Molecular imaging of mesothelioma by detection of manganese‐superoxide dismutase activity using manganese‐enhanced magnetic resonance imaging

Hasegawa, Sumitaka; Koshikawa-Yano, Michiko; Saito, Shigeyoshi; Morokoshi, Yukie; Furukawa, Takako; Aoki, Ichio; Saga, Tsuneo

doi:10.1002/ijc.25547

Cited by 17 publications

(23 citation statements)

References 26 publications

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“…Several studies have measured the T1 in tumors after the injection of MnCl2. The limitation of these studies was the acquisitions of T1 maps in 2D on a limited number of slices through the tumors212223. Only a few studies acquired T1 maps in 3D, with the main drawback of long acquisition times: from 40 min24 to ~2 h25.…”

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confidence: 99%

In vivo MEMRI characterization of brain metastases using a 3D Look-Locker T1-mapping sequence

Castets

Koonjoo

Hertanu

et al. 2016

Sci Rep

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Although MEMRI (Manganese Enhanced MRI) informations were obtained on primary tumors in small animals, MEMRI data on metastases are lacking. Thus, our goal was to determine if 3D Look-Locker T1 mapping was an efficient method to evaluate Mn ions transport in brain metastases in vivo. The high spatial resolution in 3D (156 × 156 × 218 μm) of the sequence enabled to detect metastases of 0.3 mm3. In parallel, the T1 quantitation enabled to distinguish three populations of MDA-MB-231 derived brain metastases after MnCl2 intravenous injection: one with a healthy blood-tumor barrier that did not internalize Mn2+ ions, and two others, which T1 shortened drastically by 54.2% or 24%. Subsequent scans of the mice, enabled by the fast acquisition (23 min), demonstrated that these T1 reached back their pre-injection values in 24 h. Contrarily to metastases, the T1 of U87-MG glioma remained 26.2% shorter for one week. In vitro results supported the involvement of the Transient Receptor Potential channels and the Calcium-Sensing Receptor in the uptake and efflux of Mn2+ ions, respectively. This study highlights the ability of the 3D Look-Locker T1 mapping sequence to study heterogeneities (i) amongst brain metastases and (ii) between metastases and glioma regarding Mn transport.

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confidence: 99%

In vivo MEMRI characterization of brain metastases using a 3D Look-Locker T1-mapping sequence

Castets

Koonjoo

Hertanu

et al. 2016

Sci Rep

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“…Our results here agreed well with our previous results of greater enhancement by MEMRI of mesotheliomas with higher levels of Mn-SOD-expression. 5 In addition, because we have shown comparable results between MEMRI using manganese dipyridoxyldiphosphate (MnDPDP), a Mnchelating contrast agent used clinically, and MEMRI using MnCl 2 , 5 our studyˆndings have clinical implications.…”

Section: Discussionmentioning

confidence: 75%

“…Our recent report that MEMRI could be used to detect mesothelioma with high expression of Mn-SOD suggested the possible preferential enhancement of tumors overexpressing Mn-SOD by MEMRI. 5 Here, we further evaluate the usefulness of MEMRI in tumor detection and investigate the eŠects of Mn-SOD expression in tumor enhancement by MEMRI.…”

Section: Introductionmentioning

confidence: 99%

Tumor Enhancement Effect of Overexpressed Manganese-superoxide Dismutase in Manganese-enhanced MR Imaging

et al. 2011

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Purpose: Manganese-enhanced magnetic resonance imaging (MEMRI), used to trace neuronal connections and visualize brain activity, has recently been suggested useful for tumor detection, but the mechanism of tumor enhancement by manganese (Mn) is poorly understood. Our recent report of preferential enhancement of human mesothelioma cells with higher levels of manganese-superoxide dismutase (Mn-SOD) expression may suggest a correlation between Mn-SOD expression and enhancement. We investigate this possibility further using engineered human ovarian cancer cells overexpressing Mn-SOD.Methods: We subcutaneously implanted SK-OV-3 human ovarian cancer cells stably overexpressing Mn-SOD (SK-Mn-SOD) into athymic nude mice and SK-OV-3 cells with plasmid DNAs carrying neomycin-resistant genes (SK-neo) into the same mice for controls. We conducted MEMRI in the tumor-bearing mice and compared enhancement between the 2 tumors.Results: Subcutaneous SK-Mn-SOD tumors were preferentially enhanced in MEMRI compared to SK-neo tumors. After Mn enhancement, the T 1 -relaxation rate (R 1 ＝1/T 1 ) increased signiˆcantly for SK-Mn-SOD but not SK-neo tumors.Conclusion: In some tumors, high expression of Mn-SOD may be a biological factor responsible for enhanced signal in MEMRI.

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“…Regarding exposure to asbestos, MRI could be regarded as suitable for potentially repeated examinations following initial screening by CT. 138,139 In an experimental model of malignant mesothelioma, Hasegawa et al 140 reported the use of manganese-enhanced MRI (MEMRI) for selective mesothelioma imaging in vivo. The authors made use of the high-level expression of manganese-superoxide dismutase (Mn-SOD) observed in malignant mesotheliomas to induce accumulation of manganese (Mn 21 ) ions in tumors, resulting in significant T 1 signal enhancement in vitro and in vivo in xenografted pleural tumors (Figure 17.10).…”

Section: Side Effects From Inhaled Pollutants or Particlesmentioning

confidence: 99%

CHAPTER 17. Magnetic Resonance Imaging in Respiratory Diseases: From Diagnosis to Pharmaceutical Research and Development

Beckmann¹,

Egger²,

Crémillieux³

2013

New Developments in NMR

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Molecular imaging of mesothelioma by detection of manganese‐superoxide dismutase activity using manganese‐enhanced magnetic resonance imaging

Cited by 17 publications

References 26 publications

In vivo MEMRI characterization of brain metastases using a 3D Look-Locker T1-mapping sequence

In vivo MEMRI characterization of brain metastases using a 3D Look-Locker T1-mapping sequence

Tumor Enhancement Effect of Overexpressed Manganese-superoxide Dismutase in Manganese-enhanced MR Imaging

CHAPTER 17. Magnetic Resonance Imaging in Respiratory Diseases: From Diagnosis to Pharmaceutical Research and Development

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