• Title/Summary/Keyword: Liriodenine

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Effects of Liriodenine on Dopamine Biosynthesis in PC12 Cells (Liriodenine이 PC12 세포중의 Dopamine 생합성에 미치는 영향)

  • Jin, Chun-Mei;Lee, Jae-Joon;Yin, Shou-Yu;Kim, Yu-Mi;Kim, Young-Kyoon;Rhu, Shi-Yong;Lee, Myung-Koo
    • Korean Journal of Pharmacognosy
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    • v.34 no.1 s.132
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    • pp.55-59
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    • 2003
  • The effects of liriodenine, an aporphine isoquinoline alkaloid, on dopamine content in PCl2 cells were investigated. Treatment of PC12 cells with liriodenine decreased dopamine content in a dose-dependent manner (33.6% inhibition at $10\;{\mu}M$ for 12 h). The $IC_{50}$ in value of liriodenine was $8.4\;{\mu}M$. Dopamine content decreased at 3 h and reached a minimal level at 12 h after the exposure to liriodenine. Under these conditions, the activities of tyrosine hydroxylase and aromatic L-amino acid decarboxylase were also inhibited at $10\;{\mu}M$ of liriodenine by 10.1% and 20.2% relative to control, respectively. In addition, liriodenine inhibited the increase in dopamine content induced by L-DOPA Treatments $(50-100\;{\mu}M)$ in PC12 cells. These results suggest that liriodenine inhibited dopamine biosynthesis and L-DOPA-induced increase in dopamine content by reducing the activities of tyrosine hydroxylase and aromatic L- amino acid decarboxylase in PC12 cells.

Inhibitory Effects on Dopamine Biosynthsis and Protective Effect on L-DOPA-induced Neurotoxicity of liriodenine in PC12 cells

  • Jin, Chun-Mei;Lee, Jae-Joon;Yin, Shou-Yu;Kim, Yu-Mi;Yang, You-Jong;Ryu, Si-Yong;Lee, Myung-Koo
    • Proceedings of the PSK Conference
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    • 2003.04a
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    • pp.139.1-139.1
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    • 2003
  • The effects of liriodenine, an aporphine isoquinoline alkaloid, on dopamine biosynthesis and L-DOPA-induced neurotoxicity in PC12 cells were investigated. Treatment of PC12 cells with liriodenine at 10 $\mu\textrm{M}$ showed 33.6% inhibition of dopamine content decreased at 3 h and reached a minimal level at 12 h after the exposure to liriodenine at 10 $\mu\textrm{M}$. (omitted)

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Effects of Aporphine Compounds on Dopamine Biosynthesis in PC12 Cells

  • Jin, Chun-Mei;Lee, Jae-Joon;Yin, Shou-Yu;Kim, Yu-Mi;Lee, Myung-Koo;Ryu, Si-Yong
    • Proceedings of the PSK Conference
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    • 2002.10a
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    • pp.254.1-254.1
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    • 2002
  • The effects of aporplline isoquinoline alkaloids such as liriodenine. anonaine and asimilobine on dopamine biosynthesis in PC12 cells were investigated. Treatment of PC12 cells with liriodenine (10 ${\mu}$M), anonaine (0.05 ${\mu}$M) and asimilobine (0.15 ${\mu}$M) showed 33.6%, 37.7% and 35.1 % inhibition of dopamine content for 12 h. The IC$\sub$50/ values of liriodenine. anonaine and asimilobine were 8.4 ${\mu}$M. 0.05 ${\mu}$M and 0.13 ${\mu}$M. respectively. (omitted)

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In-silico Studies of Boerhavia diffusa (Purnarnava) Phytoconstituents as ACE II Inhibitor: Strategies to Combat COVID-19 and Associated Diseases

  • Rahul Maurya;Thirupataiah Boini;Lakshminarayana Misro;Thulasi Radhakrishnan
    • Natural Product Sciences
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    • v.29 no.2
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    • pp.104-112
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    • 2023
  • COVID-19 caused a catastrophe in human health. People infected with COVID-19 also suffer from various clinical illnesses during and after the infection. The Boerhavia diffusa plant is well known for its antihypertensive activity. ACE-II inhibitors and calcium channel blockers are reported as mechanisms for the antihypertensive activity of B. diffusa phytoconstituents. Various studies have said ACE-II is the virus's binding site to attack host cells. COVID-19 treatment commonly employs a variety of synthetic antiviral and steroidal drugs. As a result, other clinical illnesses, such as hypertension and hyperglycemia, emerge as serious complications. Safe and effective drug delivery is a prime objective of the drug development process. COVID-19 is treated with various herbal treatments; however, they are not widely used due to their low potency. Many herbal plants and formulations are used to treat COVID-19 infection, in which B. diffusa is the most widely used plant. The current study relies on discovering active phytoconstituents with ACE-II inhibitory activity in the B. diffusa plant. As a result, it can be used as a treatment option for patients with COVID-19 and related diseases. Different phytoconstituents of the B. diffusa plant were selected from the reported literature. The activity of phytoconstituents against ACE-II proteins has been studied. Molecular docking and ligand-protein interaction computation tools are used in the in-silico experiment. Physicochemical, drug-likeness, water solubility, lipophilicity, and pharmacokinetic parameters are used to evaluate phytoconstituents. Liriodenine has the best drug-likeness, bioactivity, and binding score characteristics among the selected ligands. The in-silico study aims to find the therapeutic potential of B. diffusa phytoconstituents against ACE-II. Targeting ACE-II also shows an effect against SARS-CoV-2. It can serve as a rationale for designing a drug for patient infected with COVID-19 and associated diseases.