Rapid initiation of apoptosis can be induced by photodynamic therapy, depending on the cell line and sensitizer employed. In this study, we evaluated the photodynamic responses to two structurally related photosensitizing agents, using the P388 murine leukemia cell line in culture. Photodamage mediated by tin etiopurpurin involved lysosomes and mitochondria and yielded a rapid apoptotic response; apoptotic nuclei were observed within 60 min after PDT. A drug analog, tin octaethylpurpurin amidine, targeted lysosomes, mitochondria and cell membranes; apoptotic nuclei were not observed until 24 h after PDT. These results, together with other recent reports, are consistent with the hypothesis that membrane photodamage can delay or prevent an apoptotic response to PDT.
Photodamage to the mitochondria of murine leukemia P388 cells resulted in immediate loss of the mitochondrial membrane potential together with the release of cytochrome c into the cytosol. This was followed by a rapid activation of caspase 3-like proteases, as indicated by a marked rise in DEVDase activity. There was no significant effect on WEHDase or VEIDase activities, suggesting that only the late-stage caspases had been effected. The apoptotic response to mitochondrial photodamage was abolished by the broadspectrum caspase inhibitor zVAD-fmk, but this did not prevent loss of viability after mitochondrial photodamage. These studies indicate that the release of cytochrome c from photodamaged mitochondria is sufficient to directly initiate a caspase-dependent apoptotic response.Keywords: apoptosis; photodynamic therapy; photosensitization; proteases Abbreviations: Ac-DEVD-fmk, acetyl-asp-glu-val-asp fmk; amc, 7-amino-4-methyl coumarin; cmk, chloromethylketone; CPO, 9-capronyloxy-tetrakis(methyoxyethyl)porphycene; fmc, 7-amido-4-tri¯uoromethyl coumarin; fmk,¯uoromethylketone; FHS, Fischer's medium (10% horse serum) buffered with 20 mM HEPES instead of NaHCO 3 ; HO342, Ho È chst dye 33342 (bis-benzimide); PcM, porphycene monomer; LD xx , PDT dose such that xx% of the cells are killed;
Photodynamic therapy (PDT) of neoplastic cell lines is sometimes associated with the rapid initiation of apoptosis, a mode of cell death that results in a distinct pattern of cellular and DNA fragmentation. The apoptotic response appears to be a function of both the sensitizer and the cell line. In this study, we examined photodynamic effects of several photosensitizers on murine leukemia P388 cells. Two drugs, a porphycene dimer (PcD) and tin etiopurpurin (SnET2), which localized at lysosomal sites, were tested at PDT doses that resulted in 50% loss of viability (LD50), measured by the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay. An oligonucleosomal pattern of DNA degradation was observed within 1 h after irradiation. Neither sensitizer antagonized PDT-mediated internucleosomal DNA cleavage by the other. Very high PDT doses with either agent abolished this rapid internucleosomal cleavage. Exposure of cells to high concentrations of either sensitizer in the dark also resulted in rapid DNA fragmentation to nucleosomes and nucleosome multimers; this effect was not altered by the antioxidant 6-hydroxy-2,5,7,8-tetramethyl-chroman-2-carboxylic acid (trolox), although the latter could protect cells from cytotoxicity and apoptotic effects caused by LD50 PDT doses. Photodamage from two cationic sensitizers, which localized at membrane sites, caused rapid DNA cleavage to 50 kb particles; however, no further fragmentation was detected after 1 h under LD10, LD50 or LD95 PDT conditions. Moreover, the presence of either cationic sensitizer inhibited the rapid internucleosomal cleavage induced by SnET2 or PcD photodamage. The site of photodynamic action may therefore be a major determinant of the initiation and rate of progression of apoptosis.
Thyroid nodules are very common all over the world, and China is no exception. Ultrasound plays an important role in determining the risk stratification of thyroid nodules, which is critical for clinical management of thyroid nodules. For the past few years, many versions of TIRADS (Thyroid Imaging Reporting and Data System) have been put forward by several institutions with the aim to identify whether nodules require fine-needle biopsy or ultrasound follow-up. However, no version of TIRADS has been widely adopted worldwide till date. In China, as many as ten versions of TIRADS have been used in different hospitals nationwide, causing a lot of confusion. With the support of the Superficial Organ and Vascular Ultrasound Group of the Society of Ultrasound in Medicine of the Chinese Medical Association, the Chinese-TIRADS that is in line with China's national conditions and medical status was established based on literature review, expert consensus, and multicenter data provided by the Chinese Artificial Intelligence Alliance for Thyroid and Breast Ultrasound.
While chloroaluminum phthalocyanine is a highly effective photosensitizer of murine leukemia P388 or L1210 cells, the mode of cell death varies as a function of the PDT dose. When cells were incubated with 0.3 microM of the sensitizer, a light dose of 45 mJ cm-2 (670 +/- 5 nm) yielded a 90% apoptotic cell population within 60 min. The sensitizer localized throughout the cytoplasm and catalyzed both lysosomal and mitochondrial photodamage at this light dose. Higher light doses yielded progressively more membrane photodamage and inhibited the apoptotic response as determined by the examination of Höchst dye HO 33342-labeled nuclei, DNA fragmentation on gels and a poly(adenosylribose) polymerase (PARP)-cleavage assay. Pulse-field gel electrophoresis revealed nonspecific DNA degradation to particles > or = 50 kbp at the higher PDT doses but neither PARP cleavage nor apoptotic nuclei.
ObjectiveDeficiency or reduced expression of signal transduction and activation of RNA family protein Quaking (Qki) is associated with developmental defects in neural and vascular tissues and the development of debilitating human diseases including colorectal cancer (CRC). However, the mechanisms underlying the aberrant downregulation or deficiency of Qki were uncertain.DesignExpression of miR-574-5p, Qki5/6/7/7b splicing variants, β-catenin and p27Kip1 was determined in mouse and human CRC cells and tissues to investigate the post-transcriptional regulation of Qki isoforms by miR-574-5p and its impact on β-catenin/p27Kip1 signalling, cell cycle progression, proliferation, migration, invasion and tumour growth.ResultsIn the CRC tissues of C57BL/6-Apcmin/+ mice, miR-574-5p was found to be significantly upregulated and negatively correlated with the expression of Qki but positively correlated with the expression of β-catenin. In mouse and human CRC cells, miR-574-5p was shown to regulate Qki isoforms (Qki6/7 in particular) post-transcriptionally and caused altered expression in β-catenin and p27Kip1, increased proliferation, migration and invasion and decreased differentiation and cell cycle exit. Furthermore, in clinical CRC tissues, miR-574-5p was shown to be greatly upregulated and inversely correlated with the expression of Qkis. Finally, inhibition of miR-574-5p was shown to suppress the growth of tumours in the nude mice.ConclusionsTogether, these novel findings suggest that miR-574-5p is a potent ribo-regulator for Qkis and that aberrant miR-574-5p upregulation can be oncogenic.
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