Authors :
T. Priyanka; D. Muthu Krishnan; C. Shanmuga Priya; A.Sateesh Kumar
Volume/Issue :
Volume 9 - 2024, Issue 4 - April
Google Scholar :
https://tinyurl.com/y3bt7f8a
Scribd :
https://tinyurl.com/mrkfrfun
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24APR1113
Abstract :
Background:
Kannir sirandha urupillai... which means no organ
is better than eye. Eye health and treatment have held
significant importance in the Siddha system of medicine
since ancient times, emphasizing the holistic approach to
well-being encompassing physical, mental, and spiritual
aspects. Eye disease is classified into 96 types and their
ethology, treatment method, preventive measures all are
explained in many of the Siddha literature. Among them
cataract is one of the leading cause of blindness which is
characterised by clouding of eye’s natural lens, leading
to blurry, foggy or flimy vision. This paper will
elaborates about the docking analysis of poly herbal
formulation Ibadhy chooranam against Human aldose
reductase enzyme for cataract.
Aim & Objective:
The aim of this study is to investigate the potential
efficacy of the polyherbal formulation
IbadhyChooranam in preventing or treating cataracts
through molecular docking analysis of its interactions
with the human aldose reductase enzyme.
Methodology:
Docking simulations were conducted for the
extracted phytoconstituents of IbadhyChooranam
against the Human Aldose Reductase Enzyme.
AutoDock tools were utilized to incorporate hydrogen
atoms, Coleman united atom type charges, and solvation
parameters. The docking process employed the
Lamarckian genetic algorithm along with the Solis &
Wets Local Search method to simulate ligand-receptor
interactions.
Result:
The current study revealed that phytochemicals
present in IbadhyChooranam, including Nerolidol,
Ellagic acid, Phyllanthin, Costunolide, Embelin,
Cyperolone, Zingiberene, Piperic acid, Piperine, and
Lupeol, exhibited between 6 to 9 significant interactions
with residual amino acids in the aldose reductase
enzyme. In comparison, the standard drug Epalrestat
demonstrated 8 viable interactions with the residual
amino acids of the aldose reductase enzyme.
Conclusion:
According to the computational analysis findings, it
can be inferred that the bioactive compounds present in
IbadhyChooranam exhibit notable binding affinity
towards the target aldose reductase enzyme. Ibadhy
chooranam inhibit the function of aldose reductase
enzyme which delay the sorbitol accumulation and
subsequent cataract development. Through this study, it
was also justified that the Ibadhy chooranam possess
significant anti-cataract activity.
Keywords :
Ibadhy Chooranam, Cataract, Kann Kasam, Siddha Medicine, Kann Noigal.
Background:
Kannir sirandha urupillai... which means no organ
is better than eye. Eye health and treatment have held
significant importance in the Siddha system of medicine
since ancient times, emphasizing the holistic approach to
well-being encompassing physical, mental, and spiritual
aspects. Eye disease is classified into 96 types and their
ethology, treatment method, preventive measures all are
explained in many of the Siddha literature. Among them
cataract is one of the leading cause of blindness which is
characterised by clouding of eye’s natural lens, leading
to blurry, foggy or flimy vision. This paper will
elaborates about the docking analysis of poly herbal
formulation Ibadhy chooranam against Human aldose
reductase enzyme for cataract.
Aim & Objective:
The aim of this study is to investigate the potential
efficacy of the polyherbal formulation
IbadhyChooranam in preventing or treating cataracts
through molecular docking analysis of its interactions
with the human aldose reductase enzyme.
Methodology:
Docking simulations were conducted for the
extracted phytoconstituents of IbadhyChooranam
against the Human Aldose Reductase Enzyme.
AutoDock tools were utilized to incorporate hydrogen
atoms, Coleman united atom type charges, and solvation
parameters. The docking process employed the
Lamarckian genetic algorithm along with the Solis &
Wets Local Search method to simulate ligand-receptor
interactions.
Result:
The current study revealed that phytochemicals
present in IbadhyChooranam, including Nerolidol,
Ellagic acid, Phyllanthin, Costunolide, Embelin,
Cyperolone, Zingiberene, Piperic acid, Piperine, and
Lupeol, exhibited between 6 to 9 significant interactions
with residual amino acids in the aldose reductase
enzyme. In comparison, the standard drug Epalrestat
demonstrated 8 viable interactions with the residual
amino acids of the aldose reductase enzyme.
Conclusion:
According to the computational analysis findings, it
can be inferred that the bioactive compounds present in
IbadhyChooranam exhibit notable binding affinity
towards the target aldose reductase enzyme. Ibadhy
chooranam inhibit the function of aldose reductase
enzyme which delay the sorbitol accumulation and
subsequent cataract development. Through this study, it
was also justified that the Ibadhy chooranam possess
significant anti-cataract activity.
Keywords :
Ibadhy Chooranam, Cataract, Kann Kasam, Siddha Medicine, Kann Noigal.