Ajay P Malgi scite author profile

Traditionally, Cananga odorata Hook. F. & Thomson (Ylang-Ylang) is commonly used to treat various diseases and has been assessed for anti-cancer potency in experimental animal models. However, the affinity of its phytocompounds with multiple proteins involved in the pathogenesis of cancer has not been illuminated yet. The present study was framed to elucidate the molecular mechanisms of Cananga odorata for its anticancer activity via compound-gene set pathway enrichment analysis, network pharmacology, and docking studies. Initially, phytocompounds were retrieved from herbs databases and literature. Structural information of each compound was obtained from the PubChem database. Druggable characteristics and side effects were predicted using MolSoft and ADVERpred. ADMET profile was predicted using PreADMET online server. Possible target proteins of each compound were predicted by BindingDB (p≥0.7). Compounds modulating the target proteins associated with the cancer were separated based on the successful and approved targets available in the Therapeutic Target Database. STRING and KEGG pathway database was used to analyze the molecular pathways modulated by the protein targets. The interaction between compounds, proteins, and pathways was constructed by Cytoscape 3.6.1, and docking of compounds with protein target was performed using AutoDock 4.2. Among 26 compounds, 12 phytocompounds were identified to modulate 34 pathways associated with cancer. 4-hydroxy-5,6,7-trimethoxyflavanone and Reticuline showed the maximum interactions with proteins involved in cancer. All 12 compounds obeyed the rule of five and p-methoxybenzaldehyde scored the highest drug-likeness score. Micheline A and Anonaine showed the highest binding affinity with Ubiquitin-protein ligase E3 (MDM2). The current study provides the molecular documentation of phytocompounds from Cananga odorata in the regulation of multi-proteins and pathways associated with progression of cancer (mainly Gastric, Melanoma, Prostate, and Breast cancer), which can be further investigated via wet-lab protocols.

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Anticancer activity of ylang-ylang essential oil in Ehrlich Ascites Carcinoma cell-treated mice

Malgi

Rasal

Patil³

et al. 2020

ijrps

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Essential oils are secondary metabolites contains a complex mixture of with a diverse array of chemical structures, play a crucial role in the management of complex diseases like cancer via synergistic and antagonism effect. essential oil (YYEO) extracted from the flowers of Cananga is renowned forits fragrance, contained more than 150 essential components within it, and utilized in various diseases and cosmetics. Traditionally YYEO is being used as an aphrodisiac, , , antiseptic, in food and beverages as a fragrance agent. Due to the presence of a complex mixture of essential components in YYEO, we aimed the current study to assess the anticancer potential against Ehrlich Carcinoma (EAC) bearing mice. In antioxidant, growth, body weight, biochemical, , and serum estimation was evaluated with subsequent of the liver. 5- (5- FU) was used as a standard drug. YYEO showed potent antioxidant activity by DPPH assay. YYEO significantly reversed the , lymphocytes, WBC, and RBC numbers in the treated group compared with the disease control group. YYEO administration has restored the imbalanced levels of antioxidant such as MDA, GSH, and SOD activity. YYEO reversed the of the liver altered by the EAC in mice. In conclusion, a complex mixture of contained in YYEO could be the potent anticancer therapy in the future. Further studies are needed to identify the active principles and the mechanism involved in this activity.

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In Silico Studies in Predicting Mechanism of Action of Amaranthus tricolor on Alzheimer's Disease

Patil¹,

Hupparage²,

Darasaguppe³

et al. 2022

IJPS

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Ajay P Malgi

Dual inhibition of COVID-19 spike glycoprotein and main protease 3CLpro by Withanone from Withania somnifera

Cananga odorata (Ylang-Ylang) modulate pathways involved in cancer: Gene set enrichment and network pharmacology approach

Anticancer activity of ylang-ylang essential oil in Ehrlich Ascites Carcinoma cell-treated mice

In Silico Studies in Predicting Mechanism of Action of Amaranthus tricolor on Alzheimer's Disease

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