Invitro studies for immuno stimulant activity of Cuttle fish ink

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Invitro studies for immuno stimulant activity of Cuttle fish ink

Author Affiliations

¹Periyar College of Pharmaceutical Sciences, Tiruchirappalli-21, Tamilnadu, India
²Periyar College of Pharmaceutical Sciences, Tiruchirappalli-21, Tamilnadu, India
³Periyar College of Pharmaceutical Sciences, Tiruchirappalli-21, Tamilnadu, India

Res. J. of Pharmaceutical Sci., Volume 10, Issue (1), Pages 1-7, June,30 (2021)

Abstract

In the Marine organisms were isolated the 10,000 of new compounds were being discovered every year. Huge innovations were obtained from the waste, by product of the marine sources to discover the new compounds to the consumers. In the 21st century, people are interested in healthy eating that shift towards the potential health benefits beyond basic nutrition. Cuttle Fish Ink was evaluated for Immunostimulant activity by using invitro studies. Phagocytic index and cell count in Immunomodulatory assay, molecular docking studies of the compounds such as Phenyl thiazole, Boldenone using Insilico docking analysis. Our results showed the Cuttle Fish Ink possess Immunostimulant activity and molecular docking score produces with appreciable and better therapeutic effect in the ADME properties.

References

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Google Scholar

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Google Scholar

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Google Scholar

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Google Scholar

[ref8] Smita Nayak & Sushma mengi (2009)., Immunostimulant activity of the extracts and bioactives of the fruit of Morinda citrifolia., Pharmaceutical Biology, 47(3), 248-254.
Google Scholar

[ref9] Zhong, J. P., Wang, G., Shang, J. H., Pan, J. Q., Li, K., Huang, Y., & Liu, H. Z. (2009)., Protective effects of squid ink extract towards hemopoietic injuries induced by cyclophosphamine., Marine Drugs, 7(1), 9-18.
Google Scholar

[ref10] Ponkshe C.A and Indap MM. (2002)., In vivo and in vitro evaluation for Immunomodulatory activity of three marine animal extracts with reference to phagocytosis., Indian J Exp Biol. 40(12), 1399-1402.
Google Scholar

[ref11] Smita Nayak & Sushma mengi (2009)., Immunostimulant activity of the extracts and bioactivess of the fruit of Morinda citrifolia., Pharmaceutical Biology, 47(3), 248-254.
Google Scholar

[ref12] Grosdidier, A., Zoete, V., & Michielin, O. (2011)., SwissDock, a protein-small molecule docking web service based on EADock DSS., Nucleic acids research, 39(suppl_2), W270-W277.
Google Scholar

[ref13] USCF (2019)., UCSF chimera an extensible Molecular Modeling System (Version 1.14)., Software. Available from: http://www.cgl.ucsf.edu/chimera/12/11/2019.

[ref14] Linux (2011)., Linux Autodock Vina (Version 1.1.2)., Software. http://vina.scripps.edu/download.html,11/05/20 11.

[ref15] Daina, A., Michielin, O., & Zoete, V. (2017)., SwissADME: a free web tool to evaluate pharmacokinetics, drug-likeness and medicinal chemistry friendliness of small molecules., Scientific reports, 7(1), 1-13.
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[ref16] Pubchem (2005)., Pubchem structure of compound, online available: National center for biotechnology information., U.S. National library of medicine. http://pubchem.ncbi. nlm.nih.gov/27/03/2005.

[ref17] Arkin, M.A., Randal, M. and Delan, W.L. (2002)., Ligand receptor of 1M48: Binding of small molecules to an adaptive protein-protein interface. (Version 1.0)., https://www.rcsb.org/ structure/1M48. 31/07/2002.

[ref18] Thanos, C.D., Randal (2004)., Ligand receptor of 1PW6: Low micro molar small molecule inhibitor of IL-2. (Version 1.0)., https;//www.rcsb.org/structure/1PW6. 13/01/2004.