - Manojlović, Marina
AU  - Vučić, Marija
AU  - Oreščanin-Dušić, Zorana
AU  - Brkljačić, Jelena
AU  - Miljević, Čedo
AU  - Nikolić-Kokić, Aleksandra
AU  - Blagojević, Duško
AU  - Wang, Chunliang
AU  - Damberg, Peter
AU  - Pešić, Vesna
AU  - Tyndale, Rachel F.
AU  - Ingelman-Sundberg, Magnus
AU  - Jukić, Marin
PY  - 2023
UR  - https://farfar.pharmacy.bg.ac.rs/handle/123456789/4516
AB  - Aims: CYP2C19 transgenic mouse expresses the human CYP2C19 gene in the liver and developing brain, and it exhibits altered neurodevelopment associated with impairments in emotionality and locomotion. Because the validation of new animal models is essential for the understanding of the aetiology and pathophysiology of movement disorders, the objective was to characterise motoric phenotype in CYP2C19 transgenic mice and to investigate its validity as a new animal model of ataxia. Methods: The rotarod, paw-print and beam-walking tests were utilised to characterise the motoric phenotype. The volumes of 20 brain regions in CYP2C19 transgenic and wild-type mice were quantified by 9.4T gadolinium-enhanced post-mortem structural neuroimaging. Antioxidative enzymatic activity was quantified biochemically. Dopaminergic alterations were characterised by chromatographic quantification of concentrations of dopamine and its metabolites and by subsequent immunohistochemical analyses. The beam-walking test was repeated after the treatment with dopamine receptor antagonists ecopipam and raclopride. Results: CYP2C19 transgenic mice exhibit abnormal, unilateral ataxia-like gait, clasping reflex and 5.6-fold more paw-slips in the beam-walking test; the motoric phenotype was more pronounced in youth. Transgenic mice exhibited a profound reduction of 12% in cerebellar volume and a moderate reduction of 4% in hippocampal volume; both regions exhibited an increased antioxidative enzyme activity. CYP2C19 mice were hyperdopaminergic; however, the motoric impairment was not ameliorated by dopamine receptor antagonists, and there was no alteration in the number of midbrain dopaminergic neurons in CYP2C19 mice. Conclusions: Humanised CYP2C19 transgenic mice exhibit altered gait and functional motoric impairments; this phenotype is likely caused by an aberrant cerebellar development.
PB  - John Wiley and Sons Inc
T2  - Neuropathology and Applied Neurobiology
T1  - The humanised CYP2C19 transgenic mouse exhibits cerebellar atrophy and movement impairment reminiscent of ataxia
VL  - 49
IS  - 1
DO  - 10.1111/nan.12867
ER  -

@article{
author = "Milosavljević, Filip and Brusini, Irene and Atanasov, Andrea and Manojlović, Marina and Vučić, Marija and Oreščanin-Dušić, Zorana and Brkljačić, Jelena and Miljević, Čedo and Nikolić-Kokić, Aleksandra and Blagojević, Duško and Wang, Chunliang and Damberg, Peter and Pešić, Vesna and Tyndale, Rachel F. and Ingelman-Sundberg, Magnus and Jukić, Marin",
year = "2023",
abstract = "Aims: CYP2C19 transgenic mouse expresses the human CYP2C19 gene in the liver and developing brain, and it exhibits altered neurodevelopment associated with impairments in emotionality and locomotion. Because the validation of new animal models is essential for the understanding of the aetiology and pathophysiology of movement disorders, the objective was to characterise motoric phenotype in CYP2C19 transgenic mice and to investigate its validity as a new animal model of ataxia. Methods: The rotarod, paw-print and beam-walking tests were utilised to characterise the motoric phenotype. The volumes of 20 brain regions in CYP2C19 transgenic and wild-type mice were quantified by 9.4T gadolinium-enhanced post-mortem structural neuroimaging. Antioxidative enzymatic activity was quantified biochemically. Dopaminergic alterations were characterised by chromatographic quantification of concentrations of dopamine and its metabolites and by subsequent immunohistochemical analyses. The beam-walking test was repeated after the treatment with dopamine receptor antagonists ecopipam and raclopride. Results: CYP2C19 transgenic mice exhibit abnormal, unilateral ataxia-like gait, clasping reflex and 5.6-fold more paw-slips in the beam-walking test; the motoric phenotype was more pronounced in youth. Transgenic mice exhibited a profound reduction of 12% in cerebellar volume and a moderate reduction of 4% in hippocampal volume; both regions exhibited an increased antioxidative enzyme activity. CYP2C19 mice were hyperdopaminergic; however, the motoric impairment was not ameliorated by dopamine receptor antagonists, and there was no alteration in the number of midbrain dopaminergic neurons in CYP2C19 mice. Conclusions: Humanised CYP2C19 transgenic mice exhibit altered gait and functional motoric impairments; this phenotype is likely caused by an aberrant cerebellar development.",
publisher = "John Wiley and Sons Inc",
journal = "Neuropathology and Applied Neurobiology",
title = "The humanised CYP2C19 transgenic mouse exhibits cerebellar atrophy and movement impairment reminiscent of ataxia",
volume = "49",
number = "1",
doi = "10.1111/nan.12867"
}

