Spruce Needle Polyprenols Protect Against Atorvastatin-Induced Muscle Weakness and do not Influence Central Nervous System Functions in Rats

Spruce Needle Polyprenols Protect Against Atorvastatin-Induced Muscle Weakness and do not Influence Central Nervous System Functions in Rats

Polyprenols (PPs) have been identified in almost all living organisms. The richest source of PPs is the needles of conifer trees. Endogenously, PPs, similarly to cholesterol, are synthesised in human and animal cells via the mevalonate pathway. Previous studies have demonstrated the anti-oxidant pro...

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Main Authors: Jansone Baiba, Dzirkale Zane, Jekabsons Kaspars, Pilipenko Vladimirs, Beitnere Ulrika, Māgure Ingrīda, Skumbiņš Raimonds, Klētnieks Uģis, Vanaga Ilona, Muceniece Ruta, Kluša Vija
Format: Article
Language:English
Published: Sciendo 2016-02-01
Series:Proceedings of the Latvian Academy of Sciences. Section B, Natural Sciences
Subjects:
polyprenols
atorvastatin
muscle strength
behaviour
Online Access:https://doi.org/10.1515/prolas-2016-0003
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spelling doaj-e387d92c46f94db78d28bd2f4e54921f2021-09-05T13:59:54ZengSciendoProceedings of the Latvian Academy of Sciences. Section B, Natural Sciences1407-009X2016-02-01701132010.1515/prolas-2016-0003prolas-2016-0003Spruce Needle Polyprenols Protect Against Atorvastatin-Induced Muscle Weakness and do not Influence Central Nervous System Functions in RatsJansone Baiba0Dzirkale Zane1Jekabsons Kaspars2Pilipenko Vladimirs3Beitnere Ulrika4Māgure Ingrīda5Skumbiņš Raimonds6Klētnieks Uģis7Vanaga Ilona8Muceniece Ruta9Kluša Vija10 Faculty of Medicine, University of Latvia, Raiņa bulv. 19, Rīga, LV-1586, LATVIA Faculty of Medicine, University of Latvia, Raiņa bulv. 19, Rīga, LV-1586, LATVIA Faculty of Medicine, University of Latvia, Raiņa bulv. 19, Rīga, LV-1586, LATVIA Faculty of Medicine, University of Latvia, Raiņa bulv. 19, Rīga, LV-1586, LATVIA Faculty of Medicine, University of Latvia, Raiņa bulv. 19, Rīga, LV-1586, LATVIA Faculty of Medicine, University of Latvia, Raiņa bulv. 19, Rīga, LV-1586, LATVIA Faculty of Medicine, University of Latvia, Raiņa bulv. 19, Rīga, LV-1586, LATVIA Silvanols Ltd., Kurbada iela 2A, Rīga, LV-1009, LATVIA Pharma and Chemistry Competence Centre of Latvia Ltd., Dzirnavu iela 93-27, Rīga, LV-1006, LATVIA Faculty of Medicine, University of Latvia, Raiņa bulv. 19, Rīga, LV-1586, LATVIA Faculty of Medicine, University of Latvia, Raiņa bulv. 19, Rīga, LV-1586, LATVIAPolyprenols (PPs) have been identified in almost all living organisms. The richest source of PPs is the needles of conifer trees. Endogenously, PPs, similarly to cholesterol, are synthesised in human and animal cells via the mevalonate pathway. Previous studies have demonstrated the anti-oxidant properties of PPs. To our knowledge, no studies have been published on the influence of PPs on muscle strength. We hypothesised that administration of PPs could prevent changes in muscle functioning caused by statins (weakness, etc.). In the present study, atorvastatin (80 mg/kg) was used as a model compound. PPs at doses 1, 10 and 20 mg/kg were administered. Both drugs were given per os for 16 days. The influence of atorvastatin, PPs and their combination on behaviour, muscle strength, plasma cholesterol and creatine kinase activity was assessed in female Wistar rats. Our data demonstrated that atorvastatin considerably impaired muscle strength, whereas PPs protected that effect. Neither PPs, nor atorvastatin influenced plasma cholesterol levels, whereas PPs at dose 20 mg/kg elevated creatine kinase activity by about 25%. PPs at the tested doses did not alter behaviour, indicating safety of central nervous system functions. The obtained data suggest usefulness of PPs as a complement in statin therapy to reduce muscle-related side effects.https://doi.org/10.1515/prolas-2016-0003polyprenolsatorvastatinmuscle strengthbehaviour
