Developmental Toxicity Assessment of Drymaria Cordata (Linn.) Willd
using Zebrafish Embryo

Susmita      Patra; Asis      Bala; Nanaocha      Sharma; Pallab   Kanti   Haldar

Abstract

Introduction: Drymaria cordata (Linn.) Willd is a creeping herb belonging to the Caryophyllaceae family, widely used as a traditional medicine in Africa and North-east India for various ailments. Many therapeutic applications of D. cordata have been reported in various scientific studies, but the teratogenicity study of this herb has not been documented till now.

Methods: The present study aimed to assess the developmental toxic effect and median lethal concentration (LC₅₀) of methanol extract of Drymaria cordata leaf (DCME) using zebrafish embryos. After spawning of male and female zebrafish, healthy zebrafish embryos were selected by microscopic screening and transferred into 96-well plate for the study. Embryos were exposed to DCME at concentrations ranging from 50-400 μg/ml in 2% DMSO from 24 hpf to 72 hpf.

Results: Developmental and morphological abnormalities were microscopically evaluated. Fifty percent lethal concentration (LC₅₀) of DCME was determined by observation from 24 hpf to 72 hpf. The concentration-dependent toxic effects of DCME on developing embryos of zebrafish were found in the study in a time-dependent manner.

Conclusion: At 72 hpf, the median lethal concentration (LC₅₀) of DCME was found with visible developmental defects, such as heartbeat rate, less pigmentation, oedema, spinal curvature, immature yolk sac as well as reduced hatching rate and a slow growth. The median lethal dose was found to be 448 μg/ml at 72 hpf for zebra fish embryos, meriting further studies on toxicological profiling of the plants.

Keywords: Drymaria cordata (Linn.), developmental toxicity, zebrafish Embryo, median lethal concentration, teratogenic potency, ailments.

« Previous Next »

Graphical Abstract

[1]
Ugwah-Oguejiofor CJ, Okoli CO, Ugwah MO, et al. Acute and sub-acute toxicity of aqueous extract of aerial parts of Caralluma dalzielii N. E. Brown in mice and rats. Heliyon  2019; 5(1): e01179.
 [http://dx.doi.org/10.1016/j.heliyon.2019.e01179] [PMID: 30775575]

[2]
Katz L, Baltz RH. Natural product discovery: Past, present, and future. J Ind Microbiol Biotechnol  2016; 43(2-3): 155-76.
 [http://dx.doi.org/10.1007/s10295-015-1723-5] [PMID: 26739136]

[3]
Ekor M. The growing use of herbal medicines: Issues relating to adverse reactions and challenges in monitoring safety. Front Pharmacol  2014; 4(4): 177.
 [http://dx.doi.org/10.3389/fphar.2013.00177] [PMID: 24454289]

[4]
Kuma Kar B, Dolai N, Haldar P. Study on developmental toxicity and behavioral safety of Streblus asper Lour. bark on zebrafish embryos. Indian J Nat Prod Resour  2013; 4: 255-9.

[5]
Selderslaghs IW, Van Rompay AR, De Coen W, Witters HE. Development of a screening assay to identify teratogenic and embryotoxic chemicals using the zebrafish embryo. Reprod Toxicol  2009; 28(3): 308-20.
 [http://dx.doi.org/10.1016/j.reprotox.2009.05.004] [PMID: 19447169]

[6]
Yang L, Ho NY, Alshut R, et al. Zebrafish embryos as models for embryotoxic and teratological effects of chemicals. Reprod Toxicol  2009; 28(2): 245-53.
 [http://dx.doi.org/10.1016/j.reprotox.2009.04.013] [PMID: 19406227]

[7]
de Souza Anselmo C, Sardela VF, de Sousa VP, Pereira HMG. Zebrafish (Danio rerio): A valuable tool for predicting the metabolism of xenobiotics in humans? Comp Biochem Physiol C Toxicol Pharmacol  2018; 212: 34-46.
 [http://dx.doi.org/10.1016/j.cbpc.2018.06.005] [PMID: 29969680]

[8]
Poon KL, Wang X, Lee SG, et al. Editor’s highlight: Transgenic zebrafish reporter lines as alternative in vivo organ toxicity models. Toxicol Sci  2017; 156(1): 133-48.
 [PMID: 28069987]

[9]
Nono N, Nzowa K, Barboni L, et al. Drymaria cordata (Linn.) Willd (Caryophyllaceae): Ethnobotany, pharmacology and phytochemistry. Adv Biol Chem  2014; 4: 160-7.
 [http://dx.doi.org/10.4236/abc.2014.42020]

[10]
Burkill HM. The Useful Plants of West Tropical Africa.  (2nd ed..). Kew: Royal Botanic Gardens 1985; 1: p. 343.

[11]
Asolkar LV, Kakkar KK. Second supplement to glossary of Indian medicinal plants  1992; 283.

[12]
Rao RR. Ethnobotany of meghalaya: Medicinal plants used by khasi and garo tribes. Econ Bot  1989; 43(4): 471-9.