Milosavljević, F., Brusini, I., Atanasov, A., Manojlović, M., Vučić, M., Oreščanin-Dušić, Z., Brkljačić, J., Miljević, Č., Nikolić-Kokić, A., Blagojević, D., Wang, C., Damberg, P., Pešić, V., Tyndale, R. F., Ingelman-Sundberg, M.,& Jukić, M.. (2023). The humanised CYP2C19 transgenic mouse exhibits cerebellar atrophy and movement impairment reminiscent of ataxia. in Neuropathology and Applied Neurobiology
John Wiley and Sons Inc., 49(1).
https://doi.org/10.1111/nan.12867

Milosavljević F, Brusini I, Atanasov A, Manojlović M, Vučić M, Oreščanin-Dušić Z, Brkljačić J, Miljević Č, Nikolić-Kokić A, Blagojević D, Wang C, Damberg P, Pešić V, Tyndale RF, Ingelman-Sundberg M, Jukić M. The humanised CYP2C19 transgenic mouse exhibits cerebellar atrophy and movement impairment reminiscent of ataxia. in Neuropathology and Applied Neurobiology. 2023;49(1).
doi:10.1111/nan.12867 .

Milosavljević, Filip, Brusini, Irene, Atanasov, Andrea, Manojlović, Marina, Vučić, Marija, Oreščanin-Dušić, Zorana, Brkljačić, Jelena, Miljević, Čedo, Nikolić-Kokić, Aleksandra, Blagojević, Duško, Wang, Chunliang, Damberg, Peter, Pešić, Vesna, Tyndale, Rachel F., Ingelman-Sundberg, Magnus, Jukić, Marin, "The humanised CYP2C19 transgenic mouse exhibits cerebellar atrophy and movement impairment reminiscent of ataxia" in Neuropathology and Applied Neurobiology, 49, no. 1 (2023),
https://doi.org/10.1111/nan.12867 . .

Humanized CYP2C19 transgenic mouse as an animal model of cerebellar ataxia

Milosavljević, Filip; Brusini, Irene; Atanasov, Andrea; Manojlović, Marina; Vučić, Marija; Oreščanin-Dušić, Zorana; Brkljačić, Jelena; Sitarica, Pavle; Miljević, Čedo; Nikolić-Kokić, Aleksandra; Blagojević, Duško; Wang, Chunliang; Damberg, Peter; Pešić, Vesna; Tyndale, Rachel; Ingelman-Sundberg, Magnus; Jukić, Marin

(Elsevier, 2022)

