Wakako Hiraoka scite author profile

Although enhancement of ultrasound-induced cell killing by photodynamic reagents has been shown, the sonochemical mechanism in detail is still not clear. Here, comparison between sonodynamic effect and photodynamic effect with photosensitizers at a concentration of 10 microM on free radical formation and cell killing was made. When electron paramagnetic-resonance spectroscopy (EPR) was used to detect 2,2,6,6-tetramethyl-4-piperidone-N-oxyl (TAN) after photo-irradiation or sonication with 2,2,6,6-tetramethyl-4-piperidone (TMPD), the order of TAN formation in the photo-irradiated samples was as follows: rhodamine 6G (R6) > sulforhodamine B (SR) > hematoporphyrin (Hp) > rhodamine 123 (R123) > rose bengal (RB)>erythrosine B (Er) = 0; although there was time-dependent TAN formation when the samples were sonicated, no significant difference among these agents were observed. All these agents suppressed ultrasound-induced OH radical formation detected by EPR-spin trapping. Sensitizer-derived free radicals were markedly observed in SR, RB and Er, while trace level of radicals derived from R6 and R123 were observed. Enhancement of ultrasound-induced decrease of survival in human lymphoma U937 cells was observed at 1.5 W/cm(2) (less than inertial cavitation threshold) for R6, R123, SR and Er, and at 2.3 W/cm(2) for R6, R123, Er, RB and SR. On the other hand, photo-induced decrease of survival was observed for R6, Hp and RB at the same concentration (10 microM). These comparative results suggest that (1) (1)O(2) is not involved in the enhancement of ultrasound-induced loss of cell survival, (2) OH radicals and sensitizer-derived free radicals do not take part in the enhancement, and (3) the mechanism is mainly due to certain mechanical stress such as augmentation of physical disruption of cellular membrane by sensitizers in the close vicinity of cells and/or cavitation bubbles.

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Role of oxygen radicals generated by NADPH oxidase in apoptosis induced in human leukemia cells.

Hiraoka

Vázquez

Nieves-Neira

et al. 1998

J. Clin. Invest.

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We have used a human leukemia cell line that, after homologous recombination knockout of the gp91-phox subunit of the phagocyte respiratory-burst oxidase cytochrome b -558, mimics chronic granulomatous disease (X-CGD) to study the role of oxygen radicals in apoptosis. Camptothecin (CPT), a topoisomerase I inhibitor, induced significantly more apoptosis in PLB-985 cells than in X-CGD cells. Sensitivity to CPT was enhanced after neutrophilic differentiation, but was lost after monocytic differentiation. No difference between the two cell lines was observed after treatment with other apoptosis inducers, including etoposide, ultraviolet radiation, ionizing radiation, hydrogen peroxide, or 7-hydroxystaurosporine. After granulocytic differentiation of both cell lines, CPT still induced apoptosis, suggesting independence from replication in fully differentiated and growth-arrested cells. Pyrrolidine dithiocarbamate (an antioxidant inhibitor of NF-B) and catalase partially inhibited CPT-induced DNA fragmentation in granulocytic-differentiated PLB-985 cells, but had no effect in X-CGD cells. Flow cytometry analysis revealed that reactive oxygen intermediates were generated in CPT-treated PLB-985 cells. These data indicate that oxygen radicals generated by NADPH oxidase may contribute directly or indirectly to CPT-induced apoptosis in human leukemia and in neutrophilic-differentiated cells. ( J. Clin. Invest. 1998Invest. . 102:1961Invest. -1968

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Ca2+-dependent and Caspase-3–independent Apoptosis Caused by Damage in Golgi Apparatus due to 2,4,5,7-Tetrabromorhodamine 123 Bromide–induced Photodynamic Effects¶

