Rajneeta Roy scite author profile

BackgroundIdentification of cytotoxic compounds that induce apoptosis has been the mainstay of anti-cancer therapeutics for several decades. In recent years, focus has shifted to inducing multiple modes of cell death coupled with reduced systemic toxicity. The plant Sesbania grandiflora is widely used in Indian traditional medicine for the treatment of a broad spectrum of diseases. This encouraged us to investigate into the anti-proliferative effect of a fraction (F2) isolated from S. grandiflora flowers in cancer cells and delineate the underlying involvement of apoptotic and autophagic pathways.Principal FindingsUsing MTT based cell viability assay, we evaluated the cytotoxic potential of fraction F2. It was the most effective on U937 cells (IC50∶18.6 µg/ml). Inhibition of growth involved enhancement of Annexin V positivity. This was associated with elevated reactive oxygen species generation, measured by flow cytometry and reduced oxygen consumption – both effects being abrogated by anti-oxidant NAC. This caused stimulation of pro-apoptotic proteins and concomitant inhibition of anti-apoptotic protein expressions inducing mitochondrial depolarization, as measured by flow cytometry and release of cytochrome c. Interestingly, even with these molecular features of apoptosis, F2 was able to alter Atg protein levels and induce LC3 processing. This was accompanied by formation of autophagic vacuoles as revealed by fluorescence and transmission electron microscopy – confirming the occurrence of autophagy. Eventually, F2 triggered caspase cascade – executioners of programmed cell death and AIF translocation to nuclei. This culminated in cleavage of the DNA repair enzyme, poly (ADP-ribose) polymerase that caused DNA damage as proved by staining with Hoechst 33258 leading to cell death.ConclusionsThe findings suggest fraction F2 triggers pro-oxidant activity and mediates its cytotoxicity in leukemic cells via apoptosis and autophagy. Thus, it merits consideration and further investigation as a therapeutic option for the treatment of leukemia.

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Enzymatic and Regulatory Attributes of Trehalose‐6‐Phosphate Phosphatase from Candida utilis and its Role During Thermal Stress

Lahiri

Banerjee

Dutta

et al. 2014

Journal Cellular Physiology

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Trehalose-6-phosphate phosphatase (TPP) catalyzes the final step in the biosynthesis of the anti-stress sugar trehalose. An 82 kDa TPP enzyme was isolated from Candida utilis with 61% yield and 43-fold purification. The protein sequence, determined by N-terminal sequencing and MALDI-TOF analysis, showed significant homology with known TPP sequences from related organisms. The full length gene sequence of TPP of C. utilis was identified using rapid amplification of cDNA ends-PCR reaction (RACE-PCR). The gene was cloned and expressed in Escherichia coli BL21. Recombinant TPP enzyme was isolated using affinity chromatography. CD spectroscopy and steady-state fluorescence revealed that the structural and conformational aspects were identical in both native and recombinant forms. The biochemical properties of the two forms were also similar. Km was determined to be ~0.8 mM. Optimum temperature and pH were found to be 30 °C and 8.5, respectively. Activity was dependent on the presence of divalent cations and inhibited by metal chelators. Methylation-mediated regulation of TPP enzyme and its effect on the overall survival of the organism under stress were investigated. The results indicated that enhancement of TPP activity by methylation at the Cysteine residues increased resistance of Candida cells against thermal stress. This work involves extensive investigations toward understanding the physico-chemical properties of the first TPP enzyme from any yeast strain. The mechanism by which methylation regulates its activity has also been studied. A correlation between regulation of trehalose synthesis and survivability of the organism under thermal stress was established.

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Synthesis acid phosphatase and other proteins by human prostatic tissue in vitro

Dubé¹,

Chapdelaine²,

Tremblay³

et al. 1984

Can. J. Biochem. Cell Biol.

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We have studied the synthesis of proteins by normal and hyperplastic human prostatic tissue incubated in vitro in the presence of [35S]methionine. The overall pattern of newly synthesized proteins was similar in individuals with an age ranging from 15 to 68 years. The pattern of labeled proteins was quite different from that of total proteins stained with Coomassie blue in two-dimensional polyacrylamide gels, since the major stained proteins was not labeled. Among the most heavily labeled proteins (about a dozen) were several spots representing charge isoforms with molecular weights ranging from 46 000 to 51 000, and these were the only proteins immunoprecipitated by a polyclonal antibody developed against purified acid phosphatase. The other heavily labeled proteins had molecular weights ranging from 26 000 to 72 000. These results show that tissue slices can be used to study the synthesis and processing of acid phosphatase, the major secretory product of the prostate, and of other unidentified proteins.

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Rajneeta Roy

Anti-malarial activity of some xanthones isolated from the roots of Andrographis paniculata

Synthesis, cytotoxicity, and structure–activity relationship (SAR) studies of andrographolide analogues as anti-cancer agent

Apoptotic and Autophagic Effects of Sesbania grandiflora Flowers in Human Leukemic Cells

Enzymatic and Regulatory Attributes of Trehalose‐6‐Phosphate Phosphatase from Candida utilis and its Role During Thermal Stress

Synthesis acid phosphatase and other proteins by human prostatic tissue in vitro

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