TY  - CONF
AU  - Milosavljević, Filip
AU  - Brusini, Irene
AU  - Atanasov, Andrea
AU  - Manojlović, Marina
AU  - Vučić, Marija
AU  - Oreščanin-Dušić, Zorana
AU  - Brkljačić, Jelena
AU  - Sitarica, Pavle
AU  - Miljević, Čedo
AU  - Nikolić-Kokić, Aleksandra
AU  - Blagojević, Duško
AU  - Wang, Chunliang
AU  - Damberg, Peter
AU  - Pešić, Vesna
AU  - Tyndale, Rachel
AU  - Ingelman-Sundberg, Magnus
AU  - Jukić, Marin
PY  - 2022
UR  - https://farfar.pharmacy.bg.ac.rs/handle/123456789/4729
AB  - Background: Animal models are essential for understanding aetiology and pathophysiology of movement disorders. Previously, it had been found that mice transgenic for the human CYP2C19 gene, which is expressed in the liver and developing brain, exhibit altered neurodevelopment associated with impairments of their motor function and emotionality [1, 2]. The aim of this study was to characterize motoric phenotype of the CYP2C19 transgenic mouse and validate its potential usefulness as an animal model for ataxia.

Methods: Experiments were performed on CYP2C19 transgenic mice and control wild-type littermate mice. Body weight of mice was measured between the 21st and 42nd postnatal day. Mouse gait was analysed with footprint test [3] in young animals at four time points and once in adult mice. The maximal height of hindpaw elevation while walking was measured offline from the video footage of the footprint test. Motoric function was quantified by the rotarod and beam-walking tests. Structural differences in 20 brain regions of wild-type and transgenic mice were investigated with 9.4T gadolinium-enhanced postmortem neuroimaging. Antioxidative enzyme status was determined in the brain tissue in order to assess potential differences in the brain oxidative-antioxidative balance between wild-type and transgenic mice. When multiple brain regions or multiple antioxidant enzyme activities were analysed, p-values were FDR corrected for multiple comparisons.

Results: CYP2C19 transgenic (TG) animals exhibited approximately 5-10% reduced body weight (p=0.015) during 3rd and 4th postnatal week, while after postnatal day 31, the differences in the body weight were no longer statistically significant. The TG animals exhibited approximately two fold higher maximal hindpaw elevation in young (2.1-fold [CI95%: 2.0, 2.2], p<0.0001) and adult mice (1.9-fold [CI95%: 1.8, 2.1], p<0.0001), compared to wild-types. In the 5th postnatal week, all transgenic mice exhibited increase in elevation of both hindpaws, while after this point they gradually started exhibiting unilateral phenotype until almost all (49 of 51) animals became unilaterally affected in the adulthood. Footprint analysis and rotarod test did not detect significant differences (p>0.1) between TG and control mice in any of the analysed parameters, accounting for all examined time points. CYP2C19 transgenic mice exhibited 14% increase in beam crossing time (14%, [95%CI: 6.4, 22], p=0.0014) and 5.6-fold more paw-slips (p<0.0001, n=89) in the beam-walking test. CYP2C19 transgenic mice exhibited profound reduction in cerebellar volume (-11.8% [95%CI: -14.7, -9.0], q<0.0001, n=59) and moderate reduction in hippocampal volume (-4.2% [95%CI: -6.4%, -1.9%], q=0.015, n=59); compared to the corresponding volumes measured in WT mice. Superoxide dismutase activity was slightly increased (1.14-fold [CI95%: 1.06, 1.23], p=0.0010, q=0.023) in the cerebelli and moderately increased (1.3-fold, [CI95%: 1.18, 1.47], p<0.0001, q=0.0013) in the hippocampi of transgenic mice compared to wild-types, while glutathione reductase activity was significantly increased (1.2-fold [CI95%: 1.13, 1.35], p<0.0001, q=0.0021) in the hippocampi of TG mice.

