In Silico Modelling, Regulation of Cell Viability and Anti Atherosclerotic Effect in Macrophage by Decaffeinated Coffee and Green Tea Extract

Rachmawati, Ermin; Rohman, S.P. M. Saifur; Sishartami, Lintang Widya; Sargowo, Djanggan; Kalsum, Umi

doi:10.5530/pj.2022.14.7

2022

DOI: 10.5530/pj.2022.14.7

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In Silico Modelling, Regulation of Cell Viability and Anti Atherosclerotic Effect in Macrophage by Decaffeinated Coffee and Green Tea Extract

Ermin Rachmawati¹,

S.P. M. Saifur Rohman²,

Lintang Widya Sishartami³

et al.

Abstract: Background:The evidence of decaffeinated coffee and green tea extract (DCGTE) in amelioration of atherosclerosis through foam cell formation inhibition has not been established. This study tried to predict the potential role of coffee and tea in foam cell inhibition through in silico modelling and to investigate the effect of DCGTE on the viability and regulation of foam cell inhibition effect in macrophage cell. Methods: Prediction of physicochemical properties of secondary metabolite of coffee and tea was co… Show more

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Cited by 2 publications

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Combination of decaffeinated green coffee and decaffeinated green tea ameliorates cardiomyopathy through cardiotrophin-1-dependent expression regulation in a metabolic syndrome rat model: a proposed mechanism

Rohman

Lukitasari

Kholis

et al. 2023

Beni-Suef Univ J Basic Appl Sci

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Background Cardiovascular diseases (CVD) are the primary medical manifestation of metabolic syndrome (MetS). Hypoxia is also involved in the pathogenesis of CVD. Since dietary intervention significantly improved the physiological condition in MetS, the development of functional food to complement conventional medical therapy is essential. Among several standard consumable products, decaffeinated green tea (DGT) and decaffeinated green coffee (DGC) have excellent activity in managing MetS-induced CVD. However, the mechanism underlying their protective activity is poorly understood. This study aimed to understand the cardio-protective activity of DGT, DGC, and a combination of the two (DGT + DGC) in managing MetS-induced CVD in vivo and in silico. Results The MetS condition led to the upregulation of Cardiotrophin-1 (CT-1), Signal Transducer and Activator of Transcription 3 (STAT3), GATA binding protein 4 (GATA4), and B-type Natriuretic Peptide (BNP) beyond the levels of the normal (N) group, while administration of DGT, DGC, and DGT + DGC significantly decreased the expression of those genes compared with the levels of the N group (p < 0.05). The computational analysis showed that the protective role of DGT, DGC, and DGT + DGC might be achieved through AKT1 inhibition by several bioactive components present in DGT and DGC. The analysis also defined the improvement in cardio-protective activity by combining DGT and DGC. Conclusions The administration of DGT, DGC, or DGT + DGC repaired cardiac dysfunction parameters through indirect regulation of the CT-1 signaling axis by inhibiting AKT1 activity.

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Combination of decaffeinated green coffee and decaffeinated green tea ameliorates cardiomyopathy through cardiotrophin-1-dependent expression regulation in a metabolic syndrome rat model: a proposed mechanism

Rohman

Lukitasari

Kholis

et al. 2023

Beni-Suef Univ J Basic Appl Sci

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Immunomodulatory and Anti-inflammatory effects of Camellia sinensis Extract on RAW 264.7 Mouse Macrophage Cell Lines

Hikmah Harun,

Husna Mohd Khir,

Tajudin Tuan Johari

2024

RJPT

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Macrophages are essential components of the innate immune system that assist in treating or preventing immune-related diseases. Recently, synthetic medications are frequently used to address these aberrant disorders but presented several undesirable side effects. Camellia sinensis or also known as tea tree has the potential of becoming an immunomodulatory agent based on the previous researches that had been done. However, there has been no scientific data related to the immunomodulatory and anti-inflammatory activities of the plant on the normal model and lipopolysaccharides (LPS) induced model of RAW264.7 mouse macrophage cell lines. Hence, this in vitro study will determine the immunomodulatory effects of the plant on the innate immune responses of macrophages. Briefly, the effects of the plant extract were conducted after 24 hours of treatment on cytotoxicity and migration activities of normal and LPS-stimulated macrophages by using MTT assay and wound closure method, respectively. The results present that there was no significant difference in viability percentage and morphological changes between the treated cells and untreated cells in both models indicated no cytotoxicity effects. In addition, the results show the presence of migration activities in both models after the treatment with the C. sinensis extract. The rate of migration along with the wound closure percentage of normal model of macrophages had increased significantly in the treatment of C. sinensis extract as compared to the untreated macrophages for normal and LPS-induced macrophages. Overall, the current findings of this research suggested that the C. sinensis aqueous extract was able to induce innate immune responses of normal model and LPS-induced model of the macrophages. Therefore, this plant can be potentially developed in future as immunomodulatory agent to treat various immune-related diseases. Though, further studies were needed for the validation of the findings through various experimental studies in the future.

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In Silico Modelling, Regulation of Cell Viability and Anti Atherosclerotic Effect in Macrophage by Decaffeinated Coffee and Green Tea Extract

Cited by 2 publications

References 33 publications

Combination of decaffeinated green coffee and decaffeinated green tea ameliorates cardiomyopathy through cardiotrophin-1-dependent expression regulation in a metabolic syndrome rat model: a proposed mechanism

Combination of decaffeinated green coffee and decaffeinated green tea ameliorates cardiomyopathy through cardiotrophin-1-dependent expression regulation in a metabolic syndrome rat model: a proposed mechanism

Immunomodulatory and Anti-inflammatory effects of Camellia sinensis Extract on RAW 264.7 Mouse Macrophage Cell Lines

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