Anup Kale scite author profile

Dietary foods and fruits possess an array of flavonoids with unique chemical structure and diverse bioactivities relevant to cancer. Numerous epidemiological studies have validated the inverse relation between the consumption of flavonoids and the risk of cancer. Flavonoids possess cancer blocking and suppressing effects. Flavonoids modulate various CYPs involved in carcinogen activation and scavenging reactive species formed from carcinogens by CYP-mediated reactions. They induce biosynthesis of several CYPs. They are involved in the regulation of enzymes of phase-II responsible for xenobiotic biotransformation and colon microflora. Since cytochromes P450, P-gp and phase-II enzymes are involved in the metabolism of drugs and in the processes of chemical carcinogenesis, interactions of flavonoids with these systems hold great promise for their therapeutic potential. The role of flavonoids also includes the inhibition of activation of pro-carcinogens, inhibition of proliferation of cancer cells, selective death of cancer cells by apoptosis, inhibition of metastasis and angiogenesis, activation of immune response against cancer cells, modulation of the inflammatory cascade and the modulation of drug resistance. This has greatly extended the goal of cancer therapy from eradicating the affected cells to control of the cancer phenotype. Phytotherapy is being used in combination with other therapies as phytonutrients have been shown to work by nutrient synergy.

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Studies on the effects of oral administration of nutrient mixture, quercetin and red onions on the bioavailability of epigallocatechin gallate from green tea extract

Kale¹,

Gawande²,

Kotwal³

et al. 2010

Phytotherapy Research

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Epigallocatechin gallate (EGCG), a main anticancer component in green tea, has a poor bioavailability in rats and humans due to oxidation, metabolism and its efflux. It was hypothesized that nutrients that address these problems might result in increased bioavailability. Plasma concentrations of EGCG at various time intervals were determined to calculate and compare the pharmacokinetic parameters after oral administration of green tea extract (GTE) or GTE as a nutrient mixture (E) or E + quercetin (Q)/red onions. In rat studies, supplementation of GTE with other nutrients (E) or E + Q raised the plasma C(max) from 55.29 +/- 1.70 to 61.94 +/- 1.70 ng/mL and 94.44 +/- 1.59 ng/mL, respectively. The corresponding t((1/2)) elimination was 2.04 +/- 0.2 h, 3.63 +/- 0.66 h and 2.28 +/- 0.049 h. The AUC(0-24h) were 510.16 +/- 9.88 for GTE, 601.72 +/- 19.10 ng.h/mL for E and 794.08 +/- 15.27 ng x h/mL (p < or = 0.05) for E + Q. In human studies when GTE was fed as GTE or E or E + red onions, the C(max) values were 348.4 +/- 76.6, 384.0 +/- 78.5 ng/mL and 468.4 +/- 131.4. AUC(0-8h) was 1784.1 +/- 56.06 (GTE), 1971.5 +/- 566.5 ng x h/mL (E) and 2490 +/- 878.1 (E + Q), but the change in t((1/2)) elimination was not significant.In conclusion, it is possible to increase the bioavailability of EGCG by supplementing it with nutrients and quercetin.

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Make Caffeine Visible: a Fluorescent Caffeine “Traffic Light” Detector

Wang

Kim

Zhai

et al. 2013

Sci Rep

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Caffeine has attracted abundant attention due to its extensive existence in beverages and medicines. However, to detect it sensitively and conveniently remains a challenge, especially in resource-limited regions. Here we report a novel aqueous phase fluorescent caffeine sensor named Caffeine Orange which exhibits 250-fold fluorescence enhancement upon caffeine activation and high selectivity. Nuclear magnetic resonance spectroscopy and Fourier transform infrared spectroscopy indicate that π-stacking and hydrogen-bonding contribute to their interactions while dynamic light scattering and transmission electron microscopy experiments demonstrate the change of Caffeine Orange ambient environment induces its fluorescence emission. To utilize this probe in real life, we developed a non-toxic caffeine detection kit and tested it for caffeine quantification in various beverages. Naked-eye sensing of various caffeine concentrations was possible based on color changes upon irradiation with a laser pointer. Lastly, we performed the whole system on a microfluidic device to make caffeine detection quick, sensitive and automated.

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Directed self-assembly of CdS quantum dots on bacteriophage P22 coat protein templates

et al. 2013

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The hierarchical organization of inorganic nanostructures has potential applications in diverse areas such as photocatalytic systems, composites, drug delivery and biomedicine. An attractive approach for this purpose is the use of biological organisms as templates since they often possess highly ordered arrays of protein molecules that can be genetically engineered for specific binding. Indeed, recent studies have shown that viruses can be used as versatile templates for the assembly of a variety of nanostructured materials because of their unique structural and chemical diversity. These highly ordered protein templates can be employed or adapted for specific binding interactions. Herein we report the directed self-assembly of independently synthesized 5 nm CdS nanocrystal quantum dots on ∼60 nm procapsid shells derived from wild-type P22 bacteriophage. The bacteriophage P22 shell is comprised of hexameric and pentameric clusters of subunits known as capsomeres. The pre-synthesized CdS QDs show the corresponding hexameric and pentameric patterns of assembly on these P22 shells, possibly by interacting with particular protein pockets.

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Anup Kale

Cancer phytotherapeutics: role for flavonoids at the cellular level

Studies on the effects of oral administration of nutrient mixture, quercetin and red onions on the bioavailability of epigallocatechin gallate from green tea extract

Make Caffeine Visible: a Fluorescent Caffeine “Traffic Light” Detector

Directed self-assembly of CdS quantum dots on bacteriophage P22 coat protein templates

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