Conclusions: Humanized CYP2C19 transgenic mice exhibit altered motoric function, functional motoric impairments and reduced cerebellar volume. CYP2C19 transgenic mice can be a useful tool for the studies focused on understanding the physiology of cerebellar development, as well as aetiology and pathophysiology of cerebellum-related disorders.
PB  - Elsevier
C3  - Neuroscience Applied
T1  - Humanized CYP2C19 transgenic mouse as an animal model of cerebellar ataxia
VL  - 1
IS  - Supplement 2
SP  - 64
EP  - 64
DO  - 10.1016/j.nsa.2022.100236
ER  -

@conference{
author = "Milosavljević, Filip and Brusini, Irene and Atanasov, Andrea and Manojlović, Marina and Vučić, Marija and Oreščanin-Dušić, Zorana and Brkljačić, Jelena and Sitarica, Pavle and Miljević, Čedo and Nikolić-Kokić, Aleksandra and Blagojević, Duško and Wang, Chunliang and Damberg, Peter and Pešić, Vesna and Tyndale, Rachel and Ingelman-Sundberg, Magnus and Jukić, Marin",
year = "2022",
abstract = "Background: Animal models are essential for understanding aetiology and pathophysiology of movement disorders. Previously, it had been found that mice transgenic for the human CYP2C19 gene, which is expressed in the liver and developing brain, exhibit altered neurodevelopment associated with impairments of their motor function and emotionality [1, 2]. The aim of this study was to characterize motoric phenotype of the CYP2C19 transgenic mouse and validate its potential usefulness as an animal model for ataxia.

Methods: Experiments were performed on CYP2C19 transgenic mice and control wild-type littermate mice. Body weight of mice was measured between the 21st and 42nd postnatal day. Mouse gait was analysed with footprint test [3] in young animals at four time points and once in adult mice. The maximal height of hindpaw elevation while walking was measured offline from the video footage of the footprint test. Motoric function was quantified by the rotarod and beam-walking tests. Structural differences in 20 brain regions of wild-type and transgenic mice were investigated with 9.4T gadolinium-enhanced postmortem neuroimaging. Antioxidative enzyme status was determined in the brain tissue in order to assess potential differences in the brain oxidative-antioxidative balance between wild-type and transgenic mice. When multiple brain regions or multiple antioxidant enzyme activities were analysed, p-values were FDR corrected for multiple comparisons.

Results: CYP2C19 transgenic (TG) animals exhibited approximately 5-10% reduced body weight (p=0.015) during 3rd and 4th postnatal week, while after postnatal day 31, the differences in the body weight were no longer statistically significant. The TG animals exhibited approximately two fold higher maximal hindpaw elevation in young (2.1-fold [CI95%: 2.0, 2.2], p<0.0001) and adult mice (1.9-fold [CI95%: 1.8, 2.1], p<0.0001), compared to wild-types. In the 5th postnatal week, all transgenic mice exhibited increase in elevation of both hindpaws, while after this point they gradually started exhibiting unilateral phenotype until almost all (49 of 51) animals became unilaterally affected in the adulthood. Footprint analysis and rotarod test did not detect significant differences (p>0.1) between TG and control mice in any of the analysed parameters, accounting for all examined time points. CYP2C19 transgenic mice exhibited 14% increase in beam crossing time (14%, [95%CI: 6.4, 22], p=0.0014) and 5.6-fold more paw-slips (p<0.0001, n=89) in the beam-walking test. CYP2C19 transgenic mice exhibited profound reduction in cerebellar volume (-11.8% [95%CI: -14.7, -9.0], q<0.0001, n=59) and moderate reduction in hippocampal volume (-4.2% [95%CI: -6.4%, -1.9%], q=0.015, n=59); compared to the corresponding volumes measured in WT mice. Superoxide dismutase activity was slightly increased (1.14-fold [CI95%: 1.06, 1.23], p=0.0010, q=0.023) in the cerebelli and moderately increased (1.3-fold, [CI95%: 1.18, 1.47], p<0.0001, q=0.0013) in the hippocampi of transgenic mice compared to wild-types, while glutathione reductase activity was significantly increased (1.2-fold [CI95%: 1.13, 1.35], p<0.0001, q=0.0021) in the hippocampi of TG mice.

