Marie-Therese Haider, Vera Freytag, Linda Krause, Tanja Spethmann, Tobias Gosau, Mia C Beine, Christine Knies, Jennifer Schröder-Schwarz, Michael Horn, Kristoffer Riecken, Tobias Lange
{"title":"比较体内外生物发光成像、Alu-qPCR 和组织学方法,以量化皮下异种移植小鼠模型中的自发性肺转移和骨转移。","authors":"Marie-Therese Haider, Vera Freytag, Linda Krause, Tanja Spethmann, Tobias Gosau, Mia C Beine, Christine Knies, Jennifer Schröder-Schwarz, Michael Horn, Kristoffer Riecken, Tobias Lange","doi":"10.1007/s10585-024-10268-4","DOIUrl":null,"url":null,"abstract":"<p><p>Bioluminescence imaging (BLI) is a non-invasive state-of-the-art-method for longitudinal tracking of tumor cells in mice. The technique is commonly used to determine bone metastatic burden in vivo and also suitable ex vivo to detect even smallest bone micro-metastases in spontaneous metastasis xenograft models. However, it is unclear to which extent ex vivo BLI correlates with alternative methods for metastasis quantification. Here, we compared ex vivo BLI, human DNA-based Alu-qPCR, and histology for the quantification of bone vs. lung metastases, which are amongst the most common sites of metastasis in prostate cancer (PCa) patients and spontaneous PCa xenograft models. Data from 93 immunodeficient mice were considered, each of which were subcutaneously injected with luciferase/RGB-labeled human PCa PC-3 cells. The primary tumors were resected at ~ 0.75 cm³ and mice were sacrificed ~ 3 weeks after surgery and immediately examined by ex vivo BLI. Afterwards, the right lungs and hind limbs with the higher BLI signal (BLI<sup>Hi</sup> bone) were processed for histology, whereas the left lung lobes and hind limbs with the lower BLI signal (BLI<sup>Lo</sup> bone) were prepared for Alu-qPCR. Our data demonstrate remarkable differences in the correlation coefficients of the different methods for lung metastasis detection (r ~ 0.8) vs. bone metastasis detection (r ~ 0.4). However, the BLI values of the BLI<sup>Hi</sup> and BLI<sup>Lo</sup> bones correlated very strongly (r ~ 0.9), indicating that the method per se was reliable under identical limitations; the overall level of metastasis to contralateral bones was astonishingly similar. Instead, the level of lung metastasis only weakly to moderately correlated with the level of bone metastasis formation. Summarized, we observed a considerable discrepancy between ex vivo BLI and histology/Alu-qPCR in the quantification of bone metastases, which was not observed in the case of lung metastases. Future studies using ex vivo BLI for bone metastasis quantification should combine multiple methods to accurately determine metastatic load in bone samples.</p>","PeriodicalId":10267,"journal":{"name":"Clinical & Experimental Metastasis","volume":" ","pages":"103-115"},"PeriodicalIF":4.2000,"publicationDate":"2024-04-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10972982/pdf/","citationCount":"0","resultStr":"{\"title\":\"Comparison of ex vivo bioluminescence imaging, Alu-qPCR and histology for the quantification of spontaneous lung and bone metastases in subcutaneous xenograft mouse models.\",\"authors\":\"Marie-Therese Haider, Vera Freytag, Linda Krause, Tanja Spethmann, Tobias Gosau, Mia C Beine, Christine Knies, Jennifer Schröder-Schwarz, Michael Horn, Kristoffer Riecken, Tobias Lange\",\"doi\":\"10.1007/s10585-024-10268-4\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Bioluminescence imaging (BLI) is a non-invasive state-of-the-art-method for longitudinal tracking of tumor cells in mice. The technique is commonly used to determine bone metastatic burden in vivo and also suitable ex vivo to detect even smallest bone micro-metastases in spontaneous metastasis xenograft models. However, it is unclear to which extent ex vivo BLI correlates with alternative methods for metastasis quantification. Here, we compared ex vivo BLI, human DNA-based Alu-qPCR, and histology for the quantification of bone vs. lung metastases, which are amongst the most common sites of metastasis in prostate cancer (PCa) patients and spontaneous PCa xenograft models. Data from 93 immunodeficient mice were considered, each of which were subcutaneously injected with luciferase/RGB-labeled human PCa PC-3 cells. The primary tumors were resected at ~ 0.75 cm³ and mice were sacrificed ~ 3 weeks after surgery and immediately examined by ex vivo BLI. Afterwards, the right lungs and hind limbs with the higher