Keluwih (Artocarpus camansi) extract effects in zebrafish models of Parkinson’s disease

Keluwih (Artocarpus camansi) extract effects in zebrafish models of Parkinson’s disease

Parkinson’s disease is a condition that affects the central nervous system in the brain and is brought on by a lack of dopamine. Uncontrollable tremors, uncoordinated movement, and stiffness characterize Parkinson’s disease. Until now, the medication for Parkinson’s disease is limited to relieve the...

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Main Authors: Marisca Evalina Gondokesumo, Krisyanti Budipramana, Putu Dea Angelita Putri, Ni Putu Diah Nopitasari, Martanty Aditya, Liza Yudistira Yusan
Format: Article
Language:Indonesian
Published: Poltekkes Kemenkes Yogyakarta 2023-05-01
Series:Jurnal Teknologi Laboratorium
Subjects:
keluwih
zebrafish
parkinson
rotenone
dopamine
Online Access:https://teknolabjournal.com/index.php/Jtl/article/view/406
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author Marisca Evalina Gondokesumo
Krisyanti Budipramana
Putu Dea Angelita Putri
Ni Putu Diah Nopitasari
Martanty Aditya
Liza Yudistira Yusan
author_facet Marisca Evalina Gondokesumo
Krisyanti Budipramana
Putu Dea Angelita Putri
Ni Putu Diah Nopitasari
Martanty Aditya
Liza Yudistira Yusan
author_sort Marisca Evalina Gondokesumo
collection DOAJ
description Parkinson’s disease is a condition that affects the central nervous system in the brain and is brought on by a lack of dopamine. Uncontrollable tremors, uncoordinated movement, and stiffness characterize Parkinson’s disease. Until now, the medication for Parkinson’s disease is limited to relieve the symptoms and maintain the quality of life; thus, the progression of the disease can be delayed. In order to search for alternative therapy from herbs, Kluwih (Artocarpus camansi) has been used traditionally to relieve convulsants. This research aims to observe 96% ethanol extract of A. camansi leaves in dopamine and locomotor activity in adult male and female zebrafish (Dario rerio). The A. camansi extract concentration was 2.5; 5; 7.5; and 10 mg/ml for 28 days. Zebrafish locomotion was observed for 5 minutes on days 0; 7; 14; 21; and 28. ELISA measured the observations of dopamine after 28 days. The 96% ethanol extract of A. camansi leaves at 5 mg/ml can increase dopamine levels after induced with rotenone, but the dopamine level decreased at 7,5 and 10 mg/ml. The maximal concentration to increase locomotor activity is also at 5 mg/ml, along with dopamine concentration. Our findings revealed that 5 mg/ml of 96% ethanol extract of A. camansi leaves was the optimal dosage to stimulate dopamine release and enhance locomotor activity.
format Article
id doaj-art-7a72afa9f7014984b9cd1c00a34eae87
institution Kabale University
issn 2338-5634
2580-0191
language Indonesian
publishDate 2023-05-01
publisher Poltekkes Kemenkes Yogyakarta
record_format Article
series Jurnal Teknologi Laboratorium
spelling doaj-art-7a72afa9f7014984b9cd1c00a34eae872025-01-03T15:40:13ZindPoltekkes Kemenkes YogyakartaJurnal Teknologi Laboratorium2338-56342580-01912023-05-01121142210.29238/teknolabjournal.v12i1.406358Keluwih (Artocarpus camansi) extract effects in zebrafish models of Parkinson’s diseaseMarisca Evalina Gondokesumo0Krisyanti Budipramana1Putu Dea Angelita Putri2Ni Putu Diah Nopitasari3Martanty Aditya4Liza Yudistira Yusan5University of SurabayaUniversity of SurabayaUniversity of SurabayaUniversity of SurabayaMa Chung UniversityHang Tuah UniversityParkinson’s disease is a condition that affects the central nervous system in the brain and is brought on by a lack of dopamine. Uncontrollable tremors, uncoordinated movement, and stiffness characterize Parkinson’s disease. Until now, the medication for Parkinson’s disease is limited to relieve the symptoms and maintain the quality of life; thus, the progression of the disease can be delayed. In order to search for alternative therapy from herbs, Kluwih (Artocarpus camansi) has been used traditionally to relieve convulsants. This research aims to observe 96% ethanol extract of A. camansi leaves in dopamine and locomotor activity in adult male and female zebrafish (Dario rerio). The A. camansi extract concentration was 2.5; 5; 7.5; and 10 mg/ml for 28 days. Zebrafish locomotion was observed for 5 minutes on days 0; 7; 14; 21; and 28. ELISA measured the observations of dopamine after 28 days. The 96% ethanol extract of A. camansi leaves at 5 mg/ml can increase dopamine levels after induced with rotenone, but the dopamine level decreased at 7,5 and 10 mg/ml. The maximal concentration to increase locomotor activity is also at 5 mg/ml, along with dopamine concentration. Our findings revealed that 5 mg/ml of 96% ethanol extract of A. camansi leaves was the optimal dosage to stimulate dopamine release and enhance locomotor activity.https://teknolabjournal.com/index.php/Jtl/article/view/406keluwihzebrafishparkinsonrotenonedopamine
spellingShingle Marisca Evalina Gondokesumo
Krisyanti Budipramana
Putu Dea Angelita Putri
Ni Putu Diah Nopitasari
Martanty Aditya
Liza Yudistira Yusan
Keluwih (Artocarpus camansi) extract effects in zebrafish models of Parkinson’s disease
Jurnal Teknologi Laboratorium
keluwih
zebrafish
parkinson
rotenone
dopamine
title Keluwih (Artocarpus camansi) extract effects in zebrafish models of Parkinson’s disease
title_full Keluwih (Artocarpus camansi) extract effects in zebrafish models of Parkinson’s disease
title_fullStr Keluwih (Artocarpus camansi) extract effects in zebrafish models of Parkinson’s disease
title_full_unstemmed Keluwih (Artocarpus camansi) extract effects in zebrafish models of Parkinson’s disease
title_short Keluwih (Artocarpus camansi) extract effects in zebrafish models of Parkinson’s disease
title_sort keluwih artocarpus camansi extract effects in zebrafish models of parkinson s disease
topic keluwih
zebrafish
parkinson
rotenone
dopamine
url https://teknolabjournal.com/index.php/Jtl/article/view/406
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AT putudeaangelitaputri keluwihartocarpuscamansiextracteffectsinzebrafishmodelsofparkinsonsdisease
AT niputudiahnopitasari keluwihartocarpuscamansiextracteffectsinzebrafishmodelsofparkinsonsdisease
AT martantyaditya keluwihartocarpuscamansiextracteffectsinzebrafishmodelsofparkinsonsdisease
AT lizayudistirayusan keluwihartocarpuscamansiextracteffectsinzebrafishmodelsofparkinsonsdisease

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