Conclusions: Humanized CYP2C19 transgenic mice exhibit altered motoric function, functional motoric impairments and reduced cerebellar volume. CYP2C19 transgenic mice can be a useful tool for the studies focused on understanding the physiology of cerebellar development, as well as aetiology and pathophysiology of cerebellum-related disorders.",
publisher = "Elsevier",
journal = "Neuroscience Applied",
title = "Humanized CYP2C19 transgenic mouse as an animal model of cerebellar ataxia",
volume = "1",
number = "Supplement 2",
pages = "64-64",
doi = "10.1016/j.nsa.2022.100236"
}

Milosavljević, F., Brusini, I., Atanasov, A., Manojlović, M., Vučić, M., Oreščanin-Dušić, Z., Brkljačić, J., Sitarica, P., Miljević, Č., Nikolić-Kokić, A., Blagojević, D., Wang, C., Damberg, P., Pešić, V., Tyndale, R., Ingelman-Sundberg, M.,& Jukić, M.. (2022). Humanized CYP2C19 transgenic mouse as an animal model of cerebellar ataxia. in Neuroscience Applied
Elsevier., 1(Supplement 2), 64-64.
https://doi.org/10.1016/j.nsa.2022.100236

Milosavljević F, Brusini I, Atanasov A, Manojlović M, Vučić M, Oreščanin-Dušić Z, Brkljačić J, Sitarica P, Miljević Č, Nikolić-Kokić A, Blagojević D, Wang C, Damberg P, Pešić V, Tyndale R, Ingelman-Sundberg M, Jukić M. Humanized CYP2C19 transgenic mouse as an animal model of cerebellar ataxia. in Neuroscience Applied. 2022;1(Supplement 2):64-64.
doi:10.1016/j.nsa.2022.100236 .

Milosavljević, Filip, Brusini, Irene, Atanasov, Andrea, Manojlović, Marina, Vučić, Marija, Oreščanin-Dušić, Zorana, Brkljačić, Jelena, Sitarica, Pavle, Miljević, Čedo, Nikolić-Kokić, Aleksandra, Blagojević, Duško, Wang, Chunliang, Damberg, Peter, Pešić, Vesna, Tyndale, Rachel, Ingelman-Sundberg, Magnus, Jukić, Marin, "Humanized CYP2C19 transgenic mouse as an animal model of cerebellar ataxia" in Neuroscience Applied, 1, no. Supplement 2 (2022):64-64,
https://doi.org/10.1016/j.nsa.2022.100236 . .

Association between neurological soft signs and antioxidant enzyme activity in schizophrenic patients

Miljević, Čedo D.; Nikolić-Kokić, Aleksandra; Blagojević, Duško; Milovanović, Maja; Munjiza, Ana; Jukić, Marin; Pešić, Vesna; Lecić-Tosevski, Dušica; Spasić, Mihajlo B.

(Elsevier Ireland Ltd, Clare, 2018)

TY  - JOUR
AU  - Miljević, Čedo D.
AU  - Nikolić-Kokić, Aleksandra
AU  - Blagojević, Duško
AU  - Milovanović, Maja
AU  - Munjiza, Ana
AU  - Jukić, Marin
AU  - Pešić, Vesna
AU  - Lecić-Tosevski, Dušica
AU  - Spasić, Mihajlo B.
PY  - 2018
UR  - https://farfar.pharmacy.bg.ac.rs/handle/123456789/3058
AB  - To determine the relationship between alterations in the activity of the enzymes participating in antioxidative defense system and neurological soft signs (NSS) in schizophrenic patients with the first episode psychosis (S-FE, n = 19), patients in relapse (S-R, n = 46), and healthy controls (HC, n = 20). NSS intensity and enzymatic plasma activities of superoxide dismutase (SOD), catalase (CAT), and glutathione peroxidase (GPX) were compared between S-FE, S-R and HC subjects and a follow-up correlation analyses between the enzyme activities and NSS intensity was performed. NSS intensity was increased four times in schizophrenic patients compared with healthy controls. Activities of SOD and CAT were 40% decreased in S-FE and these reductions were ameliorated by antipsychotic treatment. GPX activity was 20% decreased in both patient groups compared with controls. A negative correlation between NSS intensity and GPX activity was specifically found in the S-FE patients. The data in this report argue that a reduction of GPX activity might be one of the causes for the emergence of NSS at the onset of schizophrenia, and provide the evidence that antipsychotic therapy can attenuate activity reductions of SOD and CAT, but not the activity reduction of GPX and the intensity of NSS.
PB  - Elsevier Ireland Ltd, Clare
T2  - Psychoneuroendocrinology
T1  - Association between neurological soft signs and antioxidant enzyme activity in schizophrenic patients
VL  - 269
SP  - 746
EP  - 752
DO  - 10.1016/j.psychres.2018.09.009
ER  -

