Influence of formaldehyde in control of bacterial and fungal contaminants in plant cell cultures: Its effect on growth and secondary metabolite production

Summary Influence of formaldehyde on growth and secondary metabolite production inin vitro grown tissues of pyrethrum, capsicum and carrot were studied. Formaldehyde concentration above 0.025% completely inhibited the growth of addedBacillus andAspergillus in the culture medium. Formaldehyde up to 0.025% level caused slight inhibition in the growth of pyrethrum callus. Callus subjected to 0.05, 0.1 and 0.2% formaldehyde enhanced the level of pyrethrin production in pyrethrum callus, whereas production of phenolics was lower in all the treatments. Growth of carrot callus and anthocyanin production was not inhibited up to a formaldehyde concentration of 0.04%. Similarly, the production of capsaicin in immobilised cell cultures ofCapsicum frutescens was not inhibited up to 0.04% level of formaldeyde. The results demonstrate the usefulness of formaldehyde to control contamination in plant tissue culture.     

Somatic embryogenesis,organogenesis, and regeneration from leaf callus culture of <Emphasis Type="Italic">Decalepis hamiltonii</Emphasis> Wight &; Arn., an endangered shrub

Summary A novel protocol has been developed for inducing somatic embryogenesis from leaf cultures of Decalepis hamiltonii. Callus was obtained from leaf sections in Murashige and Skoog (MS) medium supplemented with α-naphthaleneacetic acid (NAA)+N⁶-benzyladenine (BA) or 2,4-dichlorophenoxyacetic acid (2,4-D)+BA. Nodular embryogenic callus developed from the cut end of explants on media containing 2,4-D and BA, whereas compact callus developed on media containing NAA and BA. Upon subsequent transfer of explants with primary callus onto MS media containing zeatin and/or gibberellic acid (GA₃) and BA, treatment with zeatin (13.68μM) and BA (10.65 μM) resulted in the induction of the highest number of somatic embryos directly from nodular tissue. The maturation of embryos took place along with the induction on the same medium. Embryogenic calluses with somatic embryos were subcultured onto MS basal medium supplemented with 4.56μM zeatin+10.65 μM BA. After 4wk, more extensive differentiation of somatic embryos was observed. The mature embryos developed into complete plantlets on growth regulator-free MS medium. A distinct feature of this study is the induction of somatic embryogenesis from leaf explants of Decalepis hamiltonii, which has not been reported previously. By using this protocol, complete plantlets could be regenerated through indirect somatic embryogenesis or organogenesis from leaf explants in 12–16 wk.     

Studies on Haematococcus pluvialis for improved production of astaxanthin by mutagenesis

Cultures of Haematococcus pluvialis were exposed to mutagens like u.v. and EMS (ethyl methanesulphonate). The results showed that the survival rate decreased with the increase in u.v. exposure time and increase in EMS concentration. These mutants were further screened using inhibitors of the carotenoid biosynthetic pathway viz. diphenylamine (15–90 M), nicotine (160–320 M) and compactin (1.5–3.0 M). The mutants thus obtained showed early enhanced (2.2–3.2-fold) astaxanthin accumulation and also exhibited higher lycopene cyclase activity.     

Restoration of energy metabolism in leukemic mice treated by a siddha drug--Semecarpus anacardium Linn. nut milk extract