[13]
Patra S, Bhattacharya S, Bala A, Haldar PK. Antidiabetic effect of Drymaria cordata leaf against streptozotocin-nicotinamide-induced diabetic albino rats. J Adv Pharm Technol Res  2020; 11(1): 44-52.
 [http://dx.doi.org/10.4103/japtr.JAPTR_98_19] [PMID: 32154158]

[14]
Gul R, Jan SU, Faridullah S, Sherani S, Jahan N. Preliminary phytochemical screening, quantitative analysis of alkaloids, and antioxidant activity of crude plant extracts from Ephedra intermedia indigenous to Balochistan. ScientificWorldJournal  2017; 2017: 5873648.
 [http://dx.doi.org/10.1155/2017/5873648] [PMID: 28386582]

[15]
Avdesh A, Chen M, Martin-Iverson MT, et al. Regular care and maintenance of a Zebrafish (Danio rerio) laboratory: An introduction. J Vis Exp  2012; 69(69): e4196.
 [http://dx.doi.org/10.3791/4196] [PMID: 23183629]

[16]
Aleström P, D’Angelo L, Midtlyng PJ, et al. Zebrafish: Housing and husbandry recommendations. Lab Anim  2020; 54(3): 213-24.
 [http://dx.doi.org/10.1177/0023677219869037] [PMID: 31510859]

[17]
Merola C, Perugini M, Conte A, Angelozzi G, Bozzelli M, Amorena M. Embryotoxicity of methylparaben to zebrafish (Danio rerio) early-life stages. Comp Biochem Physiol C Toxicol Pharmacol  2020; 236: 108792.
 [http://dx.doi.org/10.1016/j.cbpc.2020.108792] [PMID: 32428600]

[18]
Haldar S, Karmakar I, Chakraborty M, et al. Preclinical assessment of Cascabela thevetia fruits on developmental toxicity and behavioral safety in zebrafish embryos. Orient Pharm Exp Med  2015; 15: 371-7.
 [http://dx.doi.org/10.1007/s13596-015-0207-5]

[19]
OECD. Test No 236: Fish Embryo Acute Toxicity (FET) Test, OECD Guidelines for the Testing of Chemicals. Paris: OECD Publishing 2013.

[20]
Murugesu S, Khatib A, Ahmed QU, et al. Toxicity study on Clinacanthus nutans leaf hexane fraction using Danio rerio embryos. Toxicol Rep  2019; 6(6): 1148-54.
 [http://dx.doi.org/10.1016/j.toxrep.2019.10.020] [PMID: 31993329]

[21]
Finney DJ. Probit Analysis. London: Cambridge University Press 1971.

[22]
Romagosa CMR, David ES, Dulay RMR, et al. Embryo-toxic and teratogenic effects of Tinospora cordifolia leaves and bark extracts in Zebrafish (Danio rerio) embryos. Asian J Plant Sci Res  2016; 6: 37-41.

[23]
Mousavi SE, Patil JG. Light-cardiogram, a simple technique for heart rate determination in adult zebrafish, Danio rerio. Comp Biochem Physiol A Mol Integr Physiol  2020; 246: 110705.
 [http://dx.doi.org/10.1016/j.cbpa.2020.110705] [PMID: 32339660]

[24]
Luca ED, Zaccaria GM, Hadhoud M. ZebraBeat: A flexible platform for the analysis of the cardiac rate in zebrafish embryos. Sci Rep  2014; 4898.

[25]
Jayasinghe CD, Jayawardena UA. Toxicity assessment of herbal medicine using zebrafish embryos: A systematic review. Evid Based Complement Alternat Med  2019; 2019: 7272808.
 [http://dx.doi.org/10.1155/2019/7272808] [PMID: 31781278]

[26]
Pamanji R, Yashwanth B, Bethu MS, Leelavathi S, Ravinder K, Rao JV. Toxicity effects of profenofos on embryonic and larval development of Zebrafish (Danio rerio). Environ Toxicol Pharmacol  2015; 39(2): 887-97.
 [http://dx.doi.org/10.1016/j.etap.2015.02.020] [PMID: 25796049]

[27]
Braunbeck T, Boettcher M, Hollert H, et al. Towards an alternative for the acute fish LC(50) test in chemical assessment: The fish embryo toxicity test goes multi-species -- an update. Altern Anim Exp  2005; 22(2): 87-102.
 [PMID: 15953964]

[28]
Renieri EA, Sfakianakis DG, Alegakis AA, et al. Nonlinear responses to waterborne cadmium exposure in zebrafish. An in vivo study. Environ Res  2017; 157: 173-81.
 [http://dx.doi.org/10.1016/j.envres.2017.05.021] [PMID: 28570961]

[29]
Venkatesan S, Sankar V, Sankar AS. Preliminary phytochemical studies on leaves of Drymaria cordata willd. Anc Sci Life  2003; 23(1): 16-21.
 [PMID: 22557108]

[30]
Bhattacharyya R, Medhi KK, Borkataki S. Phytochemical analysis of Drymaria cordata (L.) Wild.Ex Schult. (Whole Plant) used by tea tribes of erstwhile Nagaon district of Assam, India. IJPSR  2019; 10(9): 4264-9.

[31]
Pylatiuk C, Sanchez D, Mikut R, et al. Automatic zebrafish heartbeat detection and analysis for zebrafish embryos. Zebrafish  2014; 11(4): 379-83.
 [http://dx.doi.org/10.1089/zeb.2014.1002] [PMID: 25003305]

Rights & Permissions Print Cite

Article Metrics

28

2

Journal Information

For Authors

For Editors

For Reviewers

Explore Articles

Open Access

Open Access Articles

For Visitors

DOI https://dx.doi.org/10.2174/1574886317666220514153858	Print ISSN 1574-8863
Publisher Name Bentham Science Publisher	Online ISSN 2212-3911

Current Drug Safety

Developmental Toxicity Assessment of Drymaria Cordata (Linn.) Willd using Zebrafish Embryo

Abstract

Graphical Abstract

Related Journals

Related Books