Angiogenesis, Inflammation & Therapeutics | Online ISSN  2207-872X
RESEARCH ARTICLE   (Open Access)

Comparison of anti-inflammatory and analgesic effects of artocarpin-rich Artocarpus heterophyllus extract and artocarpin

Rizwan Rashid Bazmi1, Muhammad Asif2**, Hafiza Sidra Yaseen3, Pharkphoom Panichayupakaranant1,4*

+ Author Affiliations

Journal of Angiotherapy 6(2) 601-611 https://doi.org/10.25163/angiotherapy.624303118330422

Submitted: 18 February 2022  Revised: 29 March 2022  Published: 04 April 2022 

Abstract

Introduction: The present study was carried out to evaluate the in vivo anti-inflammatory and analgesic effects of artocarpin-rich Artocarpus heterophyllus wood extract (ARE) and its major bioactive compound, artocarpin. Methods: ARE was prepared using a green microwave extraction coupled with column chromatography using polystyrene/divinylbenzene resin. The extract obtained was standardized to contain artocarpin content of 49.6% w/w using HPLC method. The effects of ARE and artocarpin were analyzed using acute and chronic paw edema anti-inflammatory models in Wister albino rats and the acetic acid induced writhing and formalin induced analgesic models in Swiss albino mice. CAM assay was performed to evaluate the antiangiogenic potential of extract and pure compound. Results: The results indicated that ARE and artocarpin exhibited time and dose-dependent anti-inflammatory and anti-nociceptive responses. ARE at a dose of 200 mg/kg (equivalent to artocarpin 99.2 mg/kg) and artocarpin (100 mg/kg) significantly reduced (p <  0.05) paw edema development and pain. In addition, ARE (200 mg/kg) and artocarpin (100 mg/kg) produced comparable (p < 0.001) anti-inflammatory and nociceptive effects as the standard drugs, indomethacin and diclofenac sodium (10 mg/kg). At the lowest doses of ARE (50 mg/kg) and artocarpin (25 mg/kg), a smaller decrease in paw swelling was observed relative to 100 mg/kg ARE and 50 mg/kg artocarpin treatment groups (p > 0.001) throughout the study. Findings of CAM assay showed potent antiangiogenic activity of ARE and artocarpin Conclusion: Together these findings suggested that ARE and artocarpin are effective in ameliorating inflammatory and promoting analgesic effects. Therefore, ARE and artocarpin hold high promise as alternative anti-inflammatory and analgesic therapeutics and worthy of further investigations.

Keywords: Analgesic; anti-inflammatory; artocarpin; Artocarpus heterophyllus; angiogenesis

References

Antonisamy, Paulrayer, Dhanasekaran, Muniyappan, Kim, Ha-Rim, Jo, Sung-Gang, Agastian, Paul, & Kwon, Kang-Beom. (2017). Anti-inflammatory and analgesic activity of ononitol monohydrate isolated from Cassia tora L. in animal models. Saudi journal of biological sciences, 24(8), 1933- 1938.

Arzi, Ardeshir, Olapour, Samaneh, Yaghooti, Hamid, & Karampour, Neda Sistani. (2015). Effect of royal jelly on formalin induced-inflammation in rat hind paw. Jundishapur journal of natural pharmaceutical products, 10(1).

Ashok, Purnima, Koti, BC, Thippeswamy, AHM, Tikare, VP, Dabadi, P, & Viswanathaswamy, AHM. (2010). Evaluation of antiinflammatory activity of Centratherum anthelminticum (L) Kuntze seed. Indian journal of pharmaceutical sciences, 72(6), 697.

Asif, Muhammad, Saadullah, Malik, Yaseen, Hafiza Sidra, Saleem, Mohammad, Yousaf, Hafiz Muhammad, Khan, Ikram Ullah, . . . Shams, Muhammad Usman. (2020). Evaluation of in vivo anti-inflammatory and anti-angiogenic attributes of methanolic extract of Launaea spinosa. Inflammopharmacology, 1-16.

Asif, Muhammad, Saleem, Mohammad, Saadullah, Malik, Yaseen, Hafiza Sidra, & Al Zarzour, Raghdaa. (2020). COVID-19 and therapy with essential oils having antiviral, anti-inflammatory, and immunomodulatory properties. Inflammopharmacology, 1-9.