Ogata¹,

Inanami²,

Nakajima³

et al. 2003

Photochem Photobiol

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To clarify the role of the Golgi apparatus in photodynamic therapy-induced apoptosis, its signaling pathway was studied after photodynamic treatment of human cervix carcinoma cell line HeLa, in which a photosensitizer, 2,4,5,7-tetrabromorhodamine 123 bromide (TBR), was incorporated into the Golgi apparatus. Laser scanning microscopic analysis of TBR-loaded HeLa cells confirmed that TBR was exclusively located in the Golgi apparatus. HeLa cells incubated with TBR for 1 h were then exposed to visible light using an Xe lamp. Light of wavelength below 670 nm was eliminated with a filter. Morphological observation of nuclei stained with Hoechst 33342 revealed that apoptosis of cells was induced by exposure to light. Electron spin resonance spectrometry showed that light-exposed TBR produced both singlet oxygen (1O2) and superoxide anion (O2-). Apoptosis induction by TBR was inhibited by pyrrolidine dithiocarbamate, an O2- scavenger, but not by NaN3, a quencher of 1O2. Furthermore, TBR-induced apoptosis was inhibited by aurintricarboxylic acid and ZnCl2, which are known as inhibitors of deoxyribonuclease (DNase) gamma, and (acetoxymethyl)-1,2-bis(o-aminophenoxy)-ethane-N,N,N',N'-tetraacetic acid, a chelator of Ca2+, but not by acetyl Asp-Glu-Val-Asp-aldehyde, an inhibitor of caspase-3. These results suggested that O2- was responsible for TBR-induced apoptosis, and Ca(2+)-dependent and caspase-3-independent nuclease such as DNase gamma played an important role in apoptotic signaling triggered by Golgi dysfunction.

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Effects of BAPTA‐AM and Forskolin on Apoptosis and Cytochrome c Release in Photosensitized Chinese Hamster V79 Cells

Inanami

Yoshito

Takahashi

et al. 1999

Photochem & Photobiology

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The mechanism of caspase-3-dependent apoptosis induced by photodynamic therapy (PDT) of cultured Chinese hamster V79 cells with pheophorbide a (PPa) was investigated. The PPa-PDT induced rapid apoptosis within 30 min after irradiation of cells. This apoptosis was inhibited by the 1O2 quencher N3- and caspase-3 inhibitor acetyl-Asp-Glu-Val-Asp-aldehyde, suggesting that 1O2 activated caspase-3 and then caused apoptosis. The intracellular calcium [Ca2+]i chelator (acetoxymethyl)-1,2-bis(o-aminophenoxy)ethane N,N,N',N'-tetraacetic acid (BAPTA-AM) and the cyclic adenosine monophosphate (cAMP)-increasing agent forskolin also inhibited not only the PPa-PDT-induced activation of caspase-3 but also apoptosis in V79 cells. Furthermore, PPa-PDT-induced cytochrome c release from mitochondria was found to be inhibited by the treatment with BAPTA-AM but not forskolin. These results indicated that [Ca2+]i and cAMP independently serve as regulators for PPa-PDT-induced apoptosis in the upstream of caspase-3.

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Identification of pH-sensitive regions in the mouse prion by the cysteine-scanning spin-labeling ESR technique

Watanabe

Inanami

Horiuchi

et al. 2006

Biochemical and Biophysical Research Communications

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We analyzed the pH-induced mobility changes in moPrP C α-helix and β-sheets by cysteine-scanning site-directed spin labeling (SDSL) with ESR. Nine amino acid residues of α-helix1 (H1, codon143-151), four amino acid residues of β-sheet1 (S1, codon127-130) and four amino acid residues of β-sheet2 (S2, codon160-163) were substituted for by cysteine residues. These recombinant mouse PrP was measured as a mobility parameter of nitroxide residues (R1). The mobilities of E145R1 and Y149R1 at pH 7.4, which was identified as a tertiary contact site by a previous NMR study of moPrP, were lower than those of D143R1, R147R1 and R150R1 reported on the helix surface. Thus, the mobility in the H1 region in the neutral solution was observed with the periodicity associated with a helical structure. On the other hand, the values in the S2 region, known to be located in the buried side, were lower than those in the S1 region located in the surface side. These results indicated that the mobility parameter of the nitroxide label was well correlated with the 3D structure of moPrP. Furthermore, the present study clearly demonstrated three pH-sensitive sites in moPrP, i.e., (1) the N-terminal tertiary contact site of H1, (2) the C-terminal end of H1 and (3) the S2 region. In particular, among these pH-sensitive sites, the N-terminal tertiary contact region of H1 was found to be the most pH-sensitive one and was easily converted to a flexible structure by a slight decrease of pH in the solution. These data provided molecular evidence to explain the cellular mechanism for conversion from PrP

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Wakako Hiraoka

Comparison between sonodynamic effect and photodynamic effect with photosensitizers on free radical formation and cell killing

Role of oxygen radicals generated by NADPH oxidase in apoptosis induced in human leukemia cells.

Ca2+-dependent and Caspase-3–independent Apoptosis Caused by Damage in Golgi Apparatus due to 2,4,5,7-Tetrabromorhodamine 123 Bromide–induced Photodynamic Effects¶

Effects of BAPTA‐AM and Forskolin on Apoptosis and Cytochrome c Release in Photosensitized Chinese Hamster V79 Cells

Identification of pH-sensitive regions in the mouse prion by the cysteine-scanning spin-labeling ESR technique

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