sg:pub.10.1007/s00709-014-0711-3 - Springer Nature SciGraph

Article Info

DATE

2014-10-12

AUTHORS

Harshita Pandey, Pallavi Pandey, Sailendra Singh, Ruby Gupta, Suchitra Banerjee

ABSTRACT

Betulinic acid (BA), a pentacyclic triterpenoid, is gaining unmatched attention owing to its unique anti-cancer activity with selective melanoma growth inhibition without damaging normal cells. It is also well-known for its multifaceted pharmacokinetics, entailing antibacterial, antimalarial, anti-HIV and antioxidant merits. Considering the escalating demand with diminishing bioresource of this molecule, the present study was undertaken that revealed the untapped potentials of Ocimum calli, contrasting to that in the in vitro derived leaves, as effective production alternative of BA in three out of four tested species (i.e. Ocimum basilicum, Ocimum kilimandscharicum, Ocimum sanctum excluding Ocimum grattisimum). Callus inductions were obtained in all the four species with different 2,4-dichlorophenoxyacetic acid (2,4-D)/α-naphthaleneacetic acid (NAA) concentrations with kinetin. Notably, 2,4-D favoured maximum callus growth in all whereas NAA proved beneficial for the highest metabolite yield in the calli of each BA-producing species. The O. basilicum calli demonstrated the maximum growth (growth index (GI) 678.7 ± 24.47) and BA yield (2.59 ± 0.55 % dry weight [DW]), whereas those in O. kilimandscharicum (GI 533.33 ± 15.87; BA 1.87 ± 0.6 % DW) and O. sanctum (GI 448 ± 16.07; BA 0.39 ± 0.12 % DW) followed a descending order. The O. gratissimum calli revealed minimum growth (GI 159 ± 13.25) with no BA accumulation. Elicitation with methyl jasmonate at 200-μM concentration after 48-h exposure doubled the BA yield (5.10 ± 0.18 % DW) in NAA-grown O. basilicum calli compared to that in the untreated counterpart (2.61 ± 0.19 % DW), which further enthused its future application. More... »

PAGES

647-655

References to SciGraph publications

2002-10. Initiation and growth characteristics of suspension cultures of Calendula officinalis cells in PLANT CELL, TISSUE AND ORGAN CULTURE (PCTOC)

2011-08-13. The effects of jasmonic acid and methyl jasmonate on rosmarinic acid production in Mentha × piperita cell suspension cultures in PLANT CELL, TISSUE AND ORGAN CULTURE (PCTOC)

2008-02-06. Determination of Oleanolic, Betulinic and Ursolic Acid in Lamiaceae and Mass Spectral Fragmentation of Their Trimethylsilylated Derivatives in CHROMATOGRAPHIA

2005-06. Induced accumulation of oleanolic acid and ursolic acid in cell suspension cultures of Uncaria tomentosa in BIOTECHNOLOGY LETTERS

2010-12. Accumulation of betulinic, oleanolic, and ursolic acids in In vitro cell cultures of Lantana camara L. and their significant cytotoxic effects on HeLa cell lines in BIOTECHNOLOGY AND BIOPROCESS ENGINEERING

1993-10. Methyl jasmonate-induced rosmarinic acid biosynthesis in Lithospermum erythrorhizon cell suspension cultures in PLANT CELL REPORTS

2013-06. Growth and triterpenic acid accumulation of Cyclocarya paliurus cell suspension cultures in BIOTECHNOLOGY AND BIOPROCESS ENGINEERING

2004-03. Scale-up micropropagation of sweet basil (Ocimum basilicum L.) in an airlift bioreactor and accumulation of rosmarinic acid in BIOTECHNOLOGY LETTERS

2000-07. A preliminary investigation of ursolic acid in cell suspension culture of Salvia officinalis in PLANT CELL, TISSUE AND ORGAN CULTURE (PCTOC)

2014-03-23. Cell cultures of Maytenus ilicifolia Mart. are richer sources of quinone-methide triterpenoids than plant roots in natura in PLANT CELL, TISSUE AND ORGAN CULTURE (PCTOC)

1999-02. Fungal elicitor preparations and methyl jasmonate enhance rosmarinic acid accumulation in suspension cultures of Coleus blumei in PLANT CELL REPORTS

2012-12-18. A promising approach on biomass accumulation and withanolides production in cell suspension culture of Withania somnifera (L.) Dunal in PROTOPLASMA

1999-11. Micropropagation of ‘Holy Basil’ (Ocimum sanctum Linn.) from young inflorescences of mature plants in PLANT GROWTH REGULATION

2012-08-08. Implications of Cellular Heterogeneity on Plant Cell Culture Performance in BIOTECHNOLOGY FOR MEDICINAL PLANTS

1994-09. The biosynthesis of rosmarinic acid in suspension cultures of Coleus blumei in PLANT CELL, TISSUE AND ORGAN CULTURE (PCTOC)

