ANALISIS POTENSI SENYAWA GOLONGAN FLAVONOID DAN XANTHONE DARI BERBAGAI EKSTRAK TUMBUHAN INDONESIA SEBAGAI INHIBITOR MEK1 DAN ERK2 MENGGUNAKAN PENDEKATAN MOLECULAR DOCKING
Cancer is a disease in which some of the body’s cells grow uncontrollably and spread to surrounding tissues. This phenomenon is the result of accumulation of multiple DNA mutations in cancer cells. One of the most deregulated pathways in cancer is the classical MAPK pathway, which is hyperactive...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/61370 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Cancer is a disease in which some of the body’s cells grow uncontrollably and
spread to surrounding tissues. This phenomenon is the result of accumulation of
multiple DNA mutations in cancer cells. One of the most deregulated pathways in
cancer is the classical MAPK pathway, which is hyperactive and is responsible for
40% of human cancers. MEK1 is a direct activator of the ERK1/2 protein, which
plays an important role in the process activation of many transcription factors
involved in the expression of regulatory proteins for cell proliferation and survival.
Currently there are alrady commercial anticancer drugs, for-instance trametinib and
ulixertinib, which can inhibit MEK1 and ERK2 specifically. However, both drugs
is can cause unwanted side effects. Therefore, the search for MEK1 and ERK2
inhibitors that have lower side effects is still being carried out. Bioactive
compounds extracted from plants, such as flavonoids and xanthones, have been
tested on various cell lines and have good potential anticancer activity with low
toxicity. In this study, flavonoid and xanthone compounds, namely alpha
mangostin, artonin e, artonin o, bractatin, calotetrapterins b, cochinchinone c,
cryptocaryone, garcinone d, infectocaryone, and morellic acid, were tested in silico
through the molecular docking method with the aim to find out the potential and to
predict mechanism of inhibition against MEK1 and ERK2 through the formed
interactions. Molecular docking simulations were performed using Autodock Vina
1.1.2. The docking simulation results were visualized using Pymol and the
inhibition mechanism was analyzed using Ligplot+ v.2.2. The results showed that
artonin o and alpha mangostin had the potential to be MEK1 and ERK2 inhibitors,
with binding affinity values of 10.7; 8.8 kcal/mol and -9.6; -9.5 kcal/mol.
Cryptocaryone are also known to have potential as MEK1 inhibitors with a binding
affinity value of -9.2 kcal/mol, while calotetrapteins b compounds have potential as
ERK2 inhibitors with a binding affinity value of -9.9 kcal/mol. Hydrogen bond and
hydrophobic interactions with important residues, including Lys97, Met143, HRD
motif, DFG motif, Ser212, and the activation segments Leu215, Ile216, Met219,
stabilize the interaction between artonin o, alpha mangostin, and cryptocaryone in
MEK1. Furthermore, the stabilization of interaction between artonin o, alpha
mangostin and calotetrapterins b on ERK2 occurs due to hydrogen and hydrophobic
interactions at the Lys54 and Asp167 residues. In summary, artonin o and alpha
mangostin may inhibit MEK1 and ERK2 simultaneously, cryptocaryone and
calotetrapterins have potential to inhibit MEK1 and ERK2 respectively. The results
of this study can provide an initial reference for the development of MEK1 and
ERK2 inhibitors based on natural compounds of the flavonoid and xanthone groups. |
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