Badri N. Pandey scite author profile

The translationally controlled tumor protein (TCTP) is essential for survival by mechanisms that as yet are incompletely defined. Here we describe an important role of TCTP in response to DNA damage. Upon exposure of normal human cells to low-dose γ rays, the TCTP protein level was greatly increased, with a significant enrichment in nuclei. TCTP up-regulation occurred in a manner dependent on ataxia-telangiectasia mutated (ATM) kinase and the DNA-dependent protein kinase and was associated with protective effects against DNA damage. In chromatin of irradiated cells, coimmunoprecipitation experiments showed that TCTP forms a complex with ATM and γH2A.X, in agreement with its distinct localization with the foci of the DNA damage-marker proteins γH2A.X, 53BP1, and P-ATM. In cells lacking TCTP, repair of chromosomal damage induced by γ rays was compromised significantly. TCTP also was shown to interact with p53 and the DNA-binding subunits, Ku70 and Ku80, of DNA-dependent protein kinase. TCTP knockdown led to decreased levels of Ku70 and Ku80 in nuclei of irradiated cells and attenuated their DNA-binding activity. It also attenuated the radiation-induced G 1 delay but prolonged the G 2 delay. TCTP therefore may play a critical role in maintaining genomic integrity in response to DNA-damaging agents.low dose ionizing radiation | adaptive responses | DNA repair | cell cycle checkpoints | genomic stability

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Synthesis of oleic acid functionalized Fe3O4 magnetic nanoparticles and studying their interaction with tumor cells for potential hyperthermia applications

Jadhav

Prasad

Kumar

et al. 2013

Colloids and Surfaces B: Biointerfaces

142

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pH‐Responsive Peptide Mimic Shell Cross‐Linked Magnetic Nanocarriers for Combination Therapy

Barick

Singh

Jadhav

et al. 2012

Adv Funct Materials

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The design and development of water dispersible, pH responsive peptide mimic shell cross‐linked magnetic nanocarriers (PMNCs) using a facile soft‐chemical approach is reported. These nanocarriers have an average size about 10 nm, are resistant to protein adsorption in physiological medium, and transform from a negatively charged to a positively charged form in the acidic environment. The terminal amino acid on the shell of the magnetic nanocarriers allows us to create functionalized exteriors with high densities of organic moieties (both amine and carboxyl) for conjugation of drug molecules. The drug‐loading efficiency of the nanocarriers is investigated using doxorubicin hydrochloride (DOX) as a model drug to evaluate their potential as a carrier system. Results show high loading affinity of nanocarriers for anticancer drug, their sustained release profile, magnetic‐field‐induced heating, and substantial cellular internalization. Moreover, the enhanced toxicity to tumor cells by DOX‐loaded PMNCs (DOX‐PMNCs) under an AC magntic field suggest their potential for combination therapy involving hyperthermia and chemotherapy.

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Differential response of DU145 and PC3 prostate cancer cells to ionizing radiation: Role of reactive oxygen species, GSH and Nrf2 in radiosensitivity

Jayakumar

Kunwar

Sandur

et al. 2014

Biochimica et Biophysica Acta (BBA) - General Subjects

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Cytokine profile of conditioned medium from human tumor cell lines after acute and fractionated doses of gamma radiation and its effect on survival of bystander tumor cells

et al. 2013

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Potential of traditional ayurvedic formulation, Triphala, as a novel anticancer drug

et al. 2006

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Bi-functional properties of Fe3O4@YPO4:Eu hybrid nanoparticles: hyperthermia application

et al. 2013

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Magnetic nanoparticles based hyperthermia therapy is a possible low cost and effective technique for killing cancer tissues in the human body. Fe3O4 and Fe3O4@YPO4:5Eu hybrid magnetic nanoparticles are prepared by co-precipitation method and their average particle sizes are found to be ∼10 and 25 nm, respectively. The particles are spherical, non-agglomerated and highly dispersible in water. The crystallinity of as-prepared YPO4:5Eu sample is more than Fe3O4@YPO4:5Eu hybrid magnetic nanoparticles. The chemical bonds interaction between Fe3O4 and YPO4:5Eu is confirmed through FeO-P. The magnetization of hybrid nanocomposite shows magnetization Ms = 11.1 emu g(-1) with zero coercivity (measured at 2 × 10(-4) Oe) at room temperature indicating superparamagnetic behaviour. They attain hyperthermia temperature (~42 °C) under AC magnetic field showing characteristic induction heating of the prepared nanohybrid and they will be potential material for biological application. Samples produce the red emission peaks at 618 nm and 695 nm, which are in range of biological window. The quantum yield of YPO4:5Eu sample is found to be 12%. Eu(3+) present on surface and core could be distinguished from luminescence decay study. Very high specific absorption rate up to 100 W g(-1) could be achieved. The intracellular uptake of nanocomposites is found in mouse fibrosarcoma (Wehi 164) tumor cells by Prussian blue staining.

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Badri N. Pandey

Induction heating studies of Fe3O4 magnetic nanoparticles capped with oleic acid and polyethylene glycol for hyperthermia

Role of the translationally controlled tumor protein in DNA damage sensing and repair

Synthesis of oleic acid functionalized Fe3O4 magnetic nanoparticles and studying their interaction with tumor cells for potential hyperthermia applications

pH‐Responsive Peptide Mimic Shell Cross‐Linked Magnetic Nanocarriers for Combination Therapy

Differential response of DU145 and PC3 prostate cancer cells to ionizing radiation: Role of reactive oxygen species, GSH and Nrf2 in radiosensitivity

Cytokine profile of conditioned medium from human tumor cell lines after acute and fractionated doses of gamma radiation and its effect on survival of bystander tumor cells

Potential of traditional ayurvedic formulation, Triphala, as a novel anticancer drug

Bi-functional properties of Fe3O4@YPO4:Eu hybrid nanoparticles: hyperthermia application

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