Uncovering the anti-breast cancer activity potential of east Kalimantan propolis by In vitro and bioinformatics analysis

Uncovering the anti-breast cancer activity potential of east Kalimantan propolis by In vitro and bioinformatics analysis

Numerous side effects of breast cancer drugs have prompted researchers to explore more into new therapeutic approaches derived from natural substances. In this context, our study focused on uncovering the potential of East Kalimantan propolis from Trigona apicalis for breast cancer treatment includi...

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Veröffentlicht in:Heliyon 2024-07, Vol.10 (13), p.e33636, Article e33636
Hauptverfasser: Mariana Kustiawan, Paula, Siregar, Khalish Arsy Al Khairy, Syaifie, Putri Hawa, Zein Muttaqin, Fauzan, Ibadillah, Delfritama, Miftah Jauhar, Muhammad, Djamas, Nailulkamal, Mardliyati, Etik, Taufiqu Rochman, Nurul
Format: Artikel
Sprache:eng
Schlagworte:
bioinformatics
Borneo
Breast cancer
breast neoplasms
cancer therapy
chrysin
cytotoxicity
data collection
doxorubicin
energy
ethanol
ethyl acetate
gene expression
microarray technology
MM-GBSA
MMP9
Molecular docking
Molecular dynamic
molecular dynamics
pharmacology
Propolis
protein-protein interactions
quercetin
Trigona
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container_end_page
container_issue 13
container_start_page e33636
container_title Heliyon
container_volume 10
creator Mariana Kustiawan, Paula
Siregar, Khalish Arsy Al Khairy
Syaifie, Putri Hawa
Zein Muttaqin, Fauzan
Ibadillah, Delfritama
Miftah Jauhar, Muhammad
Djamas, Nailulkamal
Mardliyati, Etik
Taufiqu Rochman, Nurul
description Numerous side effects of breast cancer drugs have prompted researchers to explore more into new therapeutic approaches derived from natural substances. In this context, our study focused on uncovering the potential of East Kalimantan propolis from Trigona apicalis for breast cancer treatment including the underlying mechanisms through bioinformatics approached. We conducted integrated in vitro and bioinformatics analysis of network pharmacology, molecular docking, molecular dynamics and MM-GBSA analysis. Initially, in vitro cytotoxic assay demonstrated the anti-breast cancer activity potential of ethanol extract of East Kalimantan propolis, particularly its ethyl acetate fraction, which exhibited similar activity to doxorubicin, as indicated by their IC50 value. This study revealed eight propolis compounds, consisting of flavonoids and phenolic acids, in East Kalimantan propolis. By integrating microarray datasets (GSE29431, GSE36295, and GSE42568) analysis with potential targets derived from propolis compounds, 39 shared target genes were identified. Subsequently, GO and KEGG pathway, protein–protein interaction (PPI) network, core hub genes and gene expression analysis revealed three major targets, namely, PTGS2, CXCL2, and MMP9. Among them, only MMP9 was highly expressed in breast cancer than normal. Moreover, molecular docking revealed the six of propolis compounds which exhibited pronounced binding affinity towards MMP-9, better than marimastat as control drug. Dynamic simulation confirmed the stability of chrysin and quercetin as best compounds. Additionally, MM-GBSA analysis revealed a relative binding energy for chrysin (−25.6403 kcal/mol) that was comparable to marimastat (−27.3827 kcal/mol). In conclusion, this study reveals how East Kalimantan Propolis affect breast cancer and emphasizes MMP9 as a key target for future therapeutics.
doi_str_mv 10.1016/j.heliyon.2024.e33636
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Subsequently, GO and KEGG pathway, protein–protein interaction (PPI) network, core hub genes and gene expression analysis revealed three major targets, namely, PTGS2, CXCL2, and MMP9. Among them, only MMP9 was highly expressed in breast cancer than normal. Moreover, molecular docking revealed the six of propolis compounds which exhibited pronounced binding affinity towards MMP-9, better than marimastat as control drug. Dynamic simulation confirmed the stability of chrysin and quercetin as best compounds. Additionally, MM-GBSA analysis revealed a relative binding energy for chrysin (−25.6403 kcal/mol) that was comparable to marimastat (−27.3827 kcal/mol). 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In this context, our study focused on uncovering the potential of East Kalimantan propolis from Trigona apicalis for breast cancer treatment including the underlying mechanisms through bioinformatics approached. We conducted integrated in vitro and bioinformatics analysis of network pharmacology, molecular docking, molecular dynamics and MM-GBSA analysis. Initially, in vitro cytotoxic assay demonstrated the anti-breast cancer activity potential of ethanol extract of East Kalimantan propolis, particularly its ethyl acetate fraction, which exhibited similar activity to doxorubicin, as indicated by their IC50 value. This study revealed eight propolis compounds, consisting of flavonoids and phenolic acids, in East Kalimantan propolis. By integrating microarray datasets (GSE29431, GSE36295, and GSE42568) analysis with potential targets derived from propolis compounds, 39 shared target genes were identified. Subsequently, GO and KEGG pathway, protein–protein interaction (PPI) network, core hub genes and gene expression analysis revealed three major targets, namely, PTGS2, CXCL2, and MMP9. Among them, only MMP9 was highly expressed in breast cancer than normal. Moreover, molecular docking revealed the six of propolis compounds which exhibited pronounced binding affinity towards MMP-9, better than marimastat as control drug. Dynamic simulation confirmed the stability of chrysin and quercetin as best compounds. Additionally, MM-GBSA analysis revealed a relative binding energy for chrysin (−25.6403 kcal/mol) that was comparable to marimastat (−27.3827 kcal/mol). 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subjects bioinformatics
Borneo
Breast cancer
breast neoplasms
cancer therapy
chrysin
cytotoxicity
data collection
doxorubicin
energy
ethanol
ethyl acetate
gene expression
microarray technology
MM-GBSA
MMP9
Molecular docking
Molecular dynamic
molecular dynamics
pharmacology
Propolis
protein-protein interactions
quercetin
Trigona
title Uncovering the anti-breast cancer activity potential of east Kalimantan propolis by In vitro and bioinformatics analysis
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