Phytoconstituents of Citrus limon (Lemon) as Potential Inhibitors Against Multi Targets of SARS‐CoV‐2 by Use of Molecular Modelling and In Vitro Determination Approaches
Kannan Raman,
Rajagopal Kalirajan,
Fahadul Islam,
Srikanth Jupudi,
Divakar Selvaraj,
Gomathi Swaminathan,
Laliteshwar Pratap Singh,
Ritesh Rana,
Shopnil Akash,
Md. Rezaul Islam,
Firzan Nainu,
Talha Bin Emran,
Turki M. Dawoud,
Mohammed Bourhia,
Musaab Dauelbait,
Rashu Barua
Affiliations
Kannan Raman
Department of Pharmaceutical Chemistry JSS College of Pharmacy JSS Academy of Higher Education & Research Ooty 643001 The Nilgiris, Tamilnadu India
Rajagopal Kalirajan
Department of Pharmaceutical Chemistry JSS College of Pharmacy JSS Academy of Higher Education & Research Ooty 643001 The Nilgiris, Tamilnadu India
Fahadul Islam
Department of Pharmacy Faculty of Allied Health Sciences Daffodil International University Dhaka 1207 Bangladesh
Srikanth Jupudi
Department of Pharmaceutical Chemistry JSS College of Pharmacy JSS Academy of Higher Education & Research Ooty 643001 The Nilgiris, Tamilnadu India
Divakar Selvaraj
Department of Pharmaceutical Chemistry JSS College of Pharmacy JSS Academy of Higher Education & Research Ooty 643001 The Nilgiris, Tamilnadu India
Gomathi Swaminathan
Department of Pharmaceutical Chemistry JSS College of Pharmacy JSS Academy of Higher Education & Research Ooty 643001 The Nilgiris, Tamilnadu India
Laliteshwar Pratap Singh
Narayan Institute of Pharmacy Gopal Narayan Singh University Jamuhar Sasaram, Rohtas 821305 Bihar India
Ritesh Rana
Department of Pharmaceutical Sciences (Pharmaceutics) Himachal Institute of Pharmaceutical Education and Research (HIPER) Bela, Nadaun Hamirpur, Himachal Pradesh 177042 India
Shopnil Akash
Department of Pharmacy Faculty of Allied Health Sciences Daffodil International University Dhaka 1207 Bangladesh
Md. Rezaul Islam
Department of Pharmacy Faculty of Allied Health Sciences Daffodil International University Dhaka 1207 Bangladesh
Firzan Nainu
Department of Pharmacy Faculty of Pharmacy Hasanuddin University Makassar 90245 Indonesia
Talha Bin Emran
Department of Pharmacy Faculty of Allied Health Sciences Daffodil International University Dhaka 1207 Bangladesh
Turki M. Dawoud
Department of Botany and Microbiology College of Science King Saud University P. O. BOX 2455 Riyadh 11451 Saudi Arabia
Mohammed Bourhia
Department of Chemistry and Biochemistry Faculty of Medicine and Pharmacy Ibn Zohr University Laayoune 70000 Morocco
Musaab Dauelbait
Department of Scientific Translation Faculty of Translation University of Bahri Khartoum 11111 Sudan
Rashu Barua
Foundations of Medicine Diabetes and Obesity Research Center New York University Grossman Long Island School of Medicine 101 Mineola Blvd Mineola New York, USA
Abstract In the present work, phytoconstituents from Citrus limon are computationally tested against SARS‐CoV‐2 target protein such as Mpro ‐ (5R82.pdb), Spike ‐ (6YZ5.pdb) &RdRp ‐ (7BTF.pdb) for COVID‐19. Docking was done by glide model, QikProp was performed by in silico ADMET screening & Prime MM‐GB/SA modules were used to define binding energy. When compared with approved COVID‐19 drugs such as Remdesivir, Ritonavir, Lopinavir, and Hydroxychloroquine, plant‐based constituents such as Quercetin, Rutoside, Naringin, Eriocitrin, and Hesperidin. bind with significant G‐scores to the active SARS‐CoV‐2 place. The constituents Rutoside and Eriocitrin were studied in each MD simulation in 100 ns against 3 proteins 5R82.pdb, 6YZ5.pdb and 7BTF.pdb.We performed an assay with significant natural compounds from contacts and in silico results (Rutin, Eriocitrin, Naringin, Hesperidin) using 3CL protease assay kit (B.11529 Omicron variant). This kit contained 3CL inhibitor GC376 as Control. The IC50 value of the test compound was found to be Rutin −17.50 μM, Eriocitrin−37.91 μM, Naringin−39.58 μM, Hesperidine−140.20 μM, the standard inhibitory concentration of GC376 was 38.64 μM. The phytoconstituents showed important interactions with SARS‐CoV‐2 targets, and potential modifications could be beneficial for future development.