Chronic myeloid leukemia (CML) is a clonal disorder characterized by proliferation of hematopoietic cells that possess the BCR-ABL fusion gene resulting in the production of a 210 kDa chimeric tyrosine kinase protein. CML, when left untreated, progresses to a blast phase during which the disease turns aggressive and shows poor response to known treatment regimens. We have studied a Siddha herbal agent, Semecarpus anacardium Linn. nut milk extract (SA) for its antileukemic activity and its effect on the changes in energy metabolism in leukemic mice. Leukemia was induced in BALB/c mice by tail vein injection of BCR-ABL(+) 12B1 murine leukemia cell line. This resulted in an aggressive leukemia, similar to CML in blast crisis, myeloid subtype, confirmed by histopathological study and RT-PCR for the p210 mRNA in the peripheral blood, spleen and liver. Leukemia-bearing mice showed a significant increase in lipid peroxides, glycolytic enzymes, a decrease in gluconeogenic enzymes and significant decrease in the activities of TCA cycle and respiratory chain enzymes as compared to control animals. SA treatment was compared with standard drug imatinib mesylate. SA administration to leukemic animals resulted in clearance of the leukemic cells from the bone marrow and internal organs on histopathological examination and this was confirmed by RT-PCR for the p210 mRNA. Treatment with SA significantly reversed the changes seen in the levels of the lipid peroxides, the glycolytic enzymes, the gluconeogenic enzymes and the mitochondrial enzymes. These effects are probably due to the flavonoids, polyphenols and other compounds present in SA which result in total regression of leukemia and correction of the alterations in energy metabolism. Study of animals treated with SA alone did not reveal any adverse effects. On the basis of the observed results, SA can be considered as a readily accessible, promising and novel antileukemic chemotherapeutic agent.     

Polyamines influence morphogenesis and caffeine biosynthesis in in vitro cultures of <Emphasis Type="Italic">Coffea canephora</Emphasis> P. ex Fr.

The influence of polyamines, polyamine inhibitors and ethylene inhibitors were tested in Coffea canephora for in vitro morphogenetic response and caffeine biosynthesis. Coffea canephora produced non-embryogenic and embryogenic calli. Somatic embryos were produced only from the embryogenic callus. Endogenous polyamine pools were estimated in these tissues. Somatic embryos were subjected to secondary embryogenesis under the influence of putrescine, silver nitrate and specific inhibitors of polyamine biosynthesis. Estimation of endogenous total polyamines revealed that embryogenic callus contained 11-fold more spermine and 3.3-fold higher spermidine when compared to non-embryogenic callus. Incorporation of polyamines resulted in 58% explant response for embryogenesis when compared to control with 42% response. Incorporation of silver nitrate resulted in 65% response for embryogenesis. Incorporation of polyamine biosynthetic pathway inhibitors DFMO and DFMA resulted in 83% reduction in embryogenic response with concomitant increase in caffeine levels by two-fold as compared to control. These results have clearly demonstrated that polyamines play a crucial role in embryogenesis and caffeine biosynthesis.     

Sardine oil loaded vanillic acid grafted chitosan microparticles,a new functional food ingredient: attenuates myocardial oxidative stress and apoptosis in cardiomyoblast cell lines (H9c2)

Fish oil has been widely recognized as an excellent dietary source of polyunsaturated n-3 fatty acids such as EPA and DHA. However, it can undergo oxidation easily resulting in the formation of toxic off flavor compounds such as hydroperoxides. These compounds adversely affect the nutritional quality and may induce several stress reactions in body. To solve this problem, a new antioxidant bio-material, vanillic acid-grafted chitosan (Va-g-Ch), was synthesized and used as a wall material for microencapsulation of fish oil. The sardine oil loaded Va-g-Ch microparticles could be a potential functional food ingredient considering the numerous health benefits of fish oil, chitosan, and vanillic acid. The current study aimed to investigate the possible protective effect of sardine oil-loaded Va-g-Ch microparticles against doxorubicin-induced cardiotoxicity and the underlying mechanisms. In vitro cytotoxicity evaluation was conducted using H9c2 cardiomyocytes. MTT assay revealed that effective cytoprotective effect was induced by a sample concentration of 12.5 μg/mL. Results of apoptosis by double fluorescent staining with acridine orange/ethidium bromide and caspase-3 evaluation by ELISA substantiated the above findings. Further, flow cytometric determination of membrane potential, relative expression of NF-κB by PCR, and ROS determination using DCFH-DA also confirmed the protective effect of encapsulated sardine oil against doxorubicin-induced cardiotoxicity. NF-κB expression was down-regulated nearly by 50% on cells treated with encapsulated sardine oil. Altogether, the results revealed that sardine oil-loaded Va-g-Ch microparticles demonstrated potential cell protection against doxorubicin-induced oxidative stress     