collection DOAJ
language English
format Article
sources DOAJ
author Jansone Baiba
Dzirkale Zane
Jekabsons Kaspars
Pilipenko Vladimirs
Beitnere Ulrika
Māgure Ingrīda
Skumbiņš Raimonds
Klētnieks Uģis
Vanaga Ilona
Muceniece Ruta
Kluša Vija
spellingShingle Jansone Baiba
Dzirkale Zane
Jekabsons Kaspars
Pilipenko Vladimirs
Beitnere Ulrika
Māgure Ingrīda
Skumbiņš Raimonds
Klētnieks Uģis
Vanaga Ilona
Muceniece Ruta
Kluša Vija
Spruce Needle Polyprenols Protect Against Atorvastatin-Induced Muscle Weakness and do not Influence Central Nervous System Functions in Rats
Proceedings of the Latvian Academy of Sciences. Section B, Natural Sciences
polyprenols
atorvastatin
muscle strength
behaviour
author_facet Jansone Baiba
Dzirkale Zane
Jekabsons Kaspars
Pilipenko Vladimirs
Beitnere Ulrika
Māgure Ingrīda
Skumbiņš Raimonds
Klētnieks Uģis
Vanaga Ilona
Muceniece Ruta
Kluša Vija
author_sort Jansone Baiba
title Spruce Needle Polyprenols Protect Against Atorvastatin-Induced Muscle Weakness and do not Influence Central Nervous System Functions in Rats
title_short Spruce Needle Polyprenols Protect Against Atorvastatin-Induced Muscle Weakness and do not Influence Central Nervous System Functions in Rats
title_full Spruce Needle Polyprenols Protect Against Atorvastatin-Induced Muscle Weakness and do not Influence Central Nervous System Functions in Rats
title_fullStr Spruce Needle Polyprenols Protect Against Atorvastatin-Induced Muscle Weakness and do not Influence Central Nervous System Functions in Rats
title_full_unstemmed Spruce Needle Polyprenols Protect Against Atorvastatin-Induced Muscle Weakness and do not Influence Central Nervous System Functions in Rats
title_sort spruce needle polyprenols protect against atorvastatin-induced muscle weakness and do not influence central nervous system functions in rats
publisher Sciendo
series Proceedings of the Latvian Academy of Sciences. Section B, Natural Sciences
issn 1407-009X
publishDate 2016-02-01
description Polyprenols (PPs) have been identified in almost all living organisms. The richest source of PPs is the needles of conifer trees. Endogenously, PPs, similarly to cholesterol, are synthesised in human and animal cells via the mevalonate pathway. Previous studies have demonstrated the anti-oxidant properties of PPs. To our knowledge, no studies have been published on the influence of PPs on muscle strength. We hypothesised that administration of PPs could prevent changes in muscle functioning caused by statins (weakness, etc.). In the present study, atorvastatin (80 mg/kg) was used as a model compound. PPs at doses 1, 10 and 20 mg/kg were administered. Both drugs were given per os for 16 days. The influence of atorvastatin, PPs and their combination on behaviour, muscle strength, plasma cholesterol and creatine kinase activity was assessed in female Wistar rats. Our data demonstrated that atorvastatin considerably impaired muscle strength, whereas PPs protected that effect. Neither PPs, nor atorvastatin influenced plasma cholesterol levels, whereas PPs at dose 20 mg/kg elevated creatine kinase activity by about 25%. PPs at the tested doses did not alter behaviour, indicating safety of central nervous system functions. The obtained data suggest usefulness of PPs as a complement in statin therapy to reduce muscle-related side effects.
topic polyprenols
atorvastatin
muscle strength
behaviour
url https://doi.org/10.1515/prolas-2016-0003
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