Molecular Targeted Enhanced Ultrasound Imaging of Flk1 Reveals Diagnosis and Prognosis Potential in a Genetically Engineered Mouse Prostate Cancer Model
Abstract:Molecular imaging techniques used to detect the initiation of disease have the potential to provide the best opportunity for early treatment and cure. This report aimed at testing the possibility that Flk1+ (vascular endothelial growth factor receptor 2), a crucial angiogenesis factor of most tumor cells, could be a molecular targeted imaging marker for the diagnosis and prognosis of cancer. We performed Flk1-targeted microbubble-enhanced ultrasound (US) imaging of prostate cancer in a genetically engineered m… Show more
“…In these studies, different tumors were used, such as human squamous cell carcinoma, 17 breast cancer, 16 human ovarian cancer, 19 orthotopic pancreatic tumor, 15 angiosarcoma, malignant glioma, 18 and prostate cancer. 46 The present study indicates that target-specific VEGFR2 binding microbubbles can be used for noninvasive in vivo visualization and detection of orthotopic prostate cancer in a rat tumor model. The results show that the specific contrast agent investigated could be of great interest for animal studies on new drugs directed against endothelial receptors.…”
Section: Discussionmentioning
confidence: 93%
“…In further studies, [15][16][17][18][19]46 it had been shown that molecular US using microbubbles binding to VEGFR2 allow visualization and quantification of angiogenesis and VEGFR2 expression in xenograft tumor models in mice. In these studies, different tumors were used, such as human squamous cell carcinoma, 17 breast cancer, 16 human ovarian cancer, 19 orthotopic pancreatic tumor, 15 angiosarcoma, malignant glioma, 18 and prostate cancer.…”
The target-specific contrast agent was superior to the unspecific US contrast agent both with regard to early inflow analysis and specific accumulation in prostate cancer after 20 minutes.
“…In these studies, different tumors were used, such as human squamous cell carcinoma, 17 breast cancer, 16 human ovarian cancer, 19 orthotopic pancreatic tumor, 15 angiosarcoma, malignant glioma, 18 and prostate cancer. 46 The present study indicates that target-specific VEGFR2 binding microbubbles can be used for noninvasive in vivo visualization and detection of orthotopic prostate cancer in a rat tumor model. The results show that the specific contrast agent investigated could be of great interest for animal studies on new drugs directed against endothelial receptors.…”
Section: Discussionmentioning
confidence: 93%
“…In further studies, [15][16][17][18][19]46 it had been shown that molecular US using microbubbles binding to VEGFR2 allow visualization and quantification of angiogenesis and VEGFR2 expression in xenograft tumor models in mice. In these studies, different tumors were used, such as human squamous cell carcinoma, 17 breast cancer, 16 human ovarian cancer, 19 orthotopic pancreatic tumor, 15 angiosarcoma, malignant glioma, 18 and prostate cancer.…”
The target-specific contrast agent was superior to the unspecific US contrast agent both with regard to early inflow analysis and specific accumulation in prostate cancer after 20 minutes.
“…As a multiple biomarker associated with epithelium origin (very rarely arisen from mesenchymal tissue, see table 2) TRIM59 may be used as an EMT (epithelium–mesenchymal transition) specific cobiomarker. The TRIM59 antibody may also be used for molecular-targeted imaging as a new diagnostic marker, for example, in the context of targeted microbubble ultrasound destruction technology,23 before the protocol of a serum TRIM59 test can be established.
Strengths and limitations of this study
TRIM59 may be used a novel multiple tumor marker for immunohistochemical detecting early tumorigenesis and could direct a novel strategy for molecular-targeted diagnosis and therapy of cancer.
The work was mostly on human tumor samples by immunohistochemistry.
…”
Section: Discussionmentioning
confidence: 99%
“…22). In a transgenic mouse test of TRIM59 upregulation specifically in the prostate, TRIM59 demonstrated full oncogenic activity in directing tumorigenesis and progression to highest-grade CaP 17 23. The signal pathway of TRIM59 may be possibly linked with two large oncogene routes: the Ras/Raf/MEK/ERK/PI3K/AKT and the SV40 Tag/p53/pRB routes 17.…”
Objectives and designWe identified a novel TRIM59 gene, as an early signal transducer in two (SV40Tag and Ras) oncogene pathways in murine prostate cancer (CaP) models. We explore its clinical applications as a multitumour marker detecting early tumorigenesis by immunohistochemistry (IHC).Setting and participants88 CaP patients were from a tissue microarray (TMA) of radical prostatectomy specimen, 42 patients from a 35 multiple tumour TMA, 75 patients with renal cell carcinoma (RCC) and 92 patients from eight different tumour groups (breast, lung, parotid, gastrointestinal, female genital tract, bladder, kidney and prostate cancer).ResultsTRIM59 upregulation specifically in tumour area was determined by IHC in 291 cases of 37 tumour types. To demonstrate that TRIM59 upregulation is ‘tumour-specific’, we characterised a significant correlation of TRIM59 IHC signals with tumorigenesis and progression, while in control and normal area, TRIM59 IHC signal was all negative or significantly low. TRIM59 protein upregulation in prostate and kidney cancers was detectable in both intensity and extent in early tumorigenesis of prostate intraepithelial neoplasia (p<0.05) and grade 1 of RCC (p<0.05), and stopped until high grades cancer. The results of the correlation in these two large cohorts of tumour types confirmed and repeated murine CaP model studies. Enhanced TRIM59 expression was identified in most of the 37 different tumours, while the highest intensities were in lung, breast, liver, skin, tongue and mouth (squamous cell cancer) and endometrial cancers. Multiple tumour upregulation was further confirmed by comparing relative scores of TRIM59 IHC signals in eight tumours with a larger patient population; and by a mouse whole-mount embryo (14.5 days post conception) test on the origin of TRIM59 upregulation in epithelial cells.ConclusionsTRIM59 may be used a novel multiple tumour marker for immunohistochemical detecting early tumorigenesis and could direct a novel strategy for molecular-targeted diagnosis and therapy of cancer.
“…Microbubbles have been widely used as contrast agents to increase the blood backscatter in diagnostic ultrasound imaging [1]–[3]. More recently, it has been shown that microbubbles may also hold great potential for disease treatment, including oxygen delivery to hypoxic tissues [4], drug and gene delivery [5], [6], cavitation-assisted thrombolysis [7] as well as localized and transient opening of the blood–brain barrier (BBB) for targeted drug and gene delivery [8]–[10].…”
To fully assess contrast-enhanced acoustic bioeffects in diagnostic and therapeutic procedures, the mechanical properties of microbubbles need to be considered. In the present study, direct measurements of the microbubble stiffness were performed using atomic force microscopy by applying nanoscale compressions (up to 25 nN/s) on size-isolated, lipid-coated microbubbles (diameter ranges of 4 to 6 μm and 6 to 8 μm). The stiffness was found to lie between 4 and 22 mN/m and to decrease exponentially with the microbubble size within the diameter range investigated. No cantilever spring constant effect was found on the measured stiffness. The Young’s modulus of the size-isolated microbubbles used in our study ranged between 0.4 and 2 MPa. Microstructures on the surface of the microbubbles were found to influence the overall microbubble elasticity. Our results indicated that more detailed theoretical models are needed to account for the size-dependent microbubble mechanical properties to accurately predict their acoustic behavior. The findings provided useful insights into guidance of cavitation-induced drug and gene delivery and could be used as part of the framework in studies on the shear stresses induced on the blood vessel walls by oscillating microbubbles.
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