BLI signal (BLI<sup>Hi</sup> bone) were processed for histology, whereas the left lung lobes and hind limbs with the lower BLI signal (BLI<sup>Lo</sup> bone) were prepared for Alu-qPCR. Our data demonstrate remarkable differences in the correlation coefficients of the different methods for lung metastasis detection (r ~ 0.8) vs. bone metastasis detection (r ~ 0.4). However, the BLI values of the BLI<sup>Hi</sup> and BLI<sup>Lo</sup> bones correlated very strongly (r ~ 0.9), indicating that the method per se was reliable under identical limitations; the overall level of metastasis to contralateral bones was astonishingly similar. Instead, the level of lung metastasis only weakly to moderately correlated with the level of bone metastasis formation. Summarized, we observed a considerable discrepancy between ex vivo BLI and histology/Alu-qPCR in the quantification of bone metastases, which was not observed in the case of lung metastases. 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引用次数: 0
摘要
生物发光成像(BLI)是纵向追踪小鼠体内肿瘤细胞的无创先进方法。该技术通常用于确定体内骨转移负荷,也适用于体外检测自发转移异种移植模型中最小的骨微小转移灶。然而,目前还不清楚体内外 BLI 与其他转移量化方法的相关程度。在这里,我们比较了体内外 BLI、基于人类 DNA 的 Alu-qPCR 和组织学对骨转移和肺转移的定量,骨转移是前列腺癌(PCa)患者和自发性 PCa 异种移植模型中最常见的转移部位之一。研究考虑了 93 只免疫缺陷小鼠的数据,每只小鼠都皮下注射了荧光素酶/RGB 标记的人类 PCa PC-3 细胞。原发肿瘤约 0.75 立方厘米处被切除,小鼠在手术后约 3 周被处死,并立即进行体外 BLI 检查。随后,对 BLI 信号较高的右肺和后肢(BLIHi 骨)进行组织学处理,而对 BLI 信号较低的左肺叶和后肢(BLILo 骨)进行 Alu-qPCR 处理。我们的数据表明,在肺转移瘤检测(r ~ 0.8)与骨转移瘤检测(r ~ 0.4)中,不同方法的相关系数存在明显差异。然而,BLIHi 和 BLILo 骨的 BLI 值相关性非常强(r ~ 0.9),这表明在相同的限制条件下,该方法本身是可靠的;对侧骨转移的总体水平惊人地相似。相反,肺转移水平与骨转移形成水平只有微弱到中等程度的相关性。总之,我们观察到体内外 BLI 和组织学/Alu-qPCR 在骨转移的量化方面存在相当大的差异,而在肺转移的情况中却没有观察到这种差异。未来使用体外 BLI 定量骨转移的研究应结合多种方法,以准确确定骨样本中的转移负荷。
Comparison of ex vivo bioluminescence imaging, Alu-qPCR and histology for the quantification of spontaneous lung and bone metastases in subcutaneous xenograft mouse models.
Bioluminescence imaging (BLI) is a non-invasive state-of-the-art-method for longitudinal tracking of tumor cells in mice. The technique is commonly used to determine bone metastatic burden in vivo and also suitable ex vivo to detect even smallest bone micro-metastases in spontaneous metastasis xenograft models. However, it is unclear to which extent ex vivo BLI correlates with alternative methods for metastasis quantification. Here, we compared ex vivo BLI, human DNA-based Alu-qPCR, and histology for the quantification of bone vs. lung metastases, which are amongst the most common sites of metastasis in prostate cancer (PCa) patients and spontaneous PCa xenograft models. Data from 93 immunodeficient mice were considered, each of which were subcutaneously injected with luciferase/RGB-labeled human PCa PC-3 cells. The primary tumors were resected at ~ 0.75 cm³ and mice were sacrificed ~ 3 weeks after surgery and immediately examined by ex vivo BLI. Afterwards, the right lungs and hind limbs with the higher BLI signal (BLIHi bone) were processed for histology, whereas the left lung lobes and hind limbs with the lower BLI signal (BLILo bone) were prepared for Alu-qPCR. Our data demonstrate remarkable differences in the correlation coefficients of the different methods for lung metastasis detection (r ~ 0.8) vs. bone metastasis detection (r ~ 0.4). However, the BLI values of the BLIHi and BLILo bones correlated very strongly (r ~ 0.9), indicating that the method per se was reliable under identical limitations; the overall level of metastasis to contralateral bones was astonishingly similar. Instead, the level of lung metastasis only weakly to moderately correlated with the level of bone metastasis formation. Summarized, we observed a considerable discrepancy between ex vivo BLI and histology/Alu-qPCR in the quantification of bone metastases, which was not observed in the case of lung metastases. Future studies using ex vivo BLI for bone metastasis quantification should combine multiple methods to accurately determine metastatic load in bone samples.
期刊介绍:
The Journal''s scope encompasses all aspects of metastasis research, whether laboratory-based, experimental or clinical and therapeutic. It covers such areas as molecular biology, pharmacology, tumor biology, and clinical cancer treatment (with all its subdivisions of surgery, chemotherapy and radio-therapy as well as pathology and epidemiology) insofar as these disciplines are concerned with the Journal''s core subject of metastasis formation, prevention and treatment.