@article{
author = "Miljević, Čedo D. and Nikolić-Kokić, Aleksandra and Blagojević, Duško and Milovanović, Maja and Munjiza, Ana and Jukić, Marin and Pešić, Vesna and Lecić-Tosevski, Dušica and Spasić, Mihajlo B.",
year = "2018",
abstract = "To determine the relationship between alterations in the activity of the enzymes participating in antioxidative defense system and neurological soft signs (NSS) in schizophrenic patients with the first episode psychosis (S-FE, n = 19), patients in relapse (S-R, n = 46), and healthy controls (HC, n = 20). NSS intensity and enzymatic plasma activities of superoxide dismutase (SOD), catalase (CAT), and glutathione peroxidase (GPX) were compared between S-FE, S-R and HC subjects and a follow-up correlation analyses between the enzyme activities and NSS intensity was performed. NSS intensity was increased four times in schizophrenic patients compared with healthy controls. Activities of SOD and CAT were 40% decreased in S-FE and these reductions were ameliorated by antipsychotic treatment. GPX activity was 20% decreased in both patient groups compared with controls. A negative correlation between NSS intensity and GPX activity was specifically found in the S-FE patients. The data in this report argue that a reduction of GPX activity might be one of the causes for the emergence of NSS at the onset of schizophrenia, and provide the evidence that antipsychotic therapy can attenuate activity reductions of SOD and CAT, but not the activity reduction of GPX and the intensity of NSS.",
publisher = "Elsevier Ireland Ltd, Clare",
journal = "Psychoneuroendocrinology",
title = "Association between neurological soft signs and antioxidant enzyme activity in schizophrenic patients",
volume = "269",
pages = "746-752",
doi = "10.1016/j.psychres.2018.09.009"
}

Miljević, Č. D., Nikolić-Kokić, A., Blagojević, D., Milovanović, M., Munjiza, A., Jukić, M., Pešić, V., Lecić-Tosevski, D.,& Spasić, M. B.. (2018). Association between neurological soft signs and antioxidant enzyme activity in schizophrenic patients. in Psychoneuroendocrinology
Elsevier Ireland Ltd, Clare., 269, 746-752.
https://doi.org/10.1016/j.psychres.2018.09.009

Miljević ČD, Nikolić-Kokić A, Blagojević D, Milovanović M, Munjiza A, Jukić M, Pešić V, Lecić-Tosevski D, Spasić MB. Association between neurological soft signs and antioxidant enzyme activity in schizophrenic patients. in Psychoneuroendocrinology. 2018;269:746-752.
doi:10.1016/j.psychres.2018.09.009 .

Miljević, Čedo D., Nikolić-Kokić, Aleksandra, Blagojević, Duško, Milovanović, Maja, Munjiza, Ana, Jukić, Marin, Pešić, Vesna, Lecić-Tosevski, Dušica, Spasić, Mihajlo B., "Association between neurological soft signs and antioxidant enzyme activity in schizophrenic patients" in Psychoneuroendocrinology, 269 (2018):746-752,
https://doi.org/10.1016/j.psychres.2018.09.009 . .

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