Influence of polyamines on growth and formation of secondary metabolites in hairy root cultures of Beta vulgaris and Tagetes patula

Growth of hairy roots of Beta vulgaris, which produces betalaines, and of Tagetes patula, which produces thiophenes, was studied under the influence of externally treated polyamines. Of the three polyamines, viz. putrescine, spermidine and spermine, administered singly at 1.5 mM concentration, putrescine and spermidine at 0.75 mM concentration influenced increase in the accumulation of biomass of B. vulgaris and T. patula hairy roots by 1.42 and 1.30 fold over the control. Whereas, the treatment of spermine (1.5 mM) alone resulted in decrease in the biomass in both the systems. Combined administration of putrescine (0.75 mM) and spermidine (0.75 mM) enhanced growth in both B. vulgaris and T. patula than that observed in individual treatments. Polyamines administered alone or in combination did alter production of betalaine and thiophene content. Dose response experiments showed that, when putrescine and spermidine was administered at 0.75 mM concentration, it resulted in maximum biomass and production of beta-laine and thiophene in B. vulgaris and T. patula respectively as compared to the control and the media treated with double and triple strength of nitrates and in combination with putrescine and spermidine at equimolar concentration. In B. vulgaris and T. patula hairy root cultures, endogenous spermine titers were maximum in putrescine and spermidine 0.75 mM each treated, cultures, which was 1.63 and 2.0 fold higher than in control on 28^th and 35^th days respectively.     

Plant cell cultures: Chemical factories of secondary metabolites

This review deals with the production of high-value secondary metabolites including pharmaceuticals and food additives through plant cell cultures, shoot cultures, root cultures and transgenic roots obtained through biotechnological means. Plant cell and transgenic hairy root cultures are promising potential alternative sources for the production of high-value secondary metabolites of industrial importance. Recent developments in transgenic research have opened up the possibility of the metabolic engineering of biosynthetic pathways to produce high-value secondary metabolites. The production of the pungent food additive capsaicin, the natural colour anthocyanin and the natural flavour vanillin is described in detail.     

Bile acid receptor agonist GW4064 regulates PPARγ coactivator-1α expression through estrogen receptor-related receptor α

Peroxisome proliferator-activated receptor γ coactivator-1α (PGC-1α) is induced in energy-starved conditions and is a key regulator of energy homeostasis. This makes PGC-1α an attractive therapeutic target for metabolic syndrome and diabetes. In our effort to identify new regulators of PGC-1α expression, we found that GW4064, a widely used synthetic agonist for the nuclear bile acid receptor [farnesoid X receptor (FXR)] strongly enhances PGC-1α promoter reporter activity, mRNA, and protein expression. This induction in PGC-1α concomitantly enhances mitochondrial mass and expression of several PGC-1α target genes involved in mitochondrial function. Using FXR-rich or FXR-nonexpressing cell lines and tissues, we found that this effect of GW4064 is not mediated directly by FXR but occurs via activation of estrogen receptor-related receptor α (ERRα). Cell-based, biochemical and biophysical assays indicate GW4064 as an agonist of ERR proteins. Interestingly, FXR disruption alters GW4064 induction of PGC-1α mRNA in a tissue-dependent manner. Using FXR-null [FXR knockout (FXRKO)] mice, we determined that GW4064 induction of PGC-1α expression is not affected in oxidative soleus muscles of FXRKO mice but is compromised in the FXRKO liver. Mechanistic studies to explain these differences revealed that FXR physically interacts with ERR and protects them from repression by the atypical corepressor, small heterodimer partner in liver. Together, this interplay between ERRα-FXR-PGC-1α and small heterodimer partner offers new insights into the biological functions of ERRα and FXR, thus providing a knowledge base for therapeutics in energy balance-related pathophysiology.