Family • Loranthaceae / Viscaceae - Viscum articulatum Burm. f. - LEAFLESS MISTLETOE - Ma li ji sheng
|Viscum articulatum Burm. f.|
|Viscum compressum Poir.|
|Viscum philippense Llanos|
|Viscum opuntioides Bl.|
|Viscum falcatum Llanos|
|Viscum moniliforme Bl.|
|Viscum dichotomum D. Don.|
|Viscum flexuosum Gamble|
|Viscum angulatum DC. ?|
|Aspidixia articulata Van Tiegh.|
|Aspidixia dichotoma Van Tiegh. ?|
|Aspidixia angulata Van Tiegh.|
|Bian zhi hu ji sheng (Chin.)|
|Leafless mistletoe (Engl.)|
|Jointed mistletoe (Engl.)|
|Ma li ji sheng (Chin.)|
Other vernacular names
|HINDI: Budu, Hurchu, Pudu.|
Taka is a much-branched, slender, smooth, pale, leafless hemi-parasitic plant, forming a green undershrub. Branches are flat, with pendulous tufts, 15 to 90 centimeters long; the internodes being variable in length; usually a trifle wider at the distal end, and striate. Leaves are visible only in the very young internodes as small bracts below the flowers. Flowers are very minute, stalkless, and in stalkless 3-flowered spikes. Spikes are two or several at a joint. Perianth of the male flowers is reflexed, and hardly 1/4 millimeter long. Female flowers are about 1/2 millimeter long, with two bracts, and the perianth lobes erect and triangular. Fruit is stalkless, nearly spherical, about 3 millimeters in diameter, white and shining when ripe.
– From northern Luzon to Mindanao, on trees at low and medium altitudes, ascending to 1,200 meters in some regions.
– Occurs in India to Taiwan and Malaya.
Additional Sources and Suggested Readings
(1) Taxon: Viscum articulatum Burm. f. / USDA / Germplasm Resources Information Network (GRIN)
(2) Two New Phenolic Glycosides from Viscum articulatum / Yang Li, Yan-Li Zhao, Ning Huang et al / Molecules 2008, 13, 2500-2508; DOI: 10.3390/molecules13102500
(3) Flavanone and Diphenylpropane Glycosides and Glycosidic Acyl Esters from Viscum articulatum / Yu-Jen Kuo, Yu-Ching Yang, Li-Jie Zhan et al / J. Nat. Prod., 2010, 73 (2), pp 109–114 / DOI: 10.1021/np9004294
(4) PHYTOCHEMICAL SCREENING OF BIDARIA KHANDALENSE (SANT.) LORANTHUS CAPITELLATUS WALL., VISCUM ARTICULATUM BURM.F. AND VITEX NEGUNDO LINN. / Shahla Najafi, Batool SadeghiNejad et al / RJPBCS, July – September 2010, Volume 1 Issue 3 Page No. 388
(5) Herbal remedies among the Khasi traditional healers and village folks in Meghalaya / SR Hynniewta and Yogendra Kumar / Indian Jour of Traditional Knowledge, Vol 7(4), Oct 2008, pp 581-586.
(6) Oleanolic Acid Prevents Glucocorticoid-induced Hypertension in Rats / Sagar S Bachhav, Savita D Patil, Mukesh S Bhutada and Sanjay J Surana / Phytotherapy Research / DOI: 10.1002/ptr.3431
(7) Diuretic and natriuretic activity of two mistletoe species in rats / Namita Jadhav, CR Patil, KB Chaudhari et al / Pharmacognosy Research, 2010, Vol 2, Issue 1, Page : 50-57
(8) Protective effect of oleanolic acid on gentamicin induced nephrotoxicity in rats. / Patil CR, Jadhay RB, Singh PK et al / Phytother Res. 2010 Jan;24(1):33-7.
(9) The lesser-known medicine Ka Dawai Niangsophet of the Khasis in Meghalaya / SR 479 and Yogendra Kumar / Indian Jour of Traditional Knowledge, Vol 9(3), July 2010, pp 475-586.
(10) Effect of Viscum articulatum Burm. (Loranthaceae) in Nω-nitro-L-arginine methyl ester induced hypertension and renal dysfunction. / Bachhav SS, Bhutada MS, Patil SD, Baser B, Chaudhari KB. / J Ethnopharmacol. 2012 Jul 13;142(2):467-73. doi: 10.1016/j.jep.2012.05.021. Epub 2012 May 22.
(11) Antiepileptic activity of aerial parts of Viscum articulatum (Viscaceae) in rats / Geetha, K. M.; Bhaskara Gopal, P. V. V. S.; Murugan, V. / Journal of Pharmacy Research;Dec2010, Vol. 3 Issue 12, p2886
(12) Production of Active Nonglycosylated Recombinant B-Chain of Type-2 Ribosome-Inactivating Protein from Viscum articulatum and Its Biological Effects on Peripheral Blood Mononuclear Cells / Tzu-Li Lu, Jing-Yuan Chuang, Jai-Sing Yang, Shau-Ting Chiu, Nai-Wan Hsiao, Mei-Chen Wu, Shih-Hsiung Wu, and Ching-Hsiang Hsu / Evidence-Based Complementary and Alternative Medicine, Volume 2011 (2011), / doi:10.1155/2011/283747
(13) Leafless mistletoe / Common names / Flowers of India
– Leaves yield a tannic acid and resins, soluble in ether and alcohol, producing a blood-red color with strong sulfuric acid.
– Stems yield protein, 0.560 g/100 g dry weight; reducing sugar, 0.0225 g/100 g dry weight, phenols, 0.598 g/100 g, alkaloids, 5.8% per g/100g dry weight.
