参与评估氨基乙酰丙酸诱导的原卟啉IX荧光的因素。

Cunderlíková Beata, Peng Qian, Mateasík Anton

International Laser Center, Ilkovicova 3, 841 04 Bratislava, Slovakia.

Biochim Biophys Acta. 2013 Mar;1830(3):2750-62. doi: 10.1016/j.bbagen.2012.10.023.

BACKGROUND

Photodynamic therapy and photodiagnosis of cancer requires preferential accumulation of fluorescent photosensitizers in tumors. Clinical evidence documents feasibility of ALA-based photodiagnosis for tumor detection. However, false positive results and large variations in fluorescence intensities are also reported. Furthermore, selective accumulation of fluorescent species of photosensitizers in tumor cell lines, as compared to normal ones, when cultured in vitro, is not always observed. To understand this discrepancy we analyzed the impact of various factors on the intensity of detected PpIX fluorescence.

METHODS

Impacts of cell type, mitochondrial potential, cell-cell interactions and relocalization of PpIX among different cell types in co-cultures of different cell lines were analyzed by confocal microscopy and flow cytometry. Fluorescence spectroscopy was used to estimate absolute amounts of ALA-induced PpIX in individual cell lines. Immunofluorescence staining was applied to evaluate the ability of cell lines to produce collagen.

RESULTS

Higher ALA-induced PpIX fluorescence in cancer cell lines as compared to normal ones was not detected by all the methods used. Mitochondrial activity was heterogeneous throughout the cell monolayers and could not be clearly correlated with PpIX fluorescence. Positive collagen staining was detected in all cell lines tested.

CONCLUSIONS

Contrary to in vivo situation, ALA-induced PpIX production by cell lines in vitro may not result in higher PpIX fluorescence signals in tumor cells than in normal ones. We suggest that a combination of several properties of tumor tissue, instead of tumor cells only, is responsible for increased ALA-induced PpIX fluorescence in solid tumors.

GENERAL SIGNIFICANCE

Understanding the reasons of increased ALA-induced PpIX fluorescence in tumors is necessary for reliable ALA-based photodiagnosis, which is used in various oncological fields.

背景

癌症的光动力疗法和光诊断需要荧光光敏剂在肿瘤中优先积累。临床证据证明了基于5-氨基酮戊酸（ALA）的光诊断用于肿瘤检测的可行性。然而，也有假阳性结果以及荧光强度存在较大差异的报道。此外，在体外培养时，与正常细胞系相比，光敏剂的荧光物种在肿瘤细胞系中并非总能观察到选择性积累。为了理解这种差异，我们分析了各种因素对检测到的原卟啉IX（PpIX）荧光强度的影响。

方法

通过共聚焦显微镜和流式细胞术分析细胞类型、线粒体电位、细胞间相互作用以及不同细胞系共培养中不同细胞类型间PpIX的重新定位的影响。荧光光谱法用于估计单个细胞系中ALA诱导的PpIX的绝对量。免疫荧光染色用于评估细胞系产生胶原蛋白的能力。

结果

并非所有使用的方法都检测到癌细胞系中ALA诱导的PpIX荧光高于正常细胞系。整个细胞单层中的线粒体活性是异质性的，并且与PpIX荧光没有明显的相关性。在所有测试的细胞系中均检测到胶原蛋白阳性染色。

结论

与体内情况相反，体外细胞系中ALA诱导的PpIX产生可能不会导致肿瘤细胞中的PpIX荧光信号高于正常细胞。我们认为，实体瘤中ALA诱导的PpIX荧光增加是由肿瘤组织的多种特性共同作用导致的，而不仅仅是肿瘤细胞。

一般意义

了解肿瘤中ALA诱导的PpIX荧光增加的原因对于可靠的基于ALA的光诊断至关重要，这种光诊断已应用于各种肿瘤学领域。

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