REDOX IMAGING OF THE p53-DEPENDENT MITOCHONDRIAL REDOX STATE IN COLON CANCER EX VIVO.

IF 2.3 3区医学 Q2 OPTICS

Journal of Innovative Optical Health Sciences Pub Date : 2013-07-01 DOI:10.1142/S1793545813500168

He N Xu, Min Feng, Lily Moon, Nathan Dolloff, Wafik El-Deiry, Lin Z Li

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Abstract

The mitochondrial redox state and its heterogeneity of colon cancer at tissue level have not been previously reported. Nor has how p53 regulates mitochondrial respiration been measured at (deep) tissue level, presumably due to the unavailability of the technology that has sufficient spatial resolution and tissue penetration depth. Our prior work demonstrated that the mitochondrial redox state and its intratumor heterogeneity is associated with cancer aggressiveness in human melanoma and breast cancer in mouse models, with the more metastatic tumors exhibiting localized regions of more oxidized redox state. Using the Chance redox scanner with an in-plane spatial resolution of 200 μm, we imaged the mitochondrial redox state of the wild-type p53 colon tumors (HCT116 p53 wt) and the p53-deleted colon tumors (HCT116 p53^-/-) by collecting the fluorescence signals of nicotinamide adenine dinucleotide (NADH) and oxidized flavoproteins [Fp, including flavin adenine dinucleotide (FAD)] from the mouse xenografts snap-frozen at low temperature. Our results show that: (1) both tumor lines have significant degree of intratumor heterogeneity of the redox state, typically exhibiting a distinct bi-modal distribution that either correlates with the spatial core-rim pattern or the "hot/cold" oxidation-reduction patches; (2) the p53^-/- group is significantly more heterogeneous in the mitochondrial redox state and has a more oxidized tumor core compared to the p53 wt group when the tumor sizes of the two groups are matched; (3) the tumor size dependence of the redox indices (such as Fp and Fp redox ratio) is significant in the p53^-/- group with the larger ones being more oxidized and more heterogeneous in their redox state, particularly more oxidized in the tumor central regions; (4) the H&E staining images of tumor sections grossly correlate with the redox images. The present work is the first to reveal at the submillimeter scale the intratumor heterogeneity pattern of the mitochondrial redox state in colon cancer and the first to indicate that at tissue level the mitochondrial redox state is p53 dependent. The findings should assist in our understanding on colon cancer pathology and developing new imaging biomarkers for clinical applications.

Abstract Image

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活体检测结肠癌中 p53 依赖性微氧化还原状态的氧化还原成像。

结肠癌的线粒体氧化还原状态及其在组织水平上的异质性此前尚未见报道。p53如何调节线粒体呼吸也没有在（深层）组织水平上进行过测量，这可能是由于缺乏具有足够空间分辨率和组织穿透深度的技术。我们之前的研究表明，线粒体氧化还原状态及其瘤内异质性与小鼠模型中人类黑色素瘤和乳腺癌的侵袭性有关，转移性更强的肿瘤局部区域氧化还原状态更强。我们使用平面内空间分辨率为 200 μm 的 Chance 氧化还原扫描仪，通过收集烟酰胺腺嘌呤二核苷酸（NADH）和氧化黄素蛋白 [Fp、包括黄素腺嘌呤二核苷酸（FAD）]的荧光信号。我们的研究结果表明(1) 两种肿瘤品系的氧化还原状态在肿瘤内都具有明显的异质性，通常表现出明显的双模式分布，这种分布要么与空间核心-边缘模式相关，要么与 "热/冷 "氧化-还原斑块相关；(2) 当两组肿瘤大小匹配时，p53-/-组与 p53 wt 组相比，线粒体氧化还原状态的异质性明显更高，肿瘤核心的氧化程度更高；(3) p53-/- 组肿瘤的氧化还原指数（如 Fp 和 Fp 氧化还原比）与肿瘤大小有显著的相关性，肿瘤越大，氧化越严重，氧化还原状态越不均匀，尤其是肿瘤中心区域氧化更严重；(4) 肿瘤切片的 H&E 染色图像与氧化还原图像有明显的相关性。本研究首次在亚毫米尺度上揭示了结肠癌线粒体氧化还原状态的瘤内异质性模式，并首次表明在组织水平上线粒体氧化还原状态依赖于 p53。这些发现将有助于我们了解结肠癌病理，并为临床应用开发新的成像生物标记物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Innovative Optical Health Sciences OPTICS-RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

CiteScore

4.50

自引率

20.00%

发文量

审稿时长

>12 weeks

期刊介绍： JIOHS serves as an international forum for the publication of the latest developments in all areas of photonics in biology and medicine. JIOHS will consider for publication original papers in all disciplines of photonics in biology and medicine, including but not limited to: -Photonic therapeutics and diagnostics- Optical clinical technologies and systems- Tissue optics- Laser-tissue interaction and tissue engineering- Biomedical spectroscopy- Advanced microscopy and imaging- Nanobiophotonics and optical molecular imaging- Multimodal and hybrid biomedical imaging- Micro/nanofabrication- Medical microsystems- Optical coherence tomography- Photodynamic therapy. JIOHS provides a vehicle to help professionals, graduates, engineers, academics and researchers working in the field of intelligent photonics in biology and medicine to disseminate information on the state-of-the-art technique.