– Stems yield saponins, anthraquinones, proteins, reducing sugar, alkaloids, glycosides.
– Phytochemical screening yielded polyphenolics and triterpenoids, such as oleanolic acid and lupeol.
– Microscopical examination of powdered whole plant revealed the presence of lignified fibers, vascular bundle, starch grains, epidermis, and parenchyma. Qualitative chemical tests yielded triterpenoids, flavonoids, steroids, saponins, and glycosides.
– Studies have yielded triterpenes (betuline, oleanolic acid, lupeol stearate, lupeol palmitate, lupeol acetate, a-amyrin, lupeol betulinic acid), steroids (ß-sitosterol), flavonoids, phenolic glycosides, tannic acid, ceryl oleonolate, mesoinositol.
– Plant given in cases of fever with aching limbs.
– Poultice of plant applied to cuts.
– In Meghalaya, India, whole plant along with roots of Smilax ferox is boiled in water until the color becomes like red tea, then cooled. The concoction, called Dawai Niangsophet, is then placed in 500 cc bottles; to each bottle, 2 to 3 pieces of Zingiber zerumbet (luiang-usiu) is added and given to newborns, and also, applied over the stomach to prevent stomach troubles. Juice given to lactating and expectant mothers to avoid stomach troubles. Bark of the roots is used to stop dysentery.
– In Chotanagpur, plant preparation used for fever accompanied by aching limbs. Plant bark mixed with egg and Pinus roxburghii leaf is applied as poultice to bone dislocations.
– Also used in atrophy, cachexia, rheumatism, and snake bites.
– In Ayurveda, used in Kapha, Vata diseases of the blood, ulcer, epilepsy, biliousness.
– In Chinese medicine, used for treatment of hemorrhage, pleurisy, gout, heart disease, hypertension, epilepsy and arthritis.
• Phytochemicals / Phenolic Glycosides: Study of dried whole plant of Viscum articulatum yielded two new phenolic glycosides, 1-O-benzyl-[5-O-benzoyl-β-D-apiofuranosyl (1→2)]-β-D-glucopyranoside (1), and 4′-hydroxy-7,3′-dimethoxyflavan-5-O-β-D-glucopyranoside, together with nine known flavanones. Compound 9 showed weak anti-HIV-1 activity.
• Flavanone Glycosides / Antioxidant: Study yielded seven new compounds including 3 flavanone glycosides, visartisides A-C, three glycoside acyl esters, visartisides D-F, and one diphenylpropane glycoside along with four known flavanone glycosides. Six compounds exhibited antioxidant activity in either a DPPH or lipopolysaccharide-induced nitric oxide assay.
• Anticancer: A preliminary study on the anticancer activity of an ethanolic extract of Viscum articulatum using a Brine Shrimp Lethality Assay showed very potent cytotoxic activity. Study also showed the hemiparasite exhibited different cytotoxicity on the different hosts suggesting a possible variable transfer of metabolities from the host plants.
• Antifungal Activity: Plant exhibits antifungal activity attributed to the tannic acids and resins.
• Oleanolic Acid / Antihypertensive Activity: Study evaluated the antihypertensive activity of oleanolic acid isolated from V. articulatum in glucocorticoid-induced hypertension in rats. Study showed oleanolic acid significantly prevented the rise in systolic blood pressure and cardiac lipid peroxidation level after administration of dexamethasone. Results suggest oleanolic acid prevents dexamethasone-induced hypertension in rats possibly through its antioxidant and nitric oxide releasing action.
• Diuretic Activity: Study of a methanol extract of V. articulatum demonstrated significant and dose-dependent furosemide pattern of diuretic activity in rats.
• Nephroprotective Activity: Study showed oleanolic acid, isolated from the cuticular epithelium of V. articulatum, exerted a nephroprotective effect on gentamicin-induced renal damage in rats.
• Antihypertensive Effect: Study evaluated the antihypertensive effect of a methanolic extract of V. articulatum against N(w)-nitro-L-arginine methyl ester (L-NAME) induced hypertension in rats. Results showed a hypertensive effect in the NO-deficient type of hypertension, possibly due to its diuretic, nephroprotective and hypolipidemic actions.
• Antioxidant: Study evaluated the antioxidant activity of a methanolic extract of V. articulatum using various assays. Results showed V. articulatum to be a source of antioxidants, with a potential to prevent many free radical related diseases.
• Antiulcer Activity: Study of a methanolic extract showed significant reduction of gastric volume, free acidity and ulcer index. Results showed an anti-ulcerogenic as well as ulcer healing properties, probably due to its anti-secretory activity.
• Antiepileptic / Aerial Parts: Study evaluated a methanolic extract of aerial parts for anti-epileptic activity in rats. Results showed significant antiepileptic activity (p<0.001) attributed to various phytochemical contents.
• Hematologic Biologic Effects / Immunomodulatory Potential: Study cloned a lectin-like B-chain encoding fragment of a type-2 RIP gene, articulatin gene, from V. articulatum, into a bacterial expression vector to obtain a nonglycosylated recombinant protein. The rATB actively bound leukocytes with preferential binding to monocytes and in vitro stimulated PBMCs to release cytokines without obvious cytotoxicity. Results implicated the B-chain fragment as a potential immunomodulator.
• Cytotoxicity: Study evaluated an ethanolic extract for preliminary anticancer activity using Brine Shrimp Lethality Assay. Results showed very potent cytotoxic activity towards this assay, suggesting the preliminary anticancer potential of the plant material.