2010. Plant Cell Cultures: Bioreactors for Industrial Production in BIO-FARMS FOR NUTRACEUTICALS

2003-01-01. Dihydrobetulinic Acid Induces Apoptosis in Leishmania donovani by Targeting DNA Topoisomerase I and II: Implications in Antileishmanial Therapy in MOLECULAR MEDICINE

2003-03. In vitro rosmarinic acid accumulation in sweet basil (Ocimum basilicum L.) in BIOTECHNOLOGY LETTERS

Journal

TITLE

Protoplasma

ISSUE

VOLUME

252

Subjects

FOR: Biological Sciences

FOR: Biochemistry And Cell Biology

MESH: Antineoplastic Agents, Phytogenic

MESH: Cells, Cultured

MESH: Ocimum

MESH: Pentacyclic Triterpenes

MESH: Plant Leaves

MESH: Triterpenes

Author Affiliations

Department of Plant Biotechnology, Central Institute of Medicinal and Aromatic Plants (CSIR-CIMAP), Council of Scientific and Industrial Research, PO CIMAP, Kukrail Picnic Spot Road, 226015, Lucknow, India

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/s00709-014-0711-3

DOI

http://dx.doi.org/10.1007/s00709-014-0711-3

DIMENSIONS

https://app.dimensions.ai/details/publication/pub.1045750196

PUBMED

https://www.ncbi.nlm.nih.gov/pubmed/25308098

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30	″	schema:description	Betulinic acid (BA), a pentacyclic triterpenoid, is gaining unmatched attention owing to its unique anti-cancer activity with selective melanoma growth inhibition without damaging normal cells. It is also well-known for its multifaceted pharmacokinetics, entailing antibacterial, antimalarial, anti-HIV and antioxidant merits. Considering the escalating demand with diminishing bioresource of this molecule, the present study was undertaken that revealed the untapped potentials of Ocimum calli, contrasting to that in the in vitro derived leaves, as effective production alternative of BA in three out of four tested species (i.e. Ocimum basilicum, Ocimum kilimandscharicum, Ocimum sanctum excluding Ocimum grattisimum). Callus inductions were obtained in all the four species with different 2,4-dichlorophenoxyacetic acid (2,4-D)/α-naphthaleneacetic acid (NAA) concentrations with kinetin. Notably, 2,4-D favoured maximum callus growth in all whereas NAA proved beneficial for the highest metabolite yield in the calli of each BA-producing species. The O. basilicum calli demonstrated the maximum growth (growth index (GI) 678.7 ± 24.47) and BA yield (2.59 ± 0.55 % dry weight [DW]), whereas those in O. kilimandscharicum (GI 533.33 ± 15.87; BA 1.87 ± 0.6 % DW) and O. sanctum (GI 448 ± 16.07; BA 0.39 ± 0.12 % DW) followed a descending order. The O. gratissimum calli revealed minimum growth (GI 159 ± 13.25) with no BA accumulation. Elicitation with methyl jasmonate at 200-μM concentration after 48-h exposure doubled the BA yield (5.10 ± 0.18 % DW) in NAA-grown O. basilicum calli compared to that in the untreated counterpart (2.61 ± 0.19 % DW), which further enthused its future application.
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36	″	″	sg:journal.1118135
37	″	schema:keywords	BA accumulation
38	″	″	BA yield
39	″	″	HIV
40	″	″	NAA
41	″	″	Ocimum species
42	″	″	accumulation
43	″	″	acid
44	″	″	acid concentration
45	″	″	activity
46	″	″	alternative
47	″	″	anti-cancer activity
48	″	″	applications
49	″	″	attention
50	″	″	betulinic acid
51	″	″	bioresources
52	″	″	callus
53	″	″	callus cultures
54	″	″	callus growth
55	″	″	callus induction
56	″	″	cells
57	″	″	concentration
58	″	″	counterparts
59	″	″	culture
60	″	″	damaging normal cells
61	″	″	demand
62	″	″	dichlorophenoxyacetic acid
63	″	″	different Ocimum species
64	″	″	elicitation
65	″	″	exposure
66	″	″	future applications
67	″	″	growth
68	″	″	growth inhibition
69	″	″	higher metabolite yield
70	″	″	induction
71	″	″	inhibition
72	″	″	jasmonate
73	″	″	kilimandscharicum
74	″	″	kinetin
75	″	″	leaves
76	″	″	maximum callus growth
77	″	″	maximum growth
78	″	″	melanoma growth inhibition
79	″	″	merits
80	″	″	metabolite yield
81	″	″	methyl jasmonate
82	″	″	minimum growth
83	″	″	molecules
84	″	″	naphthaleneacetic acid concentration
85	″	″	normal cells
86	″	″	order
87	″	″	pentacyclic triterpenoids
88	″	″	pharmacokinetics
89	″	″	potential
90	″	″	present study
91	″	″	production
92	″	″	production alternatives
93	″	″	sanctum
94	″	″	species
95	″	″	study
96	″	″	triterpenes
97	″	″	triterpenoids
98	″	″	untapped potential
99	″	″	untreated counterparts
100	″	″	yield
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