Chen, Linlin, Deng, Huidan, Cui, Hengmin, Fang, Jing, Zuo, Zhicai, Deng, Junliang, . . . Zhao, Ling. (2018). Inflammatory responses and inflammation-associated diseases in organs. Oncotarget, 9(6), 7204.

Gupta, Ashok Kumar, Parasar, Devraj, Sagar, Amin, Choudhary, Vikas, Chopra, Bhupinder Singh, Garg, Renu, & Khatri, Neeraj. (2015). Analgesic and anti-inflammatory properties of gelsolin in acetic acid induced writhing, tail immersion and carrageenan induced paw edema in mice. PloS one, 10(8), e0135558.

Hacimuftuoglu, A, Handy, CR, Goettl, VM, Lin, CG, Dane, S, & Stephens Jr, RL. (2006). Antioxidants attenuate multiple phases of formalin-induced nociceptive response in mice. Behavioural brain research, 173(2), 211-216.

Hari, Akhil, Revikumar, KG, & Divya, D. (2014). Artocarpus: A review of its phytochemistry and pharmacology. Journal of Pharma Search, 9(1), 7-12.

Jagtap, UB, & Bapat, VA. (2010). Artocarpus: A review of its traditional uses, phytochemistry and pharmacology. Journal of ethnopharmacology, 129(2), 142-166.

Kumar, Rohit, Gupta, Yogendra Kumar, & Singh, Surender. (2016). Anti-inflammatory and anti- granuloma activity of Berberis aristata DC. in experimental models of inflammation. Indian journal of pharmacology, 48(2), 155.

Medzhitov, Ruslan. (2010). Inflammation 2010: new adventures of an old flame. Cell, 140(6), 771-776. Mondal, Arijit, Maity, Tapan Kumar, & Bishayee, Anupam. (2019). Analgesic and Anti-Inflammatory

Activities of Quercetin-3-methoxy-4′-glucosyl-7-glucoside Isolated from Indian Medicinal Plant Melothria heterophylla. Medicines, 6(2), 59.

Munira, S, Nesa, M.L, Islam, M.M, Sultana, S, Hossain, S, Khanam, H, Kabir, H, Akanda, R and Rashid, M. (2015). Analgesic, anti-inflammatory and CNS activities of the methanolic extract of Artocurpus heterophyllus seed. World Journal of Pharmacy & Pharmaceutical Sciences, 4(05), 91-103.

Omeh, Yusuf S, & Ezeja, MI. (2010). Analgesic activity of the methanolic leaf extract of Jatropha curcas (Linn). African Journal of Biomedical Research, 13(2), 149-152.

Panichayupakaranant, Pharkphoom. (2017). Active Constituent-Rich Herbal Extracts for Development of Phytomedicine. Songklanagarind Medical Journal, 35(3), 187-193.

Ronchetti, S, Migliorati, G, & Delfino, DV. (2017). Association of inflammatory mediators with pain perception. Biomedicine & Pharmacotherapy, 96, 1445-1452.

Saleem, Mohammad, Asif, Muhammad, Parveen, Anum, Yaseen, Hafiza Sidra, Saadullah, Malik, Bashir, Asiya, Khan, Rizwan Ullah. (2020). Investigation of in vivo anti-inflammatory and anti- angiogenic attributes of coumarin-rich ethanolic extract of Melilotus indicus. Inflammopharmacology.

Yaseen, Hafiza Sidra, Asif, Muhammad, Saadullah, Malik, Asghar, S, Shams, MU, Bazmi, RR, . . . Yaseen,

M. (2020). Methanolic extract of Ephedra ciliata promotes wound healing and arrests inflammatory cascade in vivo through downregulation of TNF-α. Inflammopharmacology.

Zacher, J, Altman, R, Bellamy, N, Brühlmann, P, Da Silva, J, Huskisson, E, & Taylor, RS. (2008). Topical diclofenac and its role in pain and inflammation: an evidence-based review. Current medical research and opinion, 24(4), 925-950.

Zhou, Ying, Hong, Yan, & Huang, Haihua. (2016). Triptolide attenuates inflammatory response in membranous glomerulo-nephritis rat via downregulation of NF-κB signaling pathway. Kidney and Blood Pressure Research, 41(6), 901-910.

PDF
Full Text
Export Citation

View Dimensions


View Plumx



View Altmetric



40
Save
0
Citation